DBPs disinfection

7/24/2019 DBPs disinfection

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WST - 319 Resultsfor term "disinfection byproducts"

Control of disinfection and halogenated disinfection byproducts by the electrochemical processY.J. Jung, B.S. Oh, J.W. Kang, M.A. Page, M.J. Phillips, B.J. MariñasWater Science and Technology Jun 2007, 55 (2! 2#2$% DOI: 0&2'')st&2007&*0$&&&+ontrol of disinfection and halogenated disinfection byproducts by the electrochemicalprocess &J& Jung-, .&S& /h-, J&W& ang-, 1&& 3age--, 1&J& 3hillips-- and .&J& 1arin4as---epartment of 6nironmental 6ngineering, 86ST, onsei 9niersity, 2* 1ae:i, ;eungup, Won:ucity, <ang)on, South orea&&&

• Development of normal human colon cell cultures to identify priority unregulated disinfection by-

products with a carcinogenic potential

A.B. DeAngelo, C.P. Jones, M.P. Moyer

Water Science and Technology ec 2007, 5' (2! 5#55% DOI: 0&2'')st&2007&=0&&&eelopment of normal human colon cell cultures to identify priorityunregulated disinfection by-products )ith a carcinogenic potential &.& engelo-, +&3& Jones-and 1&3& 1oyer-- -9nited States 6nironmental 3rotection gency, >ational ;ealth and6nironmental 6?ects @esearch Aaboratory, 0$ T&&&

• Fractionation of natural organic matter in the Nile River: implications for treated water quality

Edward . S!i"h, Ah!ed A. Al#a$any Water Science and Technology 1ay 200$, 5$ (0! $=$#$$7% DOI: 0&2'')st&200$&$=&&&7*, +airo =5, 6gypt 6#mailB edsmithCaucegypt&edu hmed & lDabany 8ntegral +onsult,+airo 5, 6gypt 6#mailB alDabanyEahmedCyahoo&com @ecent sampling pro:ects in greater+airo, 6gypt hae indicated the presence of trihalomethanes and other chlorine disinfection by-products (.3s! in the public&&&

• Review of fundamentals and specific aspects of oxidation technologies in marine waters

A. Korn!ueller Water Science and Technology Jun 2007, 55 (2! #'% DOI: 0&2'')st&2007&7$&&&oFidation processes in bracGish )ater and sea)ater& The oFidation reactions of adancedoFidation processes (/3s! and the formation of disinfection byproducts (.3s! areconsiderably di?erent in marine )aters from )ell#Gno)n drinGing, process and )aste)aterapplications& 8n contrast, the ma:or secondary&&&

•

eracetic acid for secondary effluent disinfection: a comprehensive performance assessment

M. An"onelli, A. %urolla, &. Me''ano""e, C. (uri''oWater Science and Technology ec 20, '= (2! 2'=#2'**% DOI: 0&2'')st&20&5*2&&&H agricultural reuse, ecotoFicity, Ginetics, microbial regro)th, peracetic acid,)aste)ater disinfection 8>T@/9+T8/> 8n 8taly the use of chlorine#based disinfectants hasbeen strongly constricted due to the risGs related to Disinfection By-Products(.3s!occurrence& @egulations on )aste)ater reuse set&&&

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• !n online simulation to support the operation of municipal sewage plants

). Kolis*h, J. +ondongWater Science and Technology ug $$=, = (! 7#7=% DOI:&&&Technology epartment, .ismarcGstrasse $0, <ermanyI Disinfection by-products andmicrobial contamination in the treatment of pool )ater )ith granular actiated carbon I

microbial contamination, <+, 3ool )ater treatment, disinfection by-productsI Disinfection by-products and microbial contamination&&&

• erformic acid for advanced wastewater disinfection

%. Karpo,a, P. Pe-onen, . )ra!s"ad, /. 01s"ed" , S. +a$orda, . einonen2%ans-i, A. Ch3,e' , B. Ji!4ne' Water Science and Technology >o 20, '= ($! 20$0#20$'% DOI: 0&2'')st&20&*'=&&&, in the presence of organic matter, halogen#based disinfectants generate harmful, persistentand bio#accumulatie disinfectionby-products (.3s! such as haloacetic acid, trihalomethanesand chloramines& Kree and combined chlorine residues are toFic to aDuatic organisms,thus, disinfected efLuent must&&&

• hotoreactivation of "scherichia coli following medium-pressure ultraviolet disinfection and its

control using chloramination

P.. 5ue- , J.Y. u, 6.(. Chu, Y.Y. 7eng, 6.+. %anWater Science and Technology 1ar 200', 5 ('! 2#2$% DOI: 0&2'')st&200'&=*&&&% 9M disinfection 8ntroduction 9ltraiolet disinfection is fast emerging as one of the mostpopular alternatie disinfectiontechnologies to chlorination& 8n recent years, many )ater and)aste)ater treatment plants hae s)itched to 9M disinfection due to health concerns oerchlorination by-products&&&

• "ffect of peracetic acid# ultraviolet radiation# nanofiltration-chlorine in the disinfection of a non

conventional source of water $%ula &alley'

J. %ru1illo, J. A. Barrios, B. Ji!ene' Water Science and Technology 1ar 200=, 57 (*! '2#'27% DOI: 0&2'')st&200=&=&&&of disinfection plays an important role in the elimination of pathogenic microorganisms& 6enthough chlorination is the most applied process based on its e?ectieness and cost, itsapplication is being Duestioned considering the formation of disinfectionby-products (.3s!& Therefore, alternatie disinfectants&&&

• ! new disinfection system for wastewater treatment: performic acid full-scale trial evaluations

P. aga''o, (. Chiu**hini, &. Pi**olo, M. Os"oi*hWater Science and Technology Jun 20, '7 (! 2*7'#2*=7% DOI: 0&2'')st&20&7&&&potential appl lo) temperatures for thesafety, the number of alternaties is drastically reducedand selecting the most appropriatedisinfection technology0&7 to &2 log, respectiely, at +Tconditions lo)er than 2 mgA min& There )ere no eco#toFicological e?ects measured by MibrioNscheri or by-product&&&

• Disinfection and Clarification of %reated (ewage by !dvanced )icrofiltration








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M. Kolega, ). S. )roh!ann, . 7. Chiew, A. W. Day Water Science and Technology pr $$, 2 (7#$! '0$#'=% DOI:&&&species has been studied (Wilde, et a8, $=! and it )as found that chlorine dioFide )assubstantially more toFic than chlorine& The use of oOone is a recent deelopment inthe disinfection of )aste)ater& /Oone is an eFtremely toFic gas and is highly toFic to marinelife& ToFic by-products&&&

• %oxicity screening and evaluating in chlorination disinfection of wastewater reclamation processes

Dong$in Wei, +isha Wang, Jie Wei, ong2Ying uWater Science and Technology 1ay 200', 5 ($! 2$#2*'% DOI: 0&2'')st&200'&2=&&&disinfectants may react )ith some organic compounds and form disinfection by-products (.3s! )hich bring aderse e?ects on the ecosystem and human health (>issinen etal&, 2002% shbolt, 200*!& ;o) to balance biological safety and ecological safety is the primarycontradiction in )aste)ater disinfection&&&

• Comparison *etween Chlorine Dioxide and Chlorine for +se as a Disinfectant of ,astewater "ffluents

(. (ar-is, Y. Ko"" Water Science and Technology /ct $$2, 2' (7#=! *=#*$2% DOI:&&&& 6P36@816>TA The behaior of both chlorine dioFide and chlorine, each as anindependent disinfectant, )as studied on eQuents from actiated sludge and high rate tricGlingNlters of the ;aifa 1unicipal Se)age Treatment 3lant& The results of thedisinfection eRciency,residual disinfectant and byproducts&&&

•

Solar photocatalytic disinfection )ith immobilised Ti/2 at pilot#plant scale

Carlos Sordo, a8ael &an )rie-en, Ja,ier Marug3n, Pilar 7ern3nde'29$3ñe'

Water Science and Technology Jan 200, ' (2! 507#52% DOI: 0&2'')st&200&=7'&&&such as chlorination and oOonation hae long been used for disinfecting drinGing )ater&;o)eer, chlorine#based species can react )ith dissoled organic matter present in the )aterforming more than '00 carcinogenic disinfection by-products (.3s! (Mogt @egli $=%rasner et al& 200'!& 3hotocatalytic technologies&&&

• !n antimicrobial polycationic sand filter for water disinfection

Annalisa Onnis2ayden, Bryan B. su, Ale:ander M. Kli$ano, , April ;. )uWater Science and Technology 1ay 20, ' ($! $$7#200% DOI: 0&2'')st&20&**0&&&, harmful disinfection byproducts (.3s! produced during the chlorination process, such ascarcinogenic trichloromethanes and chloroacetic acids, hae raised concerns and motiated

eFploration of other disinfection agents (+ant)ell et al&

). Suchalternative disinfectants hae included chloramines&&&

• Disinfection of tertiary wastewater effluent prior to river discharge using peracetic acid treatment

efficiency and results on by-products formed in full scale tests

Per O,ergaard Pedersen, Erling Brodersen, Da,id Ce*ilWater Science and Technology >o 20, '= (=! =52#=5'% DOI: 0&2'')st&20&*'

















&&&chamber, s sludge 2/#process )itDisinfection of tertiary )aste)ater efL discharge usingperacetic acid% treatme results onby-products formed in full sc 3er /ergaard 3edersen, 6rling.rodersen and a .ST@+T This is an inestigation of chemical disinfection, )ith peraceticacid ( a full scale&&&

• "xploring the potential synergistic effects of chemical disinfectants and +& on the inactivation of free-

living bacteria and treatment of biofilms in a pilot-scale system

E. &an-er*-ho,en, B. &er$esse!, S. Crauwels, P. De*ler*- , K. Muylaer" , K. A. Wille!s, . ediersWater Science and Technology Sep 20, '* ('! 2*7#25% DOI: 0&2'')st&20&7=&&&the preferred biocide has been hypochlorite, because of its e?ectieness, ease of use, andrelatiely lo) cost (<rant.ott ). However, the use of hypochlorite is increasingly debated because of the

formation of toxic, mutagenic and/or carcinogenic disinfection by-products, such as trihalomethanes&&&

• Correlations between surrogate nitrogenous organic precursors and C-# N-D* formation

. . Chang, ). S. Wang

Water Science and Technology ec 20, '* (2! 2$5#2*0% DOI: 0&2'')st&20&=2&&&& ; Schmidt & rauch ; !uo & "#$% '( *ublishing "+ (ater Science & Technology H '*&2H 20)ere identiNed in a drinGing )ater )ell impacted by ground)ater recharge near a rocGetengine testing facility)ere much higher than traditionalcarbonated disinfection byproducts (+&&&

• %he combined performance of +& light and chlorine during reclaimed water disinfection

M. Mon"e!ayor , A. Cos"an, 7. +u*ena, J. Jo8re, J. Muño' , E. Dal!au, . Mu1eriego, +. SalaWater Science and Technology 1ar 200=, 57 ('! $5#$*0% DOI: 0&2'')st&200=&20'&&&The combined performance of 9M light and chlorine during reclaimed )ater disinfection 1&1ontemayor, & +ostan, K& Aucena, J& Jofre, J& 1un4oO, 6& almau, @& 1u:eriego and A& Sala.ST@+T 1& 1ontemayor & +ostan K& Aucena J& Jofre epartament de 1icrobiologia, Kacultat de

.iologia, 9niersitat de&&&

• Removal of ./ 0 -estradiol $"1' and its chlorination by-products from water and wastewater using non-

imprinted polymer $N2' particles

Audrey Murray , Banu 0r!e*i, E. P. C. +aiWater Science and Technology Sep 20, '* ('! 2$#2$7% DOI: 0&2'')st&20&72&&&& ; -effries et al. ). hlorination, widely used for disinfection of drinGing )ater and)aste)ater, has been sho)n to achiee the remoal of estrogens to an eFtent (eborde et al&

); however, formation of chlorination by-products remains a concern (orshin et al& ).

orshin et al. 0 ) reported...

• "valuation of ultrasound technology for the disinfection of process water and the prevention of

biofilm formation in a pilot plant

(. +a!$er" , . ediers, A. uls!ans, K. Joris, P. De*ler*- , Y. De +aed" , S. +iersWater Science and Technology 1ar 200, ' (5! 0=$#0$'% DOI: 0&2'')st&200&75&&&6aluation of ultrasound technology for the disinfection of process )ater and the preentionof bioNlm formation in a pilot plant >& Aambert, ;& @ediers, & ;ulsmans, & Joris, 3& eclercG, &



















e Aaedt and S& Aiers .ST@+T >& Aambert & ;ulsmans & Joris S& Aiers Aaboratory for6nironmental&&&

• %he advanced "cto(ys electrolysis as an integral part of a ballast water treatment system

J. E*hard" , A. Korn!ueller Water Science and Technology >o 200$, '0 ($! 2227#22*% DOI: 0&2'')st&200$&'7'&&&hydroFyl radicals& ccordingly, disinfection byproduct (.3! formation )as ery lo) andclose to the limit of DuantiNcation in rier )ater& While in bracGish )ater, initial residual oFidantconcentrations )ere maFimum 2 mgA as chlorine and mostly brominated .3 (especiallybromoform and bromate! )ere&&&

• Disinfection performance of Fe$&2' in water and wastewater: a review

&.K. Shar!aWater Science and Technology Jan 2007, 55 (#2! 225#22% DOI: 0&2'')st&2007&0$&&&transform organics in )ater to disinfectant byproducts (3.!& There hae been more than500 identiNed 3., )hich may hae long#term health implications& Kor eFample, oOone can form

the potent carcinogen bromate ion by reacting )ith bromide present in )ater& @ecent researchsuggests that the treatment&&&

• Calibration of tipping buc3et rain gauges

S. O,ergaard, A. . El2Shaarawi, K. Arn$1erg2(ielsenWater Science and Technology Jun $$=, 7 (! $#*5% DOI:&&&haOardous compounds such as trihalomethanes are formed& Studies hae sho)n that theformation of undesired disinfectionby-products is far higher )hen chlorination is applied in theabsence of ammonia% as a conseDuence, )ell operated se)age treatment plants )ith nutrientremoal must be considered&&&

• (econdary effluent reclamation: combination of pre-treatment and disinfection technologies

+. Al*alde, M. 7ol*h, J. C. %apias, 7. Mar"<ne' , S. Engu<danos, 9. Bern3*er Water Science and Technology Jun 200=, 57 (2! $'#$'=% DOI: 0&2'')st&200=&'2'&&&guarantee the maFimum eRciency in pathogenic microorganism remoal )ithout generatingtoFic and undesirable by-products& Then, it is important to combine an adeDuate pre#treatmentsystem before disinfection of secondary eQuents, to enhancedisinfection eRciency& neFperimental study )as carried out&&&

• erformance of chlorination process during nanofiltration of sulfonamide antibiotic

Mohd ed'uan a!li, (i- Meria! (i- Sulai!an, Mus"a8a Ali Mohd, Moha!ad 7airus a$uni

Water Science and Technology >o 205, 72 ($! '#'20% DOI: 0&2'')st&205&'7&&&osmosis e lo) molecular )eight organic the disinfection by-products @ifai et al& ;

1olar et al. ). 2ltration has a few drawbac3s. 4embrane processes are unable to destroy organic 5 '(

*ublishing "+% (ater Science & Technology H 72&$ H 205tional )ater treatment plants sho)edincomplete&&&

• %rac3ing disinfection by-products and arsenic removal during various drin3ing water treatment trains















Ale-sandra %u$i= , Bo>o Dal!a*i1a, Jas!ina Ag$a$a, 9,ana 9,an?e,2%u!$as, Mile Kla@n1a, Milena Dal!a*i1aWater Science and Technology Jun 200, ' (2! '$#77% DOI: 0&2'')st&200&$2'&&&TracGing disinfection by-products and arsenic remoal during arious drinGing )atertreatment trains leGsandra TubicU, .oVo almaci:a, Jasmina gbaba 8ana 8ane#Tumbas, 1ilelaXn:a and 1ilena almaci:a .ST@+T leGsandra TubicU (corresponding author! .oVoalmaci:a Jasmina gbaba 8ana&&&

• 4uantifying the formation of nitrogen-containing disinfection by-products in chlorinated water using

absorbance and fluorescence indexes

P. o**aro, 7. ). A. &agliasindi, ). &. KorshinWater Science and Technology Jan 20, ' (! *0#**% DOI: 0&2'')st&20&00'&&&Yuantifying the formation of nitrogen#containing disinfection by-products in chlorinated)ater using absorbance and Luorescence indeFes 3& @occaro, K& <& & Magliasindi and <& M& orshin.ST@+T mong Gno)n but unregulated disinfectionby-products (.3s!, seeral nitrogenousspecies (>#.3s! hae&&&

• (tudy of constructed wetlands effluent disinfected with o5one

(. D. Miranda, E. +. Oli,eira, ). . . Sil,aWater Science and Technology Jul 20*, 70 (! 0=#% DOI: 0&2'')st&20*&202&&&constructed )etlands efLuent )ith similar characteristics, thus allo)i ey )ords H by-products, disinfection, sanitary )aste)ater, oOone 8>T@/9+T8/> +onstructed )etlands arecontrolled systems that simulateisinfected )ith uent from constructed maldehyde, as )ell as theo) of oOone )as applied to 0 min&&&

•

3hotocatalytic )ater disinfection of Cryp"osporidiu! par,u! and )iardia la!$lia using a Nbrous

ceramic Ti/2 photocatalyst

Sergio (a,alon, Mer*edes Al,aro, er!enegildo )ar*ia, Daniel Es*rig, &<*"or Cos"aWater Science and Technology Keb 200$, 5$ (*! '$#'*5% DOI: 0&2'')st&200$&0'&&&& /hanian, 6& M& $$0 ;ealth e?ects of disinfectants and disinfection by-productsB aregulatory perspectie& Water +hlorination ', 75Z='& 3ontius, K& W& 2002 @egulatory complianceplanning to ensure )ater supply safety& J& m& Water WorGs ss& $*, 52Z'*& 3oOOo, @& A&, .altanas,1& & +assano, & 6& $$7&&&

• "lectrochemical disinfection of secondary wastewater treatment plant $,,%' effluent

). P4re' , P. )!e' , . 9$añe' , 9. Or"i' , A. M. /r"iagaWater Science and Technology ug 200, '2 (*! =$2#=$7% DOI: 0&2'')st&200&2=&&&of disinfection by-products (.3s! )as follo)ed by measuring the content oftrihalomethanes (T;1s! that neertheless )as maintained belo) 00mgA, so it can beconcluded that the formation of .3s is not a disadantage of electrochemicaldisinfection ofsecondary eQuents of WWT3& ey )ords H electrooFidation&&&

• Control of dangerous substances in discharges and microbiological abatement: "uropean framewor3

and a case study of an o5one disinfection system

























M. Os"oi*h, 7. Serena, +. 7alle""i, A. 7an"oniWater Science and Technology 1ar 20, '7 ('! 2=#2*'% DOI: 0&2'')st&20&'=5&&&discharges the parameter 6scherichia coli Z 6+ Z is imposed by la) )ith a maFimum limit alueof 5,000 cfu00 mA!& AiDuid )aste and disinfection by-products must be considered )hendesigning appropriate monitoring of dangerous substances% the speciNc classes of substancesmust be inestigated according&&&

•

ccumulation of copper and siler onto cell body and its e?ect on the inactiation

ofPseudo!onas aeruginosa

M.). wang, . Ka"aya!a, S. Ohga-iWater Science and Technology ug 200', 5* (! 2$#*% DOI: 0&2'')st&200'&***&&&, numerous researches hae reported on the disadantages of chlorination, because ofrecoloniOation and health haOards, especially the damage of disinfection byproducts includingtrihalomethanes, haloacetic acids, bromate and chlorite formed during the reaction of chlorine)ith natural organic matter&&&

• Nitrogen enriched dissolved organic matter $D6)' isolates and their affinity to form emerging

disinfection by-products

A. Do"son, P. Wes"erho , S. W. Krasner Water Science and Technology Jul 200$, '0 (! 5#*% DOI: 0&2'')st&200$&&&&>itrogen enriched dissoled organic matter (/1! isolates and their aRnity to formemerging disinfection by-products & otson, 3& Westerho? and S& W& rasner .ST@+T &otson 3& Westerho? epartment of +iil and 6nironmental 6ngineering, riOona State9niersity, 6ngineering +enter (<&&&

•

%he removal of disinfection by-product precursors from water with ceramic membranes

B. 9. ar!an, . Koseoglu, (. O. Yigi" , E. Sayilgan, M. Beyhan, M. Ki"isWater Science and Technology ug 200, '2 (! 5*7#555% DOI: 0&2'')st&200&2'0&&&The remoal of disinfection by-product precursors from )ater )ith ceramic membranes .& 8&;arman, ;& oseoglu, >& /& igit, 6& Sayilgan, 1& .eyhan and 1& itis .ST@+T .& 8& ;arman ;&oseoglu >& /& igit 6& Sayilgan 1& .eyhan 1& itis (corresponding author! epartment of6nironmental 6ngineering&&&

• +& disinfection of wastewater effluents for unrestricted irrigation

A.M. (asser , . Paul!an, O. Sela, %. K"ai"'er , . Ci-urel, 9. ;u*-er!an, A. Meir , A. Aharoni, A. Adin

Water Science and Technology ug 200', 5* (! =#==% DOI: 0&2'')st&200'&*52&&&eRciency of 9M (.uhGari et al&, $$$!& These results, combined )ith the fact that 9M irradiationis a broad spectrum disinfectantfor iruses and bacteria )ith no formationof disinfection byproducts, encouraged W ater S cience T echno lo g y M o l 5 * > o p p = Z = = Y 8W 3 ub lishing 2 0 0 ' =&&&

• %he basics of oxidants in water treatment7 art *: o5one reactions

/. ,on )un"enWater Science and Technology Jun 2007, 55 (2! 25#2$% DOI: 0&2'')st&2007&=2


















&&&!& 8n contrast to organic oFidationdisinfection byproducts, bromate is not degraded in abiological Nltration process& /Oone in )ater /Oone has to be produced on site from air or frompure oFygen in the gas phase by corona discharge or directly in solution by electrochemicalprocesses& 8f produced in the gas&&&

•

8nactiation of Pseudo!onas aeruginosa in electrochemical adanced oFidation process )ith

diamond electrodes

M. )riessler , S. Kne"s*h, E. S*hi!p8 , A. S*h!idhu$er , B. S*hra!!el, W. Wesner , . So!!er , A. K.%. Kirs*hner Water Science and Technology 1ay 20, ' ($! 200#20'% DOI: 0&2'')st&20&***&&&treatment, such as 9M disinfection or boiling, no by-products are formed in the )ater and nochemicals are used& Kor chlorination and oOonation, chemicals need to be added to the )ater andundesirable by-products such as halogenated hydrocarbons (chlorination!, bromate (oOonation!and chlorite&&&

•

6?ect of the disinfection agents chlorine, 9M irradiation, siler ions, and Ti/2nanoparticlesnear#

9M on > molecules

Benoi" &an A-en, +ian2Shin +inWater Science and Technology Sep 20, '* ('! 22'#22% DOI: 0&2'')st&20&'=*&&&regulated by the ToFic Substance ct (63! (>oordoer disinfection process, 9M interest dueits high efNca poridium and <iardia chlorination byproducts ). Silver is a disinfecta control in

water suppliespublic health and it is widely accepted that wastewater treatment plants constitute a ma6or route...

•

+ontrol of disinfection byproduct formation in Keng#Shan reseroir by the traditional treatment

processes plus /Zpilot#plant test

Pon Yu +iu, Jerry J. Wu, Chih Chao WuWater Science and Technology Jun 2007, 55 (2! 27#% DOI: 0&2'')st&2007&$$&&&+ontrol of disinfection byproduct formation in Keng#Shan reseroir by the traditionaltreatment processes plus /Zpilot#plant test 3on u Aiu, Jerry J& Wu and +hih +hao Wu ept& of6nironmental Sci& and 6ng& Keng +hia 9niersity, Wen#h)a @d& 00, Taichung, +hinese Tai)an(6mailB cc)uCfcu&edu&&&

• 8inetic model of water disinfection using peracetic acid including synergistic effects

Marina J. 7lores, odol8o J. Brandi, Al$er"o E. Cassano, Marisol D. +a$asWater Science and Technology Jan 20', 7 (2! 275#2=2% DOI: 0&2'')st&205&*$&&&infections& n ideal disinfection system should efNciently and reliably destroy infectiousagents under normal operating conditions, )ithout producing toFic disinfection by-products (.3s!& +ommercial peracetic acid (3! has been increasingly The fact that the disifectant agents produce a e?ectie&&&























• erformic acid $F!': tests on an advanced primary effluent show promising disinfection

performance

. )ehr , D. Chen, M. MoreauWater Science and Technology Jan 200$, 5$ (! =$#$'% DOI: 0&2'')st&200$&7'

&&&studies sho)ed a correlation bet)een log fecal coliform remoals and 3K doses& 3K dose ofapproFimately &*mgA and a contact time of *5minutes could achiee #logs remoal, andalmost total disinfection could be achieed using a dose of 'mgA& The by-products of 3Kaddition are hydrogen peroFide&&&

•

noel approach to eFplain the inactiation mechanism of Es*heri*hia *oli employing a

commercially aailable peracetic acid

Marina J. 7lores, Maia . +es*ano, odol8o J. Brandi, Al$er"o E. Cassano, Marisol D. +a$asWater Science and Technology Jan 20*, '$ (2! 5=#'% DOI: 0&2'')st&20&72&&&but can also hae an important dra)bacG such as disinfection by-products (>ieu)enhui:senet al&disinfection8>T@/9+T8/> Water disinfection is carried out to preent the spread ofhuman pathogens that may be present in )aste)ater efLuents& The efNcient inactiation ofpathogenic bacteria, iruses&&&

• Nanofiltration for enhanced removal of disinfection by-product $D*' precursors in swimming pool

water9retention and water quality estimation

A. M. Klp8el, %. )launer , C. ;wiener , 7. . 7ri!!elWater Science and Technology pr 20, ' (=! 7'#725% DOI: 0&2'')st&20&2&&&>anoNltration for enhanced remoal of disinfection by-product (.3! precursors ins)imming pool )aterZretention and )ater Duality estimation & 1& lu[pfel, T& <launer, +&\)iener and K& ;& Krimmel .ST@+T Three nanoNltration (>K! membranes )ith a chlorinetolerance \ mg A]2% )ere applied&&&

• ,astewater reclamation systems in small communities

+. Al*alde, M. 7ol*h, J.C. %apias, E. uer"as, A. %orrens, M. Salgo" Water Science and Technology pr 2007, 55 (7! *$#5*% DOI: 0&2'')st&2007&$&&&needed to achiee a speciNc )ater Duality, and diminishes disinfection byproducts (.3s!generation& Therefore, this reclamation line is suitable for small communities due to its eRciencyand lo) cost& ;o)eer, further studies are needed in relation to the remoal mechanisms ofmicroorganisms, organic&&&

• %he use of o5one during advanced primary treatment of wastewater for its reuse in agriculture: an

approach to enhance coagulation# disinfection and crop productivities

A. E. Ca!pos2eales2Pineda, M. %. Or"a de &el3s#ue' , M. (. o1as2&alen*iaWater Science and Technology 1ar 200=, 57 ('! $55#$'2% DOI: 0&2'')st&200=&20*&&&microbiological reDuirements% (! comparing the e?ect that treated )aste)aters hae on crops&8t is eFpected that oOonated eQuents )ith a reduced chlorine dose )ill eFhibit lo)er toFicity toplants, due to a decrease on the formation of disinfection by-products (.3s!, since /degrades some&&&
























• %he use of antibacterial activity of n6 nanoparticles in the treatment of municipal wastewater

7a"e!eh El!i, esh!a"ollah Aline'had, ;ahra Moulana, 7a"e!eh Salehian, Sahar Mohseni%a,a--oli, 7ari$a Asgharpour , orrieh7allah, Marya! Mi"ra El!iWater Science and Technology Sep 20*, 70 (5! 7'#770% DOI: 0&2'')st&20*&22&&&na an eh )at d c hat h b solZgel methods& The synthesiOed \n/ >3s )ere characteriOed through

P#ray di?raction and 8randisinfection by-products (.3s! hae been characteriOed lid 9 M i:ne rcontains a ariety of pathogenic organisms of human origin, it is used for the irrigation of plants&&&

• "xperimental study on municipal and industrial reclaimed wastewater refinement for agricultural

reuse

. )ori, C. Care""iWater Science and Technology Jul 200=, 5= (! 27#22% DOI: 0&2'')st&200=&'5&&&in agriculture& 9M disinfactionB parasite remoal and by-products formation& esalination52(Z!, 5Z2*& Aubello, +&, +aretti, +& <ori, @& 2002 +omparison bet)een 3 9M and;2/29M disinfection for )aste)ater reuse& Water Suppl& 2(!, 205Z22& Aubello, +&, <ori, @&,>icese, K& 3& Kerrini, K& 200*&&&

• Control of bul3ing in a full scale plant by addition of talc $" ;<.;'

D. . Ei-el$oo!, J. )ro,ens"einWater Science and Technology Keb $$=, 7 (*#5! 2$7#0% DOI:&&&& This plant, )hich did not hae intermediate oOonation or granular actiated carbon (<+!treatment steps, had absolutely no barrier against the presence of phenol before theNnal disinfection )ith chlorine& second eFample of the formation of classical odorouschlorination by-products is illustrated&&&

• 6ccurrence of N-nitrosodimethylamine precursors in wastewater treatment plant effluent and their

fate during ultrafiltration-reverse osmosis membrane treatment

M. J. 7arr4, J. Keller , (. olling, Y. Poussade, W. )ern1a- Water Science and Technology Keb 20, ' (*! '05#'2% DOI: 0&2'')st&20&207&&&if chloramines may be present (or added! there& ey )ords $ chloramination, disinfection by-product, formation potential, >#nitrosodimethylamine, reerse osmosis membrane, )aterrecycling 8>T@/9+T8/> With traditional methods of )ater haresting being no longer suRcientto meet gro)ing demands, ne) methods&&&

• "ffectiveness of o5onation and chlorination on municipal wastewater treatment evaluated by a battery

of bioassays and biomar3ers

A. Kon"ana, C. A. Papadi!i"riou, P. Sa!aras, A. ;dragas, M. YiangouWater Science and Technology Sep 200$, '0 ('! *$7#505% DOI: 0&2'')st&200$&*7=&&&harmful by-products or transformation products due to their reactiity )ith organicinorganicmaterials or micropollutants (3le)a et al& 200*% rasner et al& 200'!& The Gind of disinfectant tobe used in each case depends on its bactericidal capacity and the method of administration tothe )aste)ater&&&

• !ntimicrobial resistance of fecal indicators in disinfected wastewater





















A. +u*'-iewi*' , K. Jan-ows-a, . Bray , E. Kul$a" , B. 5uan" , A. So-olows-a, K. Olan*'u-2(ey!anWater Science and Technology ec 20, '* (2! 252#2'% DOI: 0&2'')st&20&7'$&&&$27 ed as bacteriologically polluted & ). s a conseDuence, many orts hae beenperiodically closed& he potential of physical (9M light s chemical (oOonation! methods to theire?ectieness in remoing icrobial resistance& Disinfection 252 ^ 8W 3ublishing 20 WaterScience Technology&&&

•

Mariation of algal iability during electrochemical disinfection using Ti@u/2 electrodes

Wenyan +iang, Ke Wang, +i Chen, +ingling uan, +ili SuiWater Science and Technology Jul 20, '* (! '2#70% DOI: 0&2'')st&20&*$0&&&transmission electron microscopy 6 electrochemical disinfection ooms& lgal#relatedproblems in util dur atte i et nGi fec ter m me ). 't has achieved $$.$7 inactivation of ryptosporidium

parvum oocysts and lostridium perfringens spores which were very resistant to chlorine and other drin3ing water...

• %he impact of alum coagulation on the character# biodegradability and disinfection by-product

formation potential of reservoir natural organic matter $N6)' fractions

Yeow Chong Soh, 7eli*i"y oddi*- , John ,an +eeuwenWater Science and Technology /ct 200=, 5= ('! 7#7$% DOI: 0&2'')st&200=&*75&&&The impact of alum coagulation on the character, biodegradability and disinfection by-product formation potential of reseroir natural organic matter (>/1! fractions eo) +hong Soh,Kelicity @oddicG and John an Aeeu)en .ST@+T eo) +hong Soh (corresponding author! Kelicity@oddicG School of +iil&&&

• %he +se of =iquid-(olid "xtraction# Capillary Column >C?)( for the !nalysis of Chlorinated !cids

and henols in Drin3ing ,ater

. 9n8an"e, C. )u"ierre' , C. P4re' Water Science and Technology >o $$2, 2' ($#! 25=#25='% DOI:&&&& Kor some of these compounds, including chlorinated acids, phenols, andother disinfection by-products, no economically and technologically feasible method isaailable for their analysis& n analytical procedure utiliOing solid phase eFtraction combined )ithgas chromatographynass spectrometry (<+&&&

• "valuation of reflection and refraction in simulations of ultraviolet disinfection using the discrete

ordinates radiation model

C. K. oWater Science and Technology Jun 200$, 5$ (2! 2*2#2*2=% DOI: 0&2'')st&200$&2'0&&&popular as a result of the Aong#Term 2 6nhanced Surface Water Treatment @ule (AT26SWT@! (9S63 200'a! and Stage 2Disinfection Disinfection Byproducts @ule (9S 63 200'b!& 8n orderfor utilities to receie inactiation credits for 9M under the AT26SWT@, systems must Nrst bealidated under the speciNc&&&

•

3hotocatalytic inactiation of E. 8ae*alis in secondary )aste)ater plant eQuents























Karin Ba*-haus, Ja,ier Marug3n, a8ael ,an )rie-en, Carlos SordoWater Science and Technology 1ay 200, ' ($! 255#2'% DOI: 0&2'')st&200&05'&&&disinfection& ppl& +atal& .B 6niron& 5, 2=Z02& Sun, & &, Tay, J& ;& Tan, & 1& 2003hotocatalytic degradation of 6& coliform in )ater& Water @es& 7, *52Z*'2& Wert, 6& +&, @osario#/rtiO, K& A&, rury, & & Snyder, S& & 2007 Kormation of oFidation byproducts from oOonation

of )aste)ater& Water&&&

• Chemical pretreatment of combined sewer overflows for improved +& disinfection

J. )i$son, . 7arnood, P. Se"oWater Science and Technology Jan 20', 7 (2! 75#=% DOI: 0&2'')st&205&**7&&&been used for +S/ disinfection in the past& ;o)eer, the formation of toFic disinfection by-products oFygen demand (./_ and ./ of +S/s can ). 8he pollution load able, however,

sometime 2rst 9ush 0Su:re & 3uer of particulates and orga ). 'n addition to adverse environmental and

public health...

• ! study on the effects of o5one dosage on dissolved-o5one flotation $D6F' process performance

6in Jin, Peng-ang Jin, 6iao*hang WangWater Science and Technology 1ay 205, 7 ($! *2#*2=% DOI: 0&2'')st&205&5&&&eQuent from a )aste)ater treatment plant (WWT3! in +hina )as used to study the e?ect ofoOone dosage on the /K process performance& The results sho) that an oOone dosage coulda?ect the /K performance to a large eFtent in terms of color and organic matter remoal as )ellas disinfection performance&&&

• %echnical-economical analysis of selected decentrali5ed technologies for municipal wastewater

treatment in the city of Rome

ena"o )a,as*i, Agos"ina Chia,ola, Massi!o Spi''irriWater Science and Technology Sep 200, '2 ('! 7#7=% DOI: 0&2'')st&200&7&&&municipal )aste)ater treatment Water Science Technology`WST H '2&' H 200 chlorinationallo)s to aoid formation of toFicdisinfection by-products% besides, no modiNcation on thechemicalZ physical characteristics of the )ater are produced& The selected technologies )erestudied for their main technical&&&

• !ctivation of solgel titanium nanofilm by +& illumination for N6) removal

+. i''o, C.S. /yguner , . Sel*u- , M. Be-$ole" , M. AndersonWater Science and Technology Jun 2007, 55 (2! #=% DOI: 0&2'')st&2007&$5&&&! in drinGing )ater treatment plants is reDuired in order to control (i! the formation of potentiallyharmful disinfection byproducts(.3s!, (ii! the regro)th of bacteria and (iii! pipe corrosion in

the distribution system& 3hotocatalysis is a promising adanced oFidation technology due to itsability&&&

• 8inetic modelling of the photocatalytic inactivation of bacteria

Ja,ier Marug3n, a8ael ,an )rie-en, Al$er"o E. Cassano, Orlando M. Al8anoWater Science and Technology 1ar 200, ' ('! 5*7#55% DOI: 0&2'')st&200&057&&&!& These processes hae the adantage of aoiding the formation of carcinogenic andmutagenic chloro#organic disinfectionbyproducts deried from conentional chlorination















processes for disinfection of )ater (<opal et al& 2007!& Seeral research groups hae reportedthe application of semiconductor photocatalysis&&&

• Disinfection of greywater effluent and regrowth potential of selected bacteria

Eran 7riedler , Ana" Yardeni, Yael )il$oa, Yu,al AlyaWater Science and Technology 1ar 20, ' (5! $#$*0% DOI: 0&2'')st&20&272&&&apparatus is not needed, and it does not create un)anted by-products& The ma:ordisadantage of 9M is the lacG of residualdisinfectant that may result in regro)th of pathogensin the reuse system& nother possible disadantage of 9M disinfection is its energyreDuirements& This paper inestigates&&&

• !n experimental study for chlorine residual and trihalomethane formation with rechlorination

J. +ee, D. +ee, J. SohnWater Science and Technology Jan 2007, 55 (#2! 07#% DOI: 0&2'')st&2007&07&&&#70, orea (6#mailB purecro)CGorea&com% d:leeCGo)aco&or&Gr! --epartment of +iil and6nironmental 6ngineering, ooGmin 9niersity, ='#, +hongnung#dong, SongbuG#gu, Seoul

'#702, orea bstract 1aintenance of adeDuate chlorine residuals and controlof disinfection byproducts (.3s! throughout )ater&&&

• Comparison of computer software pac3ages for developing simulation models

(. (ir!ala-handan, E. Ege!en, 7. EdwardsWater Science and Technology ec $$=, = (! 5#22% DOI:&&&! Table 3ilot#scale )aste)ater treatment system Step <eneral data Kunction ppliedloadings By-product naerobic reactor 9S., 5 m +/ remoal, rough disinfection 0&= Gg+/ m2 d2 Stabilised anaerobic sludge and biogas Stabilisation pond (S3! 00 m2, 0&= mdepth +/, >;* #> and pathogens remoal '&&&

• Ferrate vs %raditional Coagulants in the %reatment of Combined 2ndustrial ,astes

S. J. de +u*a, M. Can"elli, M. A. de +u*aWater Science and Technology >o $$2, 2' ($#! 2077#20=0% DOI:&&&for disinfection, smaller dose and sludge generation to ferrate treatment& 3hysicochemicaltreatment coagulants ferrate industrial )astes ^ 8W 3ublishing $$2 Waf& Sci& Tech& Mol& 2',>o&$#88, pp& 2077#20=0, $$2& 3rinted in <reat .ritain& ll rights resered& 027#22$2 S&&&

• Disinfection and oxidation of sewage effluent water using o5one and +& technologies

B.S. Oh, S.J. Par- , Y.J. Jung, S.Y. Par- , J.W. KangWater Science and Technology Jan 2007, 55 (#2! 2$$#0'% DOI: 0&2'')st&2007&0'

&&&Disinfection and oFidation of se)age eQuent )ater using oOone and 9M technologies .&S& /h,S&J& 3arG, &J& Jung, S&& 3arG and J&W& ang epartment of 6nironmental 6ngineering, 86ST, onsei9niersity, 2* 1ae:i, ;eungup, Won:u city, ang)on, South orea (6#mailB :)GCyonsei&ac&Gr!bstract&&&

•

>oel Ti/2 nanocatalysts for )aste)ater puriNcationB tapping energy from the sun

















Y. +iu, J. +i, 6. 5iu, C. BurdaWater Science and Technology /ct 200', 5* (=! *7#5*% DOI: 0&2'')st&200'&7&&&has a number of adantages, including high oFidation eRciency for complete decompositionand mineraliOation of organic )aste, cost e?ectieness, and minimal disinfection by-products (;o?mann et al&, $$5% 1ills and Ae#;unte, $$7% Sila et al&, 200*% Son et al&, 200*!&

9nder ultraiolet (9M! light&&&

• "ffects of natural organic matter removal by integrated processes: alum coagulation and !C-

adsorption

M. S'la*h"a, W. Ada!s-iWater Science and Technology 1ay 200$, 5$ (0! $5#$57% DOI: 0&2'')st&200$&27&&&obsered in the S9M alue after the process implied a decrease in reactie /+ forms andconseDuently a diminished risG that disinfection by-products might form& ;3S6+ analysesmade it possible to describe the changes in the molecular )eight distribution for the organicsubstances persisting in the )ater&&&

•

+omparison of continuous ersus pulsed ultraiolet light emitting diode use for the inactiation

of Ba*illus glo$igii spores

%ho %ran, +eeAnn a*' , Mi*hael . )ri!aila, Mi*hael Miller , Willie 7. arper Water Science and Technology >o 20*, 70 ($! *7#*=0% DOI: 0&2'')st&20*&$5&&&chlorine or other chemical processes, 9M systems produce eryfe) disinfection byproducts (1etcalf 6ddy ; rittenden et al. ). <= wor3s for two

reasons. 8he 2rst and disinfection, and there scale 9M treatment sys technology becomes moeFpected to continue& 9M radiation can b diodes (A6s!, )hich&&&

• %rihalomethanes and haloacetic acid species from the chlorination of algal organic matter and

bromide

Y. Y. Wei, Y. +iu, . . Dai, 6. +iu, J. J. Wu, ;. Shi, J. en, Y. ;hangWater Science and Technology 1ar 20, ' ('! #20% DOI: 0&2'')st&20&*=&&&Trihalomethanes and haloacetic acid species from the chlorination of algal organic matter andbromide & & Wei, & Aiu, @& ;& ai, P& Aiu, J& J& Wu, \& Shi, J& @en and & \hang .ST@+T .romideand algal pollution are important factors inLuencingdisinfection byproduct (.3! formation&&&

• (ynthesis and structure-activity study of quaternary ammonium functionali5ed 0 -cyclodextrin-

carboxymethylcellulose polymers

Danielle Bonen8an" , 7ranois2en4 Bourgeois, Murielle Mi!eaul" , 7r4d4ri* Mone""e, Pa"ri*- (i#ue" "e, o$er" ausler Water Science and Technology Jun 20, ' (2! 2=27#2=2% DOI: 0&2'')st&20&'0&&&on a crosslinGed #cyclodeFtrin#carboFymethylcellulose polymer& Water Sci& Technol& ' ($!,22$Z20& .oorman, <& & 1rin3ing water disinfection byproductsB reie) and approachto toFicity ealuation& 6niron ;ealth 3erspect& 07 (Suppl !, 207Z27& .ore, 6&, ;braud, 1&,+hafsey, 8&, +hambon, +&, SG:ret, +&&&






















• Development and validation of an integrated cell culture-qR%CR assay for simultaneous

quantification of coxsac3ieviruses# echoviruses# and polioviruses in disinfection studies

B. K. Mayer , . yu, D. )erri"y , M. A$$as'adeganWater Science and Technology Jan 200, ' (2! 75#=7% DOI: 0&2'')st&200&==

&&&of the 9nited States 6nironmental 3rotection gencys (9S63s! Stage2 Disinfectants and Disinfection Byproducts @ule and the Aong Term 2 6nhanced SurfaceWater Treatment @ule& With the eFception of adenoirus, 9M has been reported to inactiateiruses )ith great eRciency (;ill et al& $70% 1a et al& $$*&&&

•

Solar#po)ered aeration and disinfection, anaerobic co#digestion, biological +/2 scrubbing and

biofuel productionB the energy and carbon management opportunities of )aste stabilisation

ponds

A. (. Shil"on, D. D. Mara, . Craggs, (. PowellWater Science and Technology Jul 200=, 5= (! 25#25=% DOI: 0&2'')st&200=&'''&&&Solar#po)ered aeration and disinfection, anaerobic co#digestion, biological +/2 scrubbing andbiofuel productionB the energy and carbon management opportunities of )aste stabilisationponds & >& Shilton, & & 1ara, @& +raggs and >& 3o)ell .ST@+T & >& Shilton >& 3o)ell +entrefor 6nironmental&&&

• Constructed wetlands combined with +& disinfection systems for removal of enteric pathogens and

wastewater contaminants

. A'ai'eh, K. ). +inden, C. Bars"ow, S. Kal$ouneh, A. %ellawi, A. Al$alawneh, Y. )er*h!anWater Science and Technology >o 202, '7 (! '5#'57% DOI: 0&2'')st&202&'5

&&&are compleF and many times accompanied by reported enironmental haOards caused by theformation of toFiccarcinogenic by-products (e&g& chloro#organic compounds! (Sun et al& ;

>hang et al. ), suggesting a search for a safer disinfectionmethod is in place& 9M disinfection is)ell established&&&

• *romide removal by hydrotalcite-li3e compounds in a continuous system

S. E*higo, S. 9"oh, M. KuwaharaWater Science and Technology ec 2007, 5' (! 7#22% DOI: 0&2'')st&2007&=7&&&&:p! --/saGa <as +o&, Atd&, /saGa, Japan (6#mailB Gu)aharaCurban&en&Gyoto#u&ac&:p! bstract.romide ion remoal from a real )ater matriF by hydrortalcite#liGe compounds (;T+s! )asattempted in a column reactor to control the formation of brominated disinfection by-products in drinGing )ater treatment process&&&

• Degradability of hexachlorocyclohexanes in water using ferrate $&2'

M. o!ol-o,3, P. ra$3- , M. Kol3F , M. Gern<- Water Science and Technology Keb 205, 7 (! *05#*% DOI: 0&2'')st&20*&5'&&&potential and the absence of harmful by-products& 8n this paper, thedegradationtransformation of ;+;s by ferrates under laboratory conditions )as studied& ;+;)as degraded during this reaction, producing trichlorobenOenes and pentachlorocycloheFenesas by-products& detailed inestigation of p;&&&























•

Simultaneous photocatalytic oFidation of pharmaceuticals and inactiation of Es*heri*hia *oli in

)aste)ater treatment plant eQuents )ith suspended and immobilised Ti/2

Cris"ina Pa$los, a8ael ,an )rie-en, Ja,ier Marug3n, Ale1andra Muño' Water Science and Technology 1ay 202, '5 (! 20'#202% DOI: 0&2'')st&202&='=&&&& ; lavarioti et al. ). "+5 '( *ublishing "+" (ater Science & Technology H '5& H202tants such as pharmaceuticals resulting from farms,disinfection by-products (.3s! )ithpotential carcinogenic and mutagenic e?ects on mammals due to the reaction of organic matterpresent in )ater )ith halide ions&&&

• %he impact of chlorine disinfection on biochemical oxygen demand levels in chemically enhanced

primary treatment effluent

Ji Dai, 7eng Jiang, Chii Shang, Kwo-2!ing Chau, Yue"2-ar %se, Chi28ai +ee, )uang2ao Chen, Jingyun 7ang, +i!ing ;haiWater Science and Technology Jul 20, '= (2! =0#='% DOI: 0&2'')st&20&257&&&#nitrosaminesB a critical reie) of nitrogenous disinfection byproduct formation path)ays&6niron& Sci& Technol& *' (!, $Z& Millate, J& T&, Smith, & & +ooper, W& J& 8he effect of

chlorination on biochemical oxygen demand. ?nviron. *rot. ?ng. " 0#), %@"%. (hite, !. . 8he Handboo3...

•

Tertiary treatment for )aste)ater reuse based on the Daphnia !agna Nltration Z comparison )ith

conentional tertiary treatments

%eresa Serra, Jordi Colo!er , Con:i Pau, Mari$el Mar<n, +lu<s Sala

Water Science and Technology ug 20*, 70 (*! 705#7% DOI: 0&2'')st&20*&2=*&&&& Technol& 0*, 2*Z2*$& 1inear, @& & my, <& A& Disinfection By-Products in Water Treatment& Ae)is, >e) orG& 1u:eriego, @& sano, T& 8he role of advanced treatment in

wastewater reclamation and reuse. (ater Sci. 8echnol. A+ 0A@%), @$. Baddeo, =. & elgiorno, =. 8ertiary

2ltration...

• %he first introduction of reclaimed wastewater to dry-farming field in 63inawa 2sland# @apan

%. Shige!a"su, W. K. C. (. Dayan"hi, (. Ya!ashi"a, . %ana-a, %. Ya!ashi"aWater Science and Technology pr 200=, 57 (=! '#'7% DOI: 0&2'')st&200=&2*7&&&of heay metals, pesticides, other haOardous chemical substances and disinfection by-products, )hich are related to the human health, )ere lo)er than the respectie 6nironmentalYuality Standard for ;uman ;ealth in Japan (1inistry of the 6nironment! as )ell as the standardof the irrigation on rice&&&

• "stimation of "nergy (aving for )elting rocess on (ewage (ludge

%. Mura-a!i, K. Sasa$e, K. Sasa-i, %. Kawashi!aWater Science and Technology 1ay $$, 2 (0#2! 20#20=% DOI:&&&actiated carbon (<+! adsorbers& >/1 in drinGing )ater supplies is undesirable for seeralreasons& .iodegradable organics can support microbial gro)th and slime buildup in treatment

























)orGs and proide substrate for regro)th in distribution systems& The formationof disinfection by-products&&&

• )embrane filtration for particles removal after o5onation-biofiltration

S. Os"erhus, K. A'rague, %. +ei-nes, . OdegaardWater Science and Technology >o 2007, 5' (0! 0#0=% DOI: 0&2'')st&2007&7=0&&&and taste& 8ndirectly, >/1 is a problem because it reacts )ith the most commonlyused disinfectant, chlorine, to formdisinfection by-products (.3s!& 9se of oOone as theprimary disinfectant is increasing but the formation of oOonation by-products is also ofconcern, particularly due to the increase in bio&&&

• Factors affecting trihalomethane formation and speciation during chlorination of reclaimed water

De8ang Ma, Baoyu )ao, Yan Wang, 5inyan Yue, 5ian +iWater Science and Technology ug 205, 72 (*! ''#'22% DOI: 0&2'')st&205&2'0&&&matters (6f/1! create genotoFic and cytotoFic chlorine disinfection by-products not beenreported& The primary aim of thi of chlorine dose, contact ti on T;1 formation and reclaimed

)ater produceing the production of S13& 3+1.@ systems can produce a higher Dualityreclaimed )ater, )hich is di?erent&&&

• !n assessment of the chec3point bioassay concept for full scale wastewater +& reactor validation

P. P. Ma-a, Y. A. +awryshynWater Science and Technology Jul 20, '* (! *#*$% DOI: 0&2'')st&20&50=&&&of the Luid being treated& /ne of the adantages of 9M disinfection is that it does not produceany potentially harmfuldisinfection byproducts& ;o)eer, this means that there areno disinfection residuals that can be monitored to ensure that thedisinfection is actuallyoccurring& To oercome this limitation&&&

• 65onation parameter for removal of oestrogenicity from secondary effluent without by-products

S.2E. Ki!, . Ya!ada, . %sunoWater Science and Technology Jan 2007, 55 (#2! 2#2*0% DOI: 0&2'')st&2007&05&&&Kederal @egister ($$=!& >ational primary drinGing )aterregulations% disinfectants and disinfection byproducts% Nnal rule, '(2*!, '$=$ Standard1ethod for the 6Famination of Water and Waste)ater ($$=!& 20th edn, merican 3ublic ;ealthssociationWWWater 6nironment Kederation, Washington, +&&&

• Fecal coliform removal in a sulfate reduction# autotrophic denitrification and nitrification integrated

$(!N2' process for saline sewage treatment

Sa8ra A$deen, Wu Di, +u ui, )uang2ao Chen, Mar- C. M. ,an +oosdre*h" Water Science and Technology ec 200, '2 (! 25'*#2570% DOI: 0&2'')st&200&5'&&&content is )ithin the stipulated discharge standards& Se)age treatment eQuent canbe disinfected by the addition of chlorine or oOone, or eFposure to ultraiolet (9M! radiation&9M disinfection is ideal in terms of minimiOing disinfection byproducts& ;o)eer it is moreeFpensie in comparison&&&

• Development of an ecologically sustainable wastewater treatment system

















+o-endra Ku!ar , a1i, an1an, P. C. Sa$u!onWater Science and Technology Jul 200=, 5= (! 7#2% DOI: 0&2'')st&200=&*&&&and disinfection of treated )ater& n attempt )as also made to study the reuse potential oftreated )ater for irrigation and use of digested sludge as soil conditioner by gro)ing marigoldplants& Kerric chloride dose of 0mgl )as found to be the optimum dose for enhanced primarytreatment )ith remoals of +/&&&

• %oxicity reduction in an industrial nitro-aromatic wastewater plant: an assessment and a proposed

improvement

;hao2Yang +u, Bi2Cun Jiang, Ai2Min +i, ong2Yan )uo, Shu2)uang Sun, +i2Mei ChuWater Science and Technology Jun 202, '' (2! *5#*2% DOI: 0&2'')st&202&7&&&(trihalomethanes, haloacetic acids, haloacetonitriles, and nitrosamines!, can result in theformation of disinfection byproducts(Wang et al& ; Soh et al. ; rasner et al. ). 8o

ensure environmental safety, oxidation 0chlorination) should be integrated with other technologies to reduce toxicity...

• ractical applications of quantitative microbial ris3 assessment $4)R!' for water safety plans

P. W. M. . S!ee"s, +. C. ie",eld, J. C. ,an Di1- , ). J. Mede!aWater Science and Technology 1ar 200, ' ('! 5'#5'=% DOI: 0&2'')st&200&=$&&&, the response time of the operator and the e?ect of correctie actions& Simply applying ahigher setpoint for chlorine dose can hae aderse e?ects in other ob:ecties(cost, Disinfectant By-Product (.3! formation, maintenanceoperation! and therefore is notan option& Y1@ can proide decision support&&&

• N-nitrosodimethylamine formation during treatment with strong oxidants of dimethylamine

containing water

P. Andr'e1ews-i, J. (awro*-i

Water Science and Technology ec 2007, 5' (2! 25#% DOI: 0&2'')st&2007&=02&&&8nternational +onference on 6nironmental Science and Technology (0+6ST 2007!, submitted&ndrOe:e)sGi, 3&, asprOyG#;ordern, .& and >a)rocGi, J& (2005a!& >#nitrosomethylethylamine(>16! and >#nitrosodiethylamine (>6!, t)o ne) potentialdisinfection byproducts%formation during )ater disinfection&&&

• Number of residual thermotolerant coliforms on plants and in soil when using reclaimed domestic

wastewater for irrigation

Sasiro" Kha!-ure, Ed!undo Peña Cer,an"es, Ale1andro ;er!eño )on'3le' , u$4n+pe' Cer,an"es, Pr*oro )a!ero Melo, o!eroa!<re' Water Science and Technology >o 202, '7 (2! =0#='% DOI: 0&2'')st&202&577

&&&alternatie disinfection processes or to improe the chlorination procedure to control theleels of common disinfection by-products (.3s! (;rudey ). Cesidual chlorine causes severe

damage to plants when in excess of % mg/D 0*edrero et al. ). n appropriate 2ltration techniEue could improve...

• )icroorganism inactivation by an o5onation step optimi5ed for micropollutant removal from tertiary

effluent

. S*haar , . So!!er , . S*hrhagl, P. Yillia, (. Kreu'inger Water Science and Technology Jul 20, '= (2! #=% DOI: 0&2'')st&20&22





















&&&&, ;ollender, J&, rauss, 1&, /rt, +&, Siegrist, ;& on <unten, 9& inetic assessment and

modeling of an oonation step for fullFscale municipal wastewater treatmentG 4icropollutant oxidation, by-product formation and disinfection& Water @es& *5 (2!, '05Z'7& Kirst receied 0 >oember202% accepted&&&

• "ffects of pre-treatment with magnetic ion exchange resins on coagulation?flocculation process

B. Sani, E. Basile, C. +u$ello, +. ossiWater Science and Technology Jan 200=, 57 (! 57#'*% DOI: 0&2'')st&200=&7=5&&&! of Klorence in order to reduce the oFidant demand and disinfection by-products (.3s!formation potential& This pre#treatment leads to seeral e?ects on do)nstream treatmentprocesses& 8n this eFperimental study the e?ects of 186P) pre#treatment on clariLocculationprocess )ere ealuated )ith respect&&&

• %astes and odours in drin3ing water: where are we todayA

D. Khiari, S. Wa"sonWater Science and Technology 1ar 2007, 55 (5! '5#''% DOI: 0&2'')st&2007&$$

&&&, remoal mechanisms and the e?ect of the )ater matriF are better understood, facilitatingsystem optimisation& ctiated carbon Nlters are )ell characterised and routinely applied, )hileoFidation techniDues (e&g& oOone! hae been sho)n to proide highly eRcient disinfection,minimal by-product&&&

• hosphate recipitation with 6n-(ite !l3ali >eneration

7. 7. Kol$4, J. S. %er$lan*heWater Science and Technology >o $$2, 2' ($#! 22*$#2252% DOI:&&&be used to produce substantial Duantities of caustic soda from salt (>a+l! )ith chlorine gasbeing produced as a by-product& This caustic soda may be employed to raise the p; of the NnaleQuent in order to achiee high leels of phosphate precipitation or remoal in the form ofcrystalliOation& The p;&&&

• "ffect of wastewater chlorination on endocrine disruptor removal

C. (ou"sopoulos, D. Ma!ais, &. Sa!aras, %. Bouras, M. Marneri, K. An"oniouWater Science and Technology pr 20, '7 (7! 55#55'% DOI: 0&2'')st&20&025&&&Water Krame)orG irectie (2000'06+! and ancontrast to higher >3n6/, theirdegradation by-products such as >3, nonylphenol monoethoFylate (>36/! and nonylphenoldiethoFylate (>326/! hae been reported to eFhibit signiNcant estrogenic potential (>ice et al&

; =etillard & ailhache ). 1ue...

• Recent advances in structure and reactivity of dissolved organic matter: radiation chemistry of non-

isolated natural organic matter and selected model compounds

Sha-i$a Aya"ollahi, Daina Kalnina, Weihua Song, Bar$ara A. Co""rell, Mi*hael )onsior , Willia! J. Cooper Water Science and Technology ug 202, '' ($! $*#$*$% DOI: 0&2'')st&202&*0*&&&substances in )ater signiNcantly alters the treatment of drinGing )ater because the reaction ofhumic substances )ith chlorine, and )ith other disinfectants, produces a rangeof disinfection by-products including trihalomethanes, haloacetic acids and many others(;anna et al& ; Singer ; Selcu3...















• Nitrite formation during low pressure ultraviolet lamp irradiation of nitrate

(ing +u, (ai2Yun )ao, Yang Deng, 5ing2Song +iWater Science and Technology Sep 200$, '0 ('! $#*00% DOI: 0&2'')st&200$&*75&&&additional adantages, in compassion )ith traditional chlorinationB (i! no chemical addition% (ii!reduction of chlorine dose% (iii! shorter contact time% and (i! production of

less disinfection byproducts (.3s!& ;ence, 9M technology has been )idely used for drinGing)ater disinfection, particularly&&&

• !n overview of the integration of o5one systems in biological treatment steps A. ied, J. Miel*-e, A. Wieland, S. S*hae8er , M. Sie,ersWater Science and Technology Jun 2007, 55 (2! 25#25=% DOI: 0&2'')st&2007&*&&&interest due to seeral adantages such as disinfection, decolourisation and remoal ofpersistent dissoled organic carbon (/+! for )ater re#use and ground)ater recharge& ey)ords.iological treatment% leachate% partial oOonation% process combination% )aste)ater 8ntroduction+ombined chemical (/3&&&

•

! review of greywater characteristics and treatment processes

Yash Boy1oo, &ishnu K. Paree- , Ming AngWater Science and Technology pr 20, '7 (7! *0#*2*% DOI: 0&2'')st&20&'75&&&as possible before further treatment& Solid particles can shed pathogensfrom disinfectants (9M, chlorine!, and organic matter can form disinfectant by-products (chloramines, trihalomethanes! )hich hae lo)er disinfectant capabilities&Kurthermore a short residence time is reDuired so as to maintain&&&

• hotocatalytic oxidation of humic acid and its effect on haloacetic acid formation potential: a

fluorescence spectrometry study

Yan 6iao1u, Bao uiling, Yu Shuili, +i 5iong8ang, Chen WeiWater Science and Technology pr 202, '5 ($! 5*=#55'% DOI: 0&2'')st&202&0*'&&&(9yguner .eGbolet ). haracteriation methods of H include <= absorbance

measurement,'B8C1<8'B Humic acid 0H) in drin3ing water sources is the ma6or precursor

of disinfection by-products (.3s! )hen chlorine is used fordisinfection& Therefore, remoalof ; is usually desired before&&&

• Determination of odour threshold concentration ranges for some disinfectants and disinfection by-

products for an !ustralian panel

S. M*Donald, A. +e"horn, C. +oi, C. Joll, . Driessen, A. ei"' Water Science and Technology >o 200$, '0 (0! 2*$#250'% DOI: 0&2'')st&200$&''2

&&&etermination of odour threshold concentration ranges forsome disinfectants and disinfection by-products for an ustralian panel S& 1conald, &Aethorn, +& Aoi, +& Joll, ;& riessen and & ;eitO .ST@+T S& 1conald (corresponding author! &Aethorn +& Aoi +& Joll ;& riessen & ;eitO +urtin&&&

• "valuation of approaches to quantify total residual oxidants in ballast water management systems

employing chlorine for disinfection





















A!i"y ). ;i!!er27aus" , i*hard 7. A!$rose, Mario (. %a!$urriWater Science and Technology >o 20*, 70 (0! 5=5#5$% DOI: 0&2'')st&20*&$*&&&of residual T@/ and disinfection by-products (.3s!, including trihalomethanes and halo#acetic acids, among others (.o)mer Ainders, ; (ersch3un et al. ). 't is for these reasons

that the <S?* =!* also includes reEuirements for selfFmonitoring of a variety of parameters, including periodic

measures...

• !dvanced oxidation for indirect potable reuse: a practical application in !ustralia

Y. Poussade, A. ou: , %. Wal-er , &. ;a,lanosWater Science and Technology >o 200$, '0 ($! 2*$#2*2*% DOI: 0&2'')st&200$&''5&&&hae identiNed >1 as a disinfection by-product formed during chloramination of)aste)aters or surface )aters )ith secondary inLuent impact (1itch et al& 200!& .undambaWT3 dra)s secondary eQuent from four )aste)ater treatment plants (WWT3s!B .undamba,<oodna, /Fley and Wacol& The Duality&&&

• Development of indirect potable reuse in impacted areas of the +nited (tates

.P. Jansen, M.K. S"ens"ro!, J. de KoningWater Science and Technology Jan 2007, 55 (#2! 57#''% DOI: 0&2'')st&2007&00&&&of the plant since the 1K process is basically integrated )ith the >> process& 1K processesare no) displacing granular media Nlters& The most common form of disinfection, chlorination,has irtually disappeared in )ater reclamation& 3roblems )ithchlorination disinfection byproducts hae been Gno)n for more&&&

•

iscussion on the application of 9M;2/2, / and /9M processes as technologies for se)age

reuse considering the remoal of pharmaceuticals and personal care products

9. . Ki!, (. Ya!ashi"a, Y. Ka"o, . %ana-aWater Science and Technology 1ar 200$, 5$ (5! $*5#$55% DOI: 0&2'')st&200$&07'&&&Sustainable eelopment 200*!& 8n addition, there are a ariety of organic compoundsincluding 33+3s in secondary eQuent and, therefore, the formation potential of disinfection by-products (.3s! is of concern during chlorination& +onseDuently, alternatie methods arenecessary to be inestigated&&&

• Review on the fate of organic micropollutants in wastewater treatment and water reuse with

membranes

. Siegris" , A. Joss

Water Science and Technology Jul 202, '' ('! '$#7'% DOI: 0&2'')st&202&2=5&&&demand of potable )ater in regions )ith )ater scarcity has increased interest in )ater reuse&.ut of great concern is the re:ection of organic micropollutants such as disinfection by-products, 6+s, pesticides, as )ell as 33+3s& i?erent research groups inestigated, describedandmodeled the mechanisms&&&

•























/ccurrence and fate of (#nitrosamines and their formation potential in three )aste)ater

treatment plants in Japan

Su*hul Yoon, (orihide (a-ada, iroa-i %ana-aWater Science and Technology >o 20, '= (0! 2=#22'% DOI: 0&2'')st&20&*5=&&&indicating that it should be considered a potential disinfection by-product& The formation of>#nitrosamines increased )ith increased >3 >3@ >383 >1/@ >. 0&$ 0&* 0&5 &0 0&$2&$ &&5 & 2&$ monochloramine concentration and sho)ed maFimum in yield )hen amine#basedmaterials )ere aried at NFed&&&

• %he 6xnard advanced water purification facility: combining indirect potable reuse with reverse

osmosis concentrate beneficial use to ensure a California communityBs water sustainability and provide coastal

wetlands restoration

Ji! +o'ier , Ken Or"egaWater Science and Technology 1ar 200, ' (5! 57#'% DOI: 0&2'')st&200&027&&&00 milliliters oer a 7#day period& The treated )aste)ater must also meet federal and

+alifornia rinGing Water Standards for inorganic,organic, disinfectants and disinfection byproducts, and +3; notiNcation (action! leelchemicals according to the @echarge raft @egulation& The @echarge @euse&&&

•

9sing @u/2 anode for chlorine dioFide production in an un#diided electrochemical cell

K. Chandrase-ara Pillai, %ae O- Kwon, Bo Bae Par- , 9l Shi- MoonWater Science and Technology pr 200, ' (=! 25#2'0% DOI: 0&2'')st&200&&&&are mainly related to disinfection electrolysis of )ater, problems of by-product analysis forchlorination, and e?ect of arious eFperimental parameters on the estimation ofchlorine disinfectants produced electrochemically& 8n ie) of these diRculties, )e recentlystudied systematically under laboratory&&&

• %he effectiveness of humic acids coagulation with the use of cationic polyacrylamides

B. +i$e*-iWater Science and Technology 1ay 20, ' ($! $**#$*$% DOI: 0&2'')st&20&$*&&&process is a popular method for eliminating the precursors of disinfection by-products& Thisstudy presents the results of a laboratory eFperiment )hich inestigates the use of cationicpolyacrylamide copolymers (+31s! as primary coagulants in the puriNcation of solutionscontaining humic acids (;&&&

• %he effectiveness of humic acid coagulation with the use of cationic polyacrylamides

B. +i$e*-iWater Science and Technology 1ar 200, ' ('! 555#5'0% DOI: 0&2'')st&200&''&&&process is a popular method for eliminating the precursors of disinfection by-products& Thisstudy presents the results of a laboratory eFperiment )hich inestigates the use of cationicpolyacrylamide copolymers (+31s! as primary coagulants in the puriNcation of solutionscontaining humic acids (;&&&























• %ransformation of dissolved organic matter by oxidative polymeri5ation with horseradish peroxidase

S. . Jee, Y. J. Ki!, S. O. KoWater Science and Technology Jul 200, '2 (2! *0#*'% DOI: 0&2'')st&200&2*=&&&&Gr% y:2*5CGhu&ac&Gr% soGoCGhu&ac&Gr issoled organic matter (/1! has signiNcantinLuence on the transport and fate of contaminants in multiple phases and it has potential haOard

by acting as a precursor of disinfection by-products in )ater supply& The changes in /1characteristics, especially&&&

• 8inetics of the reaction of hypobromous acid and organic matters in water treatment processes

S. E*higo, .A. Minear Water Science and Technology 1ay 200', 5 (! 25#2*% DOI: 0&2'')st&200'&5=&&&of merican +hemical Society nnual +onference (6nironmental +hemistry!, +hicago, 8A, pp&'=Z'*2, 2'Z0 ugust& 6chigo, S&, 8toh, S&, raGi, T&, ndo, @&, >atsui, T& and 1inear, @&& (200!&inetics and toFicity of brominated disinfection byproducts& 6niron& Sanit& 6ng& @es&, 7, =2Z=7& 6chigo, S&, 8toh&&&

• Characteristics of estrogen decomposition by o5onation

%. ashi!o"o, K. %a-ahashi, %. Mura-a!iWater Science and Technology >o 200', 5* (0! =7#$% DOI: 0&2'')st&200'&=0'&&&& The oOone dose used for the purpose of disinfection in )aste)ater treatment plants in Japanis usually bet)een 2Z5mgl& 8t is therefore possible to breaG do)n estrogen in the eQuent nearlycompletely )ithout generating byproducts )ith estrogenic actiity during the oOonationprocedure& 8n the actiated&&&

• 4uantifying human exposure to contaminants for multiple-barrier water reuse systems

S. J. Khan, J. A. M*DonaldWater Science and Technology Jan 200, ' (! 77#=% DOI: 0&2'')st&200&7'0&&&)ater treatment plant performance& >e) data is proided, focusingon disinfection byproducts including trihalomethanes and >#nitrosamines from a recentcomprehensie Duantitatie eFposure assessment for an adanced )ater recycling scheme inustralia& ey )ords H >1, >#nitrosamines, probability&&&

• +se of on-line +&?&is-spectrometry in the measurement of dissolved o5one and !6C concentrations

in drin3ing water treatment

J. ,an den Broe-e, P. S. oss, A. W. C. ,an der el!, E. %. Baars, +. C. ie",eldWater Science and Technology pr 200=, 57 (=! '$#75% DOI: 0&2'')st&200=&7&&&, the parameters total suspended solids and chemical oFygen demand (+/! and nitrate can bereadily monitored readily )ith 9MMis spectral measurements (Aangergraber et al& 200*!& /thereFamples are the prediction of disinfection by-productformation by chlorination (orshin et al&$$7! and chlorine demand (+ho)&&&

• !re we about to upgrade wastewater treatment for removing organic micropollutantsA

A. Joss, . Siegris" , %. A. %ernesWater Science and Technology Jan 200=, 57 (2! 25#255% DOI: 0&2'')st&200=&=25

















&&&disinfection& nother issue currently being intensiely studied is the byproducts formedduring oOonation and their toFicity& 6idence is needed that the formedoOonation byproducts are either harmless or easily degradable& Since a 5 to 20 loss ofse)age is occurring due to se)er leaGage and combined se)er&&&

•

egradation of macromolecular tannic acid by /;2/2

S. Ji2!in, +. 6ue2yan, C. ;hong2lin, ). 6iao2hong, ;. 6ue, 6. ;hen2'henWater Science and Technology Jun 200=, 57 (2! 20*#2050% DOI: 0&2'')st&200=&'0$&&&of ra) )ater or adanced treatment& This article mainly focuses on the remoal eRciency of Tand the generation of disinfection by-products in the /;2/2 system& 8t also discusses theinLuence of T on the decomposition rate of oOone and the relatie generation intensity orsudden eFtinction of O/;&&&

• +sing microbial genomics to evaluate the effectiveness of silver to prevent biofilm formation

M.2Y. Wu, K. Suryanarayanan, W.J. ,an Ooi1, D.B. Oer"her Water Science and Technology pr 2007, 55 (=#$! *#*$% DOI: 0&2'')st&2007&2=5&&&in hospitals (.eer et al&, $$$% Ain et al&, 2002% .orgmannStrahsen, 200% haydaroy et al&,200*!& 9sing g(8! as a biocide has seeral adantages includingB (! g(8! does not react toform disinfection byproducts% (2! g (8! has a higher heat resistance compared )ithother disinfectants% and (! discharges&&&

• Comparison of biological activated carbon $*!C' and membrane bioreactor $)*R' for pollutants

removal in drin3ing water treatment

J. Y. %ian, ;. +. Chen, . +iang, 6. +i, ;. ;. Wang, ). B. +i

Water Science and Technology Sep 200$, '0 ('! 55#52% DOI: 0&2'')st&200$&*=&&&ammonia (by 5*&5!& ;o)eer, .+ )as able to remoe more dissoled organic matter (/1,especially for organic molecules of ,000 , 500 altons! and corresponding disinfection by-product formation potential (.3K3! in ra) )ater than 1.@& 9nfortunately, particulate organicmatter (3/1! )as detected&&&

• Changes in water biostability levels in water treatment trials

MaHgor'a"a Wols-aWater Science and Technology Keb 205, 7 (*! 5=#5**% DOI: 0&2'')st&20*&2==&&&of contamination of )ater that entered the stage and on the types of processes used& )atertreatment process )ith respect todisinfection byproducts formation& Journal of Water SupplyB@esearch and 5* 1& WolsGa H .iostability leels in )ater treatment systems Water Science Technology H 7&* H 205The Nnal ./+&&&

• %reatment of waste thermal waters by o5onation and nanofiltraton

;. +. Kiss, A. S'4p, S. Ker"4s' , C. odIr , ;. +3s'lWater Science and Technology 1ar 20, '7 ('! 272#27$% DOI: 0&2'')st&20&'$*&&&& Journal of 1embrane Science 7=, 2=Z7& ;su, &#+&, +hen, J&#;& ang, ;&#+& alcium

enhanced disinfection by-product formation& Water @esearch $, 2=$Z2=50& rpti, \&, Sa:g,




















+&, Meto, 8&, lopp, <& ;orth, 8& rganic matter in thermal waters of the *annonian asin @ a

preliminary...

• Fenton and photo-Fenton treatment of a synthetic tannin used in leather tannery: a multi-approach

study

). +o8rano, S. Meri, &. Belgiorno, A. (i-olaou, .M.A. (apoliWater Science and Technology 1ay 2007, 55 (0! 5#'% DOI: 0&2'')st&2007&0'&&&application to drinGing )ater and formation of disinfection by-products& esalination .3sspecial issue, 7', 55Z''& .eniteO, K&J&, cero, J&A&, @eal, K&J&, @ubio, K&J& and Aeal, &8& (200!& Therole of hydroFyl radicals for the decomposition of 3#hydroFy phenylacetic acid in aDueoussolutions& Wat& @es&&&

• 2dentification of humic acid-li3e and fulvic acid-li3e natural organic matter in river water using

fluorescence spectroscopy

. . Peiris, . Bud!an, C. Moresoli, . +. +egge

Water Science and Technology 1ay 20, ' (0! 2*27#2*% DOI: 0&2'')st&20&*$&&&)aters is essential for understanding and controlling some pertinent )ater#related problemssuch as membrane fouling,disinfection by-product (.3! formation and undesirable biologicalgro)th eFperienced in )ater treatment and distribution systems& Kor eFample, indiidual andcombined e?ects that result&&&

• "vidence of speciali5ed bromate-reducing bacteria in a hollow fiber membrane biofilm reactor

K. J. Mar"in, +. S. Downing, . (eren$ergWater Science and Technology 1ay 200$, 5$ (0! $'$#$7*% DOI: 0&2'')st&200$&2'&&&ame, 8ndiana *'55', 9S 6#mailB Gmartin$Cnd&edu% ldo)ningCnd&edu% rnerenbeCnd&edu.romate is a carcinogenicdisinfection by-product formed from bromide during oOonation or

adanced oFidation& We preiously obsered bromate reduction in a hydrogen#based, denitrifyinghollo) Nber membrane bioNlm&&&

• hiladelphia obtains useful information from its customers about taste and odour quality

).A. Burlinga!e, E.D. Ma*-ey Water Science and Technology 1ar 2007, 55 (5! 257#2'% DOI: 0&2'')st&2007&=7&&&total chlorine residual at all sampling locations in at least $5 of the monthly samples taGen& The 9S 63s Stage DisinfectantsDisinfection By-Products @ule set a maFimumresidual disinfectant leel for total chlorine residual in the distribution system at *&0mgA(determined as a running annual&&&

• %he role of )*R technology for the improvement of environmental footprint of wastewater treatment

&. +a'aro,a, S. Mar"in uel, B. Barillon, P. Dau"huilleWater Science and Technology Sep 202, '' (0! 205'#20'*% DOI: 0&2'')st&202&*&&&costs for tment and disinfection, 1.@s and ical alues of energy demand of e Gi e l ac con echges atio as a ma:or ob:ectie, the improement of energy efNciency& .ecause of the high energyconsumption of 1.@ systems, life cycle analysis (A+! has sho)n a lo)er ecoefNciency of thisadanced treatment&&&

















• Characteristics of salt taste and free chlorine or chloramine in drin3ing water

K.E. Wiesen"hal, M.J. M*)uire, 9.. Sue" Water Science and Technology 1ar 2007, 55 (5! 2$#00% DOI: 0&2'')st&2007&$&&&and disinfectant by-products& lone or in combination, minerals and disinfectants couldincrease or decrease the intensities of tastes and odours of drinGing )ater& Salty taste )ith or

)ithout chlorine or chloramine Laour is one of the consumer complaints to )ater utilities (Su?etet al&, $$'!& 9nderstanding&&&

• Nitrogen removal from the saline sludge liquor by electrochemical denitrification

;.M. 6ie, 6.Y. +i, K.Y. ChanWater Science and Technology /ct 200', 5* (=! 7#7$% DOI: 0&2'')st&200'&7'&&&& The rate of 6+ denitriNcation increased )ith the current intensity applied& The best currenteRciency for nitrogen remoal )as obtained for a gap distance bet)een the electrodes at = mm&6lectro#chlorination )as considered to be the ma:or mechanism of 6+ denitriNcation& Theformation of chlorination by-products&&&

• %owards indirect potable reuse in (outh "ast 4ueensland

W. . %ra,es, E. A. )ardner , B. Dennien, D. Spiller Water Science and Technology Jul 200=, 5= (! 5#'% DOI: 0&2'')st&200=&'5&&&product )ater, to alues less than 00mgA T/+& 6Fperimental obserations at commercialscale operations (&01Ad! using @/ membranes report remoal of pharmaceuticals (re)es etal& 2005! and olatile organic compounds, nonolatile organic compounds and disinfection by-products (augherty et al& 2005&&&

•

Source of(

#nitrosodimethylamine in rier )aters of the upper Tone @ier basin in Japan

K. Kosa-a, K. 7u-ui, M. Asa!i, M. A-i$aWater Science and Technology ec 200, '2 (! 2550#2557% DOI: 0&2'')st&200&5$&&&% +harrois et al& 2007% +alifornia epartment of 3ublic ;ealth 200$!& >1 concentrations inrier )ater hae also been reported (Schreiber 1itch 200'% 3lumlee @einhard 2007!& >1 isGno)n to be a chloramination disinfection byproduct (1itch et al& 200% 1itch SedlaG 200*%+hen Malentine 200'&&&

• erformance of a biofilter system with agave fiber filter media for municipal wastewater treatment

Juan Manuel &igueras2Cor"4s, 9gna*io &illanue,a27ierro, Mar*o An"onio )ar'n2;Iñiga, Jos4 de

JesIs (3,ar2Ch3ide' , 9sa<asChaires2ern3nde' , C4sar ern3nde'2odr<gue' Water Science and Technology ug 20, '= (! 5$$#'07% DOI: 0&2'')st&20&2=5&&&for agricultural irrigation and green spaces, eFcept for coliforms, )hich is )hy the efLuentsmust be disinfected& Thus, agae Nber is a faorable choice for use as a pacGing material inbioNltration processes& ey )ords H bioNltration, decentraliOed )aste)ater treatment, organicNlter media, sanitary Duality&&&

• Review of cost versus scale: water and wastewater treatment and reuse processes

%ian1iao )uo, Ja!es Englehard" , %ing"ing Wu

















Water Science and Technology Jan 20*, '$ (2! 22#2*% DOI: 0&2'')st&20&7*&&&for the adanced oFidation of organic constituents in secondary efLuent (6nglehardt et al&

). 'n this study it was desired to preliminarily assess the cost of the peroxone process if used in the future for

complete 1 mineraliation, to address potential issues )ith disinfection byproducts and endocrine&&&

• Comparison of FentonBs oxidation and o5onation for removal of estrogens

Jana (a-rs" , Mir1ana Bis"an, %a"1ana %i@ler , Jana ;agor*2Kon?an, Jan Der*o, Andre1a ga1nar )o",a1nWater Science and Technology 1ay 20, ' (0! 2#27% DOI: 0&2'')st&20&$&&&trying to decompose formed by-products, eFpressing estrogenic actiity, detected by 6S(east 6strogen Screening! assay& The obtained results sho)ed that the remoal eRciency ofestrogens from )aters should be assessed by a combination of chemical analyses and bioassay&ey )ords $ 62 (7b&&&

• 6ptimi5ation study of a hybrid alum coagulation-membrane filtration system for virus removal

. )uo, J. Y. u

Water Science and Technology >o 20, '* ($! =*#=50% DOI: 0&2'')st&20&*7&&&gm th is n coa nd rem me seD ; ' e p sulf tionDisinfectant#.y#3roduct @ule (Stage 2.3@! byproducts formation and pathogen#associated )aterborne ptimum operationalconditions& al pathogens, more than 7&=, *&* e achieable for 6scherichia coli, ardia, respectiely,)ith a 0&2 jm lo em & S al t o&&&

• %ertiary treatment of *erlin ,,% effluents with ferrate $Fe$&2''

/. $ner , M. Je-elWater Science and Technology /ct 20, '= (7! ''5#'7% DOI: 0&2'')st&20&*0'&&&Z*'7& on <unten, 9& b onation of drin3ing waterG *art ''. Disinfection and by-product formation in presence of bromide, iodide or chlorine& Water @esearch 7 (7!, *'$Z*=7&Wert, 6& +&, @osario#/rtiO, K& A& Snyder, S& & using acce 5I <. HJbner & 4. -e3el K 8ertiary

treatment of ((8*...

• erformance of enviss stormwater filters: results of a laboratory trial

K. Bra"ires, C. S*hang, A. Dele"i= , D. %. M*Car"hy Water Science and Technology Jul 202, '' (*! 7$#727% DOI: 0&2'')st&202&22=&&&polycyclic aromatic hydrocarbons, T3; and total recoerable hydrocarbons, T@;!,microorganisms (6& coli, +& perfringens (spores! and K#@> phages! and disinfection by-products (trihalomethanes Z T;1s, chloral hydrate, chloroacetics, dichloromethane, etc&!&+hlorine concentrations )ere determined immediately&&&

•

Removal of endocrine disrupting compounds from wastewater treatment plant effluents by means of

advanced oxidation

). Ber"an'a, . Pedra''ani, &. ;a!$arda, M. Dal )rande, 7. 9*arelli, +. BaldassarreWater Science and Technology pr 200, ' (7! ''#'7% DOI: 0&2'')st&200&2&&&complete mineralisation or, at least, transformation into innocuous by-products is to beguaranteed (uriol et al& 200'!& s a conseDuence, chemical oFidation ()hose adantage )ithrespect to other processes liGe actiated carbon adsorption is indeed its capacity of transforminginstead of transferring&&&















• %reatment of ametryn in wastewater by a hybrid )*R system: a lab-scale study

D. (a,ara"na, +. Shu, K. Bas-aran, &. Jega"heesanWater Science and Technology Jul 202, '' ('! 7#2*% DOI: 0&2'')st&202&=&&&(1.@!, 9M disinfection unit and a granular act treating ametryn )hich is one of the ma:orherbicides in agricultural d remoes only *0 of ametryn at a hydraulic retention time of 7&= h,

ametryn to belo) detection leels& ey )ords H ametryn, granular actiated carbon, <reat .arrier@eef miFed liDuor&&&

• hotodegradation of sulphadimethoxine in water by medium pressure +& lamp

Y. +es"er , 9. )o'lan, D. A,isar , . Ma!aneWater Science and Technology Sep 200=, 5= (5! *7#5*% DOI: 0&2'')st&200=&''=&&&results in dissimilar relatie amounts of intermediates formed at di?erent p; alues )hich mayeFert a photon demand and impact on S1T photodegradation rate& ey )ords H by-products,intermediates, Duantum yield, reaction Ginetics, ultraiolet 8>T@/9+T8/> Sulphonamides, agroup of synthetic&&&

• "nhanced separation of water quality parameters in the D!F $Dissolved !ir Flotation' system using

o5one

Byoung2o +ee, Won2Chul Song, ye2Young Ki!, Jeong2yeon Ki!Water Science and Technology >o 2007, 5' (0! *$#55% DOI: 0&2'')st&2007&77&&&(disinfection by-product! precursors and +ryptosporidium in drinGing )ater supply (Schmidtet al&, $$5, ;all et al&, $$5!& .ecause of po)erful oFidation potential, oOone has been )idelyused in )ater and )aste)ater treatments (<raham et al&, 200*% John et al&, 2005, Siaganesanand 1arinas, 2005, Shu et al&&&

• %he removal of pathogens in surface-flow constructed wetlands and its implications for water reuse

A. )her!andi, D. Bi:io, P. %ra,erso, 9. Cersosi!o, C. %hoeyeWater Science and Technology ug 2007, 5' (! 207#2'% DOI: 0&2'')st&2007&5&&&as polishing steps of conentional )aste)ater treatment (<hermandi et al&, 2007!& +onstructed)etlands reDuire lo) maintenance costs and energy usage and produce an eQuent that is deoidof un)anted harmful chemical by-products& +onstructed )etlands proide further beneNtsincluding increased biodiersity&&&

•

6?ect of photoreactiation on ultraiolet inactiation of Mi*ro*ys"is aeruginosa

. Sa-ai, . Ka"aya!a, K. Ogu!a, S. Ohga-iWater Science and Technology 1ar 20, ' ('! 22*#22$% DOI: 0&2'')st&20&'2&&&, ho)eer, there is a gro)ing concern against the use of copper sulfate, mainly because it alsohas an impact on non#target creatures other than algae& 1ean)hile, some )ater treatmentutilities apply chlorine in order to inhibit the gro)th of algae, but chlorine reacts )ith theprecursors of disinfection by-products&&&

•
















3icogram determination of (#nitrosodimethylamine in )ater

ui-ang u, +i8eng ;hang, ;haoguang YangWater Science and Technology Jul 200=, 5= (! *#5% DOI: 0&2'')st&200=&'**&&&deiation at the DuantiNcation limit leel is 7&2 and the recoery is '7&2& This method hasbeen successfully applied to test >1 in di?erent types of )ater samples )ith satisfactory

results& @6K6@6>+6S ndrOe:e)sGi, 3& >a)rocGi, J& 2005 nalytics of 1P and >1,t)o disinfection byproducts in )ater&&&

• %reatment of hospital wastewater effluent by nanofiltration and reverse osmosis

S. Beier , S. KLs"er , K. &el"!ann, . S*hrLder , J. Pinne-a!pWater Science and Technology pr 200, ' (7! '$#'$=% DOI: 0&2'')st&200&$&&&(disinfection by-products, endocrine disrupting compounds and pharmaceutically actiecompounds! by >K@/ membranes& J& 1emb& Sci& (227!, Z2& imura, &, Toshima, S&, my, <& Watanabe, & 200* @e:ection of neutral endocrine disrupting compounds (6+s! and thepharmaceutical actie compounds (3h+s! by @/&&&

• !ssessing the potential of a +&-based !6 for treating high-salinity municipal wastewater reverse

osmosis concentrate

Muha!!ad /!ar , 7eli*i"y oddi*- , +inhua 7anWater Science and Technology >o 20, '= ($! $$*#$$$% DOI: 0&2'')st&20&*7&&&disinfection by-product formation potential of the treated )ater (1etO et al& ). 'mpact on

9uorescence Lluorescence excitation emission 0??4) spectra can provide a M2ngerprintN of the types of organics in water

and wastewater, and can be divided into 2ve regions 0hen et al. ). Cegions ' and '' belong...

• 2ntegrated ris3 assessment and screening analysis of drin3ing water safety of a conventional water

supply system

7. Sun, J. Chen, 5. %ong, S. ;engWater Science and Technology Sep 2007, 5' ('! *7#5'% DOI: 0&2'')st&2007&5=&&&diameter of a distribution system& @eferences dams, +&, Timmons, T&, SeitO, T&, Aane, J& andAeotch, S& (2005!& Trihalomethane and haloacetic acid disinfection by-products in full#scaledrinGing )ater systems& Journal of 6nironmental 6ngineering, (*!, 52'Z5*& +hen, J& and.ecG, 1&.& ($$$!& Yuality&&&

• Designing monitoring programs for chemicals of emerging concern in potable reuse 9 what to include

and what not to includeA

J. E. Drewes, P. Anderson, (. Denslow, A. Oli,ieri, D. S*hlen- , S. A. Snyder , K. A. MaruyaWater Science and Technology >o 202, '7 (2! *#*$% DOI: 0&2'')st&202&520&&&Science Technology H '7&2 H 20me)orG is needed that can proide a short list of meaningfulindicator compounds that can address bothconcern, such as pharmaceuticals, personal careproducts, household chemicals, disinfection by-products, or endocrine disrupting compounds&s there are more than =0,000&&&

• "valuation of appropriate technologies for grey water treatments and reuses























7angyue +i, Knu" Wi*h!ann, al8 O""erpohlWater Science and Technology Jan 200$, 5$ (2! 2*$#2'0% DOI: 0&2'')st&200$&=5*&&&t meet the reuse standard suggested in this study because the reclaimed grey )ater remainshigh in organic load and suspended solids, )hich can limit the chemical disinfection processand produce disinfection by-products (l#Jayyousi 200!& The sand Nlter combined)ithactiated carbon and disinfection&&&

• %he rate of iron corrosion for different organic carbon sources during biofilm formation

S.2K. Par- , S.2C. Choi, Y.2K. Ki!Water Science and Technology pr 2007, 55 (=#$! *=$#*$7% DOI: 0&2'')st&2007&2$5&&&, possibly because of the protection of bacteria by the consumption of disinfectant at the pipesurface ia corrosion reactions (Ae+heallier et al&, $$!& .ioNlms formed on metal surfaces maypromote metal deterioration, often in the form of localised corrosion, in a number of )ays& Thisdeterioration&&&

• Contaminants of emerging concern in reverse osmosis brine concentrate from indirect?direct water

reuse applications

%ra,is . o!eyn, Wesley ari1an"o, Soa Sando,al, Saied Delagah, Moha!adali Shar$a"!ale-iWater Science and Technology Jan 20', 7 (2! 2'#250% DOI: 0&2'')st&205&*=0&&&such as bromate and >1 (Sundaram 6mericG a, b). Cesidual 1 in the system ef9uent can

further lead tobyproduct formation )hen chlorine is introduced as a residual disinfectant (Snyderet al& ). 8here is also concern about the competition for the hydroxyl molecules between ?f4, the inorganic...

• %reatment of toilet wastewater for reuse in a membrane bioreactor

M. Boehler , A. Joss, S. Bue"'er , M. ol'ap8el, . Mooser , . Siegris" Water Science and Technology Sep 2007, 5' (5! '#70% DOI: 0&2'')st&2007&557&&&accumulated in the Lushing )ater& /)ing to by-products of biological decomposition of

organic substances an intensie coloration of permeate similar to urine )as obsered& Kigure sho)s an increase in the absorbance of the permeate proportional to the amount of )aste)atertreated, during phases )ithout&&&

• !dvanced oxidation degradation 3inetics as a function of ultraviolet ="D duty cycle

Kelsey Du*-wor"h, Mi*hael Spen*er , Chris"opher Ba"es, Mi*haelE. Miller , Ca"herine Al!#uis" , Mi*hael )ri!aila, Ma""hewMagnuson, S"uar" Willison, e$e**a Philli ps, +eeAnn a*' Water Science and Technology 1ay 205, 7 ($! 75#=% DOI: 0&2'')st&205&0=&&&source for 9M#based /3& 9M light emitting diodes (A6s! hae the potential to proide analternatie 9M light source fordisinfection and chemical of A6s include the ability to to

purpose, instant ono? capaty and the lacG of haOardous re in the early stages of deelophasbeen conducted using 9M rogen&&&

• +se of biogas for cogeneration of heat and electricity for local application: performance evaluation of

an engine power generator and a sludge thermal dryer

+. C. S. +o$a"o, C. A. +. Cherni*haro, 7. J. P. Pu1a""i, O. M. Mar"ins, ). C. B. Melo, A. A. . e*ioWater Science and Technology >o 202, '7 (! 5$#'7% DOI: 0&2'')st&202&5*$

















&&&&enables not only the reduction in olume and cost of Nnal disposal, but especiallythe disinfection of sludge& The possibility of preseration of organic matter and nutrientscontained in sludge, along )ith the elimination of pathogens, constitutes an aspect offundamental importance regarding the agricultural use&&&

• "lectrochemical degradation of ! compounds in process water: a 3inetic study on model solutions

and a proof of concept study on runoff water from harbour sediment purification

J. Mu , E. ). SgaardWater Science and Technology pr 200, ' (=! 20*#205% DOI: 0&2'')st&200&2$&&&for larger scale use, )here especially the indirect chloride mediated oFidation approach )as apromising techniDue& ;o)eer, the risG and eFtent of by-product formation needs to be studiedin greater detail& ey )ords H electrochemical oFidation, polycyclic aromatic hydrocarbons (3;s!,)ater treatment&&&

•

/ptimiOation of the synthesis process of an iron oFide nanocatalyst supported on actiatedcarbon for the inactiation of As*aris eggs in )ater using the heterogenous Kenton#liGe reaction

Ariadna A. Morales2P4re' , Pa$lo Mara,illa, Myria! Sol<s2+pe' , a8ael S*houwenaars, Al8onso Dur3n2Moreno, osa2Mar<aa!<re'2;a!oraWater Science and Technology >o 205, DOI: 0&2'')st&205&57'&&&& ). 'n addition, these disinfection techniDues are sensitie to enironmental conditionssuch as temperature, p; and they are also Gno)n to genercts (Tahri et al& ). oniing irradiation

0e.g., ultraviolet, s 0OFrays) and gamma irradiation) is ivedisinfection method (lada)i ; 8ahri et al& ). However...

• )anaged aquifer recharge: rediscovering nature as a leading edge technology

P. Dillon, S. %o'e, D. Page, J. &ander'al!, E. Be-ele, J. Sidhu, S. in*-2P8eier Water Science and Technology >o 200, '2 (0! 2=#2*5% DOI: 0&2'')st&200&***&&&of disinfection by-products at eight aDuifer storage and recoery sites& 6niron& Sci& Technol&*0, 50Z50=& 31S68+ 2007 3rime 1inisters Science, 6ngineering and 8nnoation +ouncil WorGing<roup @eport`Water for /ur +itiesB .uilding @esilience in a +limate of 9ncertainty& June 2007&httpBcatalogue&nla&go&au&&&

• ,astewater reclamation using discarded reverse osmosis membranes for reuse in irrigation in

DEibouti# an arid country

Moha!ed Os!an Awaleh, Moussa Mahdi Ah!ed, Youssou8 D1i$ril Sou$aneh, 7arhan

Bouraleh o*h, Sa!a"ar Moha!ed Bouh, Elias Said DiriehWater Science and Technology 1ar 20, '7 ('! '2#'$% DOI: 0&2'')st&20&0&&&handling is the preferred disinfectant (<ual et al& ); however, the environmental impact derived

from this treatment constitutes an important drawbac3. Secondary ef9uent samples were analyed for

some disinfection by-products (.3! in order to inestigate the potential of .3 formationduring&&&

• Dissolved organic nitrogen $D6N' during batch denitrification of low concentrations of nitrate using

suspended and attached biomass



http://wst.iwaponline.com/content/early/2015/11/11/wst.2015.576




















D. (. BrandNo, . Span1ers, J. B. ,an +ier Water Science and Technology ec 205, 72 (! =$'#$02% DOI: 0&2'')st&205&=0&&&for the reclamation of treated )aste)ater& 6Quent /> may act as a precursorof disinfection by-products during )aste)aterdisinfection and may contribute toeutrophication of receiing surface )aters& The aim of this study )as to understand the e?ect ofthe post#denitriNcation process on Nnal eQuent />&&&

• )onitoring and evaluation of removal of pathogens at municipal wastewater treatment plants

C. Y. 7u, 6. 6ie, J. J. uang, %. ;hang, 5. Y. Wu, J. (. Chen, . Y. uWater Science and Technology 1ar 200, ' ('! 5=$#5$$% DOI: 0&2'')st&200&757&&&almost any Gind of reclaimed )ater standards using in +hina& fter membrane Nltration, lesschlorination is needed fordisinfection and maintaining )ater Duality, )hich meansless disinfection byproducts produced& /n the other side, the eFpensie cost is the greatestobstacle to populariOe this measure&&&

• *io-enhanced activated carbon filter with immobili5ed microorganisms for removing organic

pollutants in the (onghua River

Yu2(an )ao, Wei2)uang +i, Duo2Ying ;hang, )uang2;hi WangWater Science and Technology ec 200, '2 (2! 2=$#2=2=% DOI: 0&2'')st&200&'''&&&and pollutants remoal, such as doiB 0&2'')st&200&''' 2=$ Y 8W 3ublishing 200 WaterScience Technology`WST H '2&2 H 200 synthetic organic chemicals and disinfection by-product precursors (im et al& $$7!& @ecently, the biological actiated carbon (.+! Nltrationhas emerged that oercomes seeral&&&

• Removal of endocrine disrupting compounds from wastewater using polymer particles

Audrey Murray , Banu 0r!e*i, Edward P. C. +aiWater Science and Technology Jan 20', 7 (! 7'#=% DOI: 0&2'')st&205&*=

&&&of natural and synthetic chemicals oer their lifetimes& Suspected health e?ects of 6+s onhumans include increased risG of testicudegraded by-products can shin et al& ).

technologies can be us from water while avoidi However, activated carbo fr om natural organic mat ciency andincreases&&&

• Control of bromate ion and brominated organic compounds formation during o5one?hydrogen

peroxide treatment of secondary effluent

.2S. Ki!, . Ya!ada, . %sunoWater Science and Technology 1ar 200', 5 ('! '$#7*% DOI: 0&2'')st&200'&$2&&&of potassium bromate& 6niron& ;ealth 3erspecties, =7, 0$& 3le)a, 1&J&, argalioglu, &,ManGerG, &, 1inear, @&& and Wagner, 6&& (2002!& 1ammalian cell cytotoFicity and genotoFicity

analysis of drinGing )ater disinfection by-products& 6niron& 1ol& 1utagen, *0, *Z*2&SiddiDui, 1&S& and my, <&A& ($$&&&

•

9se of +aZalginate as a noel support for Ti/2 immobiliOation in methylene blue decolorisation

Juliana 5. Al$arelli, Diego %. San"os, Sharon Murphy , Mi*hael Oelge!Lller



















Water Science and Technology pr 200$, '0 (*! 0=#0=7% DOI: 0&2'')st&200$&*5$&&&to conentional )ater treatment processes (rana et al& 2002!& This catalyst has been used fornumerous )ater treatment applications to remoe organic and inorganic pollutants (guado et al&$$*!, to inactiate microorganisms (@incoUn 3ulgarin 200*!, and to control the formationof disinfection byproducts&&&

•

comparatie study on the degradation of gallic acid by Aspergillus ory'ae and Phanero*hae"e

*hrysosporiu!

Dan'hao )uo, ;hi*ai ;hang, Dan +iu, uihua ;heng, ui Chen, Keping ChenWater Science and Technology Jul 20*, 70 (! 75#=% DOI: 0&2'')st&20*&2&&&serioas follo)sB (! a?ects the )ater color, taste, and smell% (2!generates disinfection byproducts during chlorinedisinfection, e&g&, chloroform andhaloacetic acids, )hich can& oryOae is proen to be a superior strain for the degradation of /3&ey )ords H spergillus oryOae, degradation, dissoled&&&

• %aste and odour issues in (outh 8oreaBs drin3ing water industry

B./. Bae, .S. Shin, J.J. ChoiWater Science and Technology 1ar 2007, 55 (5! 20#20=% DOI: 0&2'')st&2007&=0&&&are currently regulated& s summarised in Table , drinGing )ater Duality standards are groupedinto Ne categoriesB microorganisms, inorganic substances, organic substances, disinfection by-products and aesthetic substances& dditionally, 20 other chemicals are regularly monitored butare not regulated&&&

• Comparing the effluent organic matter removal of direct NF and powdered activated carbon?NF as

high quality pretreatment options for artificial groundwater recharge

C. Ka'ner , %. Win"gens, %. Melin, S. Bagho"h, S. Shar!a, ). A!y Water Science and Technology 1ar 200=, 57 ('! =2#=27% DOI: 0&2'')st&200=&'*&&&!& The remoal of bulG organics inLuences on the one hand the fouling of membranes (Scha[?er200% my 2007! )ith all its technical and economic implications, on the other hand )aste)atereQuent organic matter contributes to soil clogging (.ou)er 2002! and formationof disinfection by-products (/lier $=&&&

• 2mpacts on water quality in the upper "lbow River

A. Sosia- , J. Di:onWater Science and Technology 1ay 200', 5 (0! 0$#'% DOI: 0&2'')st&200'&2'

&&&at the <lenmore Water Treatment 3lant, )hich resulted in an increase in the productionof disinfection by-products& lgal blooms of increasing intensity hae been obsered in recentyears in the reseroir (iFon et al&, $$% Watson et al&, $$', 200!, W ater S cience T echnolo g y M o l 5 > o 0 p p 0 $&&&

• Comparison of two polarity measurements of hydrophobic organic matter for the evaluation of water

treatment processes: !D resin and R!)

Mar* Phili$er" , 7ernando osario2Or"i' , Mel Sue"






















Water Science and Technology /ct 202, '' (! 2*=#2*2*% DOI: 0&2'')st&202&*72&&&& SulOberger, .& haracteriing the properties of dissolved organic matter isolated by P1 and FQ

solid phase extraction and ultra2ltration. Euatic Science 5I, 5@I. Singer, *. . Humic substances as

precursors for potentially harmful disinfection by-products& Water Science and Technology *0 ($&&&

• ! novel electrospun polyurethane nanofibre membrane 9 production parameters and suitability for

wastewater $,,' treatment

Jarosla, +e, , Mare- ol$a, Mi*hal Do@e- , +i$or Kalho"-a, PFe!ysl Mi-ula, Du@an Ki!!er Water Science and Technology pr 20*, '$ (7! *$'#50% DOI: 0&2'')st&20*&0*&&&material& Water @esearch *, *=$Z52& >ieu)enhui:sen, 1& J&, Toledano, 1& .&, 6aton, >& 6&,Ka)ell, J& 6lliott, 3& hlorination disinfection byproducts in )ater and their association)ith aderse reproductie outcomesB a reie)& /ccupational and 6nironmental 1edicine 57, 7Z=5& 3ierucci, /&&&

• 6perating boundaries of full-scale advanced water reuse treatment plants: many lessons learned from

pilot plant experience

C. Bele, Y. Ku!ar , %. Wal-er , Y. Poussade, &. ;a,lanosWater Science and Technology /ct 200, '2 (7! 5'0#5''% DOI: 0&2'')st&200&*7&&&contaminants that are not fully re:ected by the @/ process, )ith a speciNc focus on >#>itrosodimethylamine (>1!, adisinfection by-product that can form during monochloraminedosing& The process is designed to remoe &2 log of >1, do)n to belo) 0ngl, )ith aperoFide dose of 'mgA and electrical input&&&

• ossibilities for reuse of treated domestic wastewater in %he Netherlands

+. C. ie",eld, D. (or"on2BrandNo, . Shang, J. ,an Ag"!aal, J. B. ,an +ier Water Science and Technology /ct 20, '* (7! 5*0#5*'% DOI: 0&2'')st&20&07

&&&K/@ @8>8>< WT6@ 39@3/S6S free from substances )ith aderse nic micro#pollutants,pathogenic ction by-products, salts, heay ng substances! and undesired subarticles!& Therefore, drinGing )ater comprise seeral treatment steps Z ch Z to remoe contaminants& 8n The >etherlands, artiNcial aDuifer recharge&&&

• %he anatomy of odour wheels for odours of drin3ing water# wastewater# compost and the urban

environment

9.. Sue" , P. osen8eldWater Science and Technology 1ar 2007, 55 (5! 5#**% DOI: 0&2'')st&2007&$'&&&al&, 200'!& The disinfectants chlorine and oOone are used in )ater treatment to protect humanhealth& +hlorine in its many forms is the most prominent taste and odour in the 9S (Su?et et al&,

$$'!& The production of disinfection by-products of health concern, e&g& chloroform, ersushealth concern&&&

•

.iofouling by bryoOoans, Cordylophora and sponges in 9 )ater treatment )orGs

. C. Man" , ). Moggridge, D. C. AldridgeWater Science and Technology 1ay 20, ' ($! =5#=22% DOI: 0&2'')st&20&=*






















&&&the production of toFic disinfectant by-products including the carcinogenic trihalomethanes(T;1s! and haloacetic acids (;s! (.oorman et al& $$$!& 8t has no) become clear that Oebramussels are not alone in contributing to an increased biofouling nuisance in 9 WTWs in recentyears& ;o)eer, the identity&&&

• !lgal biofuels from wastewater treatment high rate algal ponds

. J. Craggs, S. eu$e*- , %. J. +und#uis" , J. . Bene!annWater Science and Technology Keb 20, ' (*! ''0#''5% DOI: 0&2'')st&20&00&&&production, )ith biofuel and recoered nutrient fertiliOer being by-products& <reenhouse gasabatement results from both the production of the biofuels and the saings in energyconsumption compared to electromechanical treatment processes& ;o)eer, to achiee thesebeneNts, further research is reDuired&&&

• Nanofiltration technology in water treatment and reuse: applications and costs

Arash Shah!ansouri, Chris"opher BellonaWater Science and Technology Keb 205, 7 (! 0$#$% DOI: 0&2'')st&205&05

&&&B clean#in#place +/B chemical oFygen demand .3B disinfection by-product 6B eDuialentannual annuity <+B granular#actiated carbon i (or @/8!B rate of return 1+@SB modiNedaccelerated cost recoery system /1B operation and 3+B po)der#actia @/B reerse osmoSW@/B sea)ater ree 9KB ultraNltration&&&

• "merging contaminants and treatment options in water recycling for indirect potable use

%. Win"gens, 7. Salehi, . o*hs"ra" , %. MelinWater Science and Technology Jan 200=, 57 (! $$#07% DOI: 0&2'')st&200=&7$$&&&disrupting compounds (6+!, pharmaceutically actie compounds (3h+!, personal careproducts (3+3! and disinfection by-products (.3!& The occurrence of these emergingcontaminants in the aDuatic enironment including surface and ground)aters, and )aste)atersludges as )ell as drinGing )ater has been studied&&&

• erformance of !C?D) composite coagulants for removal of algae from =a3e %aihu waters in

summer

Y. J. ;hang, 6. +. ;hao, 6. 6. +i, Ch. +iu, +. +. ;huWater Science and Technology Jul 200, '2 (2! 0#$% DOI: 0&2'')st&200&2$2&&&)ater Duality& s a result, formation of disinfection by-products could be reduced, and theNnished )ater Duality improed& +/>+A9S8/>S (! +ompared )ith 3+ only, the treatmenteRciencies of algae#rich ra) )ater from AaGe Taihu in summer increased by use of a series ofstable 3+31 composite&&&

• Degradation and toxicity change of <-chlorophenol in aqueous solution during C>D" treatment

Jin 6ing2long, ;hao 6iao2#ing, Wang 6iao2yan, Wang ;hi2rongWater Science and Technology 1ay 20, '7 (0! 2$0#2$*% DOI: 0&2'')st&20&5&&&in the manufacture of antioFidants, disinfectants, pesticides, dyes, pharmaceuticals, andother synthetic materials& Therefore, such contaminants are commonly found in industrial)aste)ater streams from chemical industries in general& 1oreoer, they are toFic andrecalcitrant to biodegradation, )hich hashenol (*#+3&&&















• ! review of taste and odour events in *arcelonaBs drin3ing water area $.GGH91HH<'

M.. Boleda, A. D<a' , 9. Mar"< , J. Mar"<n2Alonso, +. Ma"ia, J. o!ero, 7. &en"uraWater Science and Technology 1ar 2007, 55 (5! 27#22% DOI: 0&2'')st&2007&=2&&&of disinfection by-products, such as iodinated trihalomethanes and chlorobromoanisoles& The latter t)o groups )ere preiously synthesised because of the unaailability of commercial

standards& We focus on eents produced, on the one hand, by creosote, dioFanes and dioFolanes,dicylopentadiene and deriaties&&&

• 6xidation of sulfamethoxa5ole by +&! radiation and modified Fenton reagent: toxicity and

biodegradability of by-products

D. Mar*io*ha, J. Kal-a, J. %ure-2S'y"ow, J. Wis'niows-i, J. Sur!a*'2)rs-aWater Science and Technology >o 200$, '0 (0! 2555#25'2% DOI: 0&2'')st&200$&'5&&&/Fidation of sulfamethoFaOole by 9M radiation and modiNed Kenton reagentB toFicity andbiodegradability of by-products & 1arciocha, J& alGa, J& TureG#SOyto), J& WisOnio)sGi and J&SurmacO#<oUrsGa .ST@+T & 1arciocha J& alGa J& TureG#SOyto) J& WisOnio)sGi J& SurmacO#<oUrsGa 6nironmental&&&

• =ist of osters resented

Water Science and Technology 1ay $$, 2 (0#2! 225#222'% DOI:&&&contactor for )ater treatment )ith 9M irradiation S& 1orooGa, & usaGabe, J& ;ayashi, S& so,and & 8somura (Japan! Aist of posters presented 222 3;#05 Disinfection by-products produced from natural )ater under laboratory eFperiments using oOone#chlorine andoOone#chloramine 1& oga, & adoGami, &&&

• "lectrochemical degradation of perfluoroal3yl and polyfluoroal3yl substances $F!(s' in groundwater

A. M. %rau"!ann, . S*hell, K. . S*h!id" , K.2M. Mangold, A. %ieh!Water Science and Technology 1ay 205, 7 (0! 5'$#575% DOI: 0&2'')st&205&*&&&B Disinfection By-Products in rinGing Water (1& Kielding 1& Karrimond, eds!& The @oyalSociety of +hemistry, +ambridge& Schrkder, ;& K& 1eesters, @& J& Stability of 9uorinated

surfactants in advanced oxidation processes @ a follow up of degradation products using 9ow in6ectionFmass spectrometry,

liEuid..&

• %he performance of enhanced coagulation for treating slightly polluted raw water combining

polyaluminum chloride with variable charge soil

;. +. ;hang, C. D. Wu, Y. J. Wang, J. C. %ang, Y. P. +iuWater Science and Technology ec 20*, 70 (2! $07#$2% DOI: 0&2'')st&20*&*2

&&&as among the best aailable techniDues for remoal of disinfection by-product precursor in)ater treatment (an et al& ; Ru et al. ; ryal et al. ). 'n addition, polyalumisuch as u",

*b" and et al. ; olan et al. researches on a combina soil have been hardly rep 8he principal ob6ecti...

•

8mpact of Mi*ro*ys"is aeruginosa on membrane fouling in a biologically treated eQuent





















Y. %. )oh, J. +. arris, 7. A. oddi*- Water Science and Technology Jun 20, ' (2! 2=5#2=5$% DOI: 0&2'')st&20&*50&&&, 1icrocystis aeruginosa, microNltration, pre#treatment 8>T@/9+T8/> 3eriodic blooms of+yanobacteria (commonly Gno)n as blue#green algae! in )aste)ater treatment lagoons lead to)ater Duality problems such as odour, release of toFins, membrane fouling and the productionof disinfection byproducts&&&

• !cquiring reproducible fluorescence spectra of dissolved organic matter at very low concentrations

B. . . Peiris, . Bud!an, C. Moresoli, . +. +eggeWater Science and Technology Sep 200$, '0 ('! =5#$2% DOI: 0&2'')st&200$&'7&&&8>T@/9+T8/> 8nterest in dissoled organic matter (/1! is increasing in the area of )atertreatment, particularly as it relates to membrane fouling, monitoring and controlof disinfected by-products and issues arising due to interactions )ith other enironmentalcontaminants (1obed et al& $$'% 1arhaba&&&

• +sing reverse phase high performance liquid chromatography as an alternative to resin fractionation

to assess the hydrophobicity of natural organic matter

+inan 6ing, %heodore +o, olando 7a$ris, Chris"opher W. K. Chow, John ,an+eeuwen, Mary Dri-as, Dongsheng WangWater Science and Technology /ct 202, '' (! 2*02#2*0$% DOI: 0&2'')st&202&**=&&&absorbance at 25* nm (9M25*! )as measured by a spectrophotometer (6olution '0, Thermoan important parameter fordisinfection by-product formation assessment& ;o)eer,most of the analytical techniDues used are considered to consume a considerable amount of timeand e?ort, and reDuire relatiely eFpensie&&&

•

8buprofen remoal from aDueous solution by in si"u electrochemically generated ferrate(M8!B

proof#of#principle

+1il1ana (i-oli=2Bu1ano,i= , Milan Ge-ere,a*, Milena %o!i= , Mladen ;dra,-o,i= Water Science and Technology Jan 20', 7 (2! =$#$5% DOI: 0&2'')st&205&*7*&&&, 9& inetic assessment and modeling of an oonation step for fullFscale municipal wastewater treatmentG

micropollutant oxidation, by-product formation and disinfection& Water @esearch *5 (2!, '05Z'7&eptember 205& ailable online 2$ September 205Technology 50 (5!, 25Z2'0& 3omati, K&&&

• !pplication of high rate nitrifying tric3ling filters to remove low concentrations of ammonia from

reclaimed municipal wastewater

B. ,an den A--er , M. ol!es, M. D. Shor" , (. J. Cro!ar , . J. 7alloweldWater Science and Technology 1ay 200, ' (0! 2*25#2*2% DOI: 0&2'')st&200&70=&&&! in order to reduce the chlorine dose reDuired for e?ectie disinfection& 8t )as enisaged thatthe inclusion of this high rate biological treatment step could simplify the process control ofchlorination, as )ell as minimise the impact of chlorine disinfectionby-products in thereceiing enironment&&&

• (tudy of solar photo-Fenton system applied to removal of phenol from water





















+ayla 7. A. 7reire, 7a$iana &al4ria da 7onse*a, +idia Yo-oya!a, +ui' Al$er"o Cesar %ei:eiraWater Science and Technology Sep 20*, 70 (5! 7=0#7='% DOI: 0&2'')st&20*&2='&&&lead to the destruction of arious organic pollutants in )ater and )aste)ater treatmentoperations&ation or oFidation to ery lo) concentrations and the production of enironmentallyfriendly by-products& /3s can be deNned as processes that inole the in#situ generation ofhighly reactie species&&&

• +se of nanofiltration for potable water from an aquifer recharged with wastewater

A. Aguilar , B. Ji!4ne' , J. E. Be*erril, +. P. Cas"roWater Science and Technology 1ar 200=, 57 ('! $27#$% DOI: 0&2'')st&200=&=$&&&Sci& Technol& 50(2!, 2'$Z27'& imura, &, my, <&, re)es, J& 6&, ;eberer, T&, im, T& Watanabe, & 200 @e:ection of micropollutants (disinfection by-products, endocrine disruptingcompounds, and pharmaceutically actie compounds! by >K@/ membranes& J& 1embr& Sci&227(Z2!, Z2& iso, &&&

• rotecting public health from the impact of body-contact recreation

P. S"andish2+ee, E. +o$os*he8s-y Water Science and Technology 1ay 200', 5 (0! 20#207% DOI: 0&2'')st&200'&&&&microbial protections as they taGe steps to reduce the formation of disinfection byproducts& The AT2 )as published )ith the Kederal @egister on January 5, 200' (63, 200'!& 3roisions of theAT2 include aried treatment leels related to microbiological Duality and source )ater protectionmethods&&&

•

cute toFicity and inactiation tests of +/2 on inertebrates in drinGing )ater treatment systems

Wen2Chao Yin, Jin2Song ;hang, +i2Jun +iu, Jian2Shu ;hao, %uo +i

Water Science and Technology ug 20, '* (! 7$#7*'% DOI: 0&2'')st&20&702&&&+/ n \ her ;o rea an of t 50 (m oFi se i ho) ide to preent the entry and proliferation ofinertebrates in st le ryp ter ho ( po ina pa teb in microorganisms. 'n addition, as assimilable organic carbon

for bacterial growth and disinfectant consumption, inertebrates should be controlled&&&

•

6?ect of calcination temperature on the catalytic actiity of nanosiOed Ti/2 for oOonation of trace

*#chloronitrobenOene

Miao!iao Ye, ;honglin Chen, %u#iao ;hang, Weiyun Shao

Water Science and Technology Jun 202, '' (! *7$#*='% DOI: 0&2'')st&202&=&&&! and heterogeneous(Ti/2, /2! aDueous systems& J& 3hys& +hem& $= ('!, =$77Z=$=*& .ulanin,& 1&, Aaalley, J& +& TsyganenGo, & & 'nfrared study of oone adsorption on 8i" 0natase). -.

*hys. hem. $$ 0"%), +"$A@+"$Q. hin, . & erube, *. C. Cemoval of disinfection by-product precursors )ith oOone&&&

• 65one "nhanced *iological !ctivated Carbon Filtration and its "ffect on 6rganic )atter Removal# and

in articular on !6C Reduction





















J. ). Janssens, J. Meheus, J. Diri*-: Water Science and Technology Jun $=5, 7 ('#7! 055#0'=% DOI:&&&, actiated carbon, oOone, biological actiated carbon Nltration, as s imilable organic carbon(/+! & 8>T@/9+T8/> /Oonation of organic compounds in )ater us ually produces oFygenatedorganic byproducts that are more readily biodegradable& When it is as s umed that the s amerelations hip bet)een&&&

• !dvanced water recycling through electrochemical treatment of effluent from dissolved air flotation

unit of food processing industry

Su-1oon Yoo, Jeery S. siehWater Science and Technology Jan 200, ' (! =#$0% DOI: 0&2'')st&200&=02&&&to facilitate )ater treatment, )hich o?er better enironmental compatibility (1ollah et al&200*!& 6lectrochemical treatments generally hae lo)er temperature reDuirements and reDuireless space, and produce fe)er by-products or sludge (1ollah et al& 200!& 6+ treatment is acomplicated process inoling many&&&

• Distinguishing stage . and 1 reverse osmosis permeates using fluorescence spectroscopy

S. Singh, . K. enderson, A. Ba-er , . M. S"ue"' , S. J. KhanWater Science and Technology /ct 200$, '0 (=! 207#202% DOI: 0&2'')st&200$&55&&&al& 200=!& Kluorescence has been utiliOed to monitor )ater Duality and pollution in riers(;udson et al& 2007!, control processes in se)age treatment )orGs (@eynolds hmad $$7%hmad @eynolds $$$% ;udson et al& 2007!, the formation of disinfectionbyproducts indrinGing )ater (;ua et al& 2007&&&

• Catalytic o5onation of oxalic acid using carbon nanofibres on macrostructured supports J. es"i,o, J. J. M. r8No, M. 7. . Pereira, E. &anhae*-e, M. Lnning, %. 9ourano,a, +. Kiwi2Mins-er , S. Ar!enise, E. )ar*ia2Borde14Water Science and Technology pr 202, '5 (0! =5*#='2% DOI: 0&2'')st&202&==2

&&&ca ec <a sup pos sop on tha ture >or)egian 9niersity of Science and Technologytaly ofsubstances such as iron and sulphur so that they can be efu of arly tsel Kar .e m these catalystson the remoal of organic compounds and conseDuently the formation of possible toFic by-products& /perational&&&

• Degradation and changes in toxicity and biodegradability of tetracycline during o5one?ultraviolet-

based advanced oxidation

uyen %rang +uu, Kisay +eeWater Science and Technology /ct 20*, 70 (7! 22$#25% DOI: 0&2'')st&20*&50&&&& ), in which the one of inhibition was formed around the colony if antibiotic toxicity existed. 8he toxicity of

parent compounds and their oxidation byproducts )ere also estimated by a bioLuorescence assay

(Kroehner et al& ; -ennings et al. ) with =. 2scheri using a 81F"+/ "+ Duminometer 08urner...

• Removal of endocrine disrupting chemicals $"DCs' using low pressure reverse osmosis membrane

$=R6)'

A..A. a'a- , ;. /1ang, . O'a-iWater Science and Technology /ct 2007, 5' (=! '#'=% DOI: 0&2'')st&2007&'$5



















&&&&J& and Snyder, S&& (200'!& /ccurrence and remoal of pharmaceuticals and endocrinedisruptors in South orea surface, drinGing, and )aste )aters& Water @es&, *, 0Z02&imura, &, my, <&, re)es, J&6&, ;eberer, T&, im, T& and Watanabe, & (200!& @e:ection oforganic micropollutants (disinfections by-products&&&

• )embrane process treatment for greywater recycling: investigations on direct tubular nanofiltration

7. ourlier , A. Mass4, P. Jaouen, A. +a-el, C. )4ren"e, C. 7aur , P. +e Cloire*Water Science and Technology /ct 200, '2 (7! 5**#550% DOI: 0&2'')st&200&*5&&&& s the presence of organic matter in recycled )ater is a source of concerns, such as possiblebacterial re#gro)th and chlorination by-products generation, it is better to reduce the organiccontent of permeates& t a pressure of 5 bar, results )ere noticeably di?erent (Table *!& snoted preiously, LuFes )ere&&&

• )odeling of coastal water contamination in Fortale5a $Northeastern *ra5il'

S. P. Pereira, P. C. C. os!an, C. Al,are' , C. A. 7. S*he"ini, . O. Sou'a, . . S. 7. &ieiraWater Science and Technology Sep 205, 72 ('! $2=#$'% DOI: 0&2'')st&205&2$2

&&&on hydrodynamics and data on )ater Duality ariation, enironmental modeling can also beused to optimiOe se)agedisinfection dosages thereby minimiOing the impact of undesirablechlorinated disinfection by-products on the marine enironment and meeting beach )aterDuality standards (+han et al& ). 'n addition...

• ! critical evaluation of combined engineered and aquifer treatment systems in water recycling

P. Dillon, D. Page, J. &ander'al!, P. Pa,eli*, S. %o'e, E. Be-ele, J. Sidhu, . Pro!!er , S. igginson,. egel, S. in*-2P8eier , M.Purdie, C. Pi"!an, %. Win"gensWater Science and Technology pr 200=, 57 (5! 75#7'2% DOI: 0&2'')st&200=&'=&&&follo)ing aDuifer storage& Where disinfection byproducts are problematic, aDuifer storageprior to chlorination has been sho)n to cause a signiNcant reduction in precursors fortrihalomethanes and haloacetic acids (illon ToOe 2005!& 9@.> ST/@1WT6@ T/ @8>8><WT6@ 3@/J6+T speciNc pro:ect&&&

•

egradation of a miFture of pollutants in )ater using the 9M;2/2 process

M. +. Mariani, M. D. +a$as, . J. Brandi, A. E. Cassano, C. S. ;ala'ar Water Science and Technology Jun 200, ' (2! 02'#02% DOI: 0&2'')st&200&255&&&as a byproduct of chlorine disinfection and can also be detected in )aste)aters resultingfrom the degradation of seeral chlorinated compounds (;ironen et al& $$'!& Thus, + is oneof the prominent haloacetic acids and it is belieed to be a more potent carcinogen than

trihalomethanes (>iGolaou et al& $$$&&&

• "quilibrium# 3inetic and thermodynamic studies of mercury adsorption on almond shell

Sho-ooh Sada" Khaloo, A!irossein Ma"in, Sahar Shari, Masou!eh 7adaeinia, (arges Ka'e!pour , Shaghayegh Mir'adehWater Science and Technology 1ar 202, '5 (=! *#*$% DOI: 0&2'')st&202&7'7&&&especially the )aste resulting icultural products and by-products ted as a replacement forcurrent ing heay metals from )ater and andyopadhyay ). 'n recent rials such as moss biomass

















0Sari & 8uen ), eiba pentandra hulls 0Cao et al. ), #A '( *ublishing "+" (ater Science &

8echnology K 5%...

• (anitising blac3 water by auto-thermal aerobic digestion $!%!D' combined with ammonia treatment

Anni-a C. (ordin, B1Lrn &innersWater Science and Technology ec 205, 72 (2! 22#22% DOI: 0&2'')st&205&*2&&&to the 69 nimal By-Products (.3! regulation regarding the use of animal manure on arableland (6+ , ). 8he present study investigated the effect of a combined twoFstep treatment process on

pathogens 0Salmonella spp. and scaris suum eggs! and indicator organisms (6& coli, 6nterococcus spp&&&

•

1odelling the Ginetics of 9M;2/2 oFidation of dichloroacetic acid

C.S. ;ala'ar , M.D. +a$as, M.E. +o,a"o, .J. Brandi, A.E. CassanoWater Science and Technology Jun 2007, 55 (2! #5% DOI: 0&2'')st&2007&77

&&&mechanism& ey)ords ichloroacetic acid% Ginetics% 9Mhydrogen peroFide% )ater pollution8ntroduction ichloroacetic acid (+! is a pollutant that can be found in )ater asa byproduct of chlorine disinfection (.3s! and can also be detected in )aste)aters resultingfrom the degradation of seeral&&&

• ! comparative study of the hydroxyl radical scavenging capacity of activated sludge and membrane

bioreactor wastewater effluents

Ja*#ue2Ann )ran" , on o8!annWater Science and Technology Keb 20', DOI: 0&2'')st&20'&0*&&&& Humic substances as precursors for potentially harmful disinfection by-products& WaterScience and Technology *0 ($!, 25Z0& SouOa, .& S&, antas, @& K&, +ruO, &, Sans, +&, 6splugas, S&

eOotti, 1& *hotochemical oxidation of municipal secondary ef9uents at low H"" dosageG study ofhydroxyl...

• Recycling of spent filter bac3wash water using coagulation-assisted membrane filtration: effects of

submicrometre particles on membrane flux

Chihpin uang, Jr2+in +in, C. +. Wu, C. P. ChuWater Science and Technology pr 200, ' (=! $2#$2$% DOI: 0&2'')st&200&*'&&&recycled to the head of WT3 for the reclamation of )aste streams& ;o)eer, direct recycling ofSK.W may hae negatie impact on Nnished )ater Duality and :eopardiOe the drinGing safetybecause pathogens such as <iardia and +ryptosporidium or other disinfection by-product precursors (.3s! could&&&

• Fouling mitigation in humic acid ultrafiltration using polysulfone?(!6-I< mixed matrix membrane

M. /. M. Junaidi, C. P. +eo, S. (. M. Ka!al, A. +. Ah!adWater Science and Technology 1ay 20, '7 ($! 202#20$% DOI: 0&2'')st&20&0$=&&&tra b A& r an atur osp (; nop bra ite i er ) ite s g e per 6fLuent organic matter is thecombination of natural nd chloramines, in the conentiona host of disinfection by-products ).

1*s can lead to cancers, missystem complications. 8hus, the is ran om ed ou y 0 and H effectively from water...





















• 2ndustrial and agroindustrial wastes: an echotechnological approach to the production of supported

photocatalysts

Willia! +eonardo da Sil,a, Marla A'3rio +ansarin, JoNo . ;. dos San"osWater Science and Technology Jan 20', 7 (! 2=#=% DOI: 0&2'')st&205&2'

&&&in a signiNcant reduction in operational costs 2= ^ 8W 3ublishing 20' Water Science Technology H 7& H 20'Duantities of sand are used in the metal casting industry to create moldsand cores& Sands are used because they canand peels generated from the cereal industries,classiNed as agroindustrial by-products&&&

• )anaged aquifer recharge with reclaimed water: approaches to a "uropean guidance framewor3

. o*hs"ra" , %. Win"gens, C. Ka'ner , P. Jerey , B. Jeerson, %. MelinWater Science and Technology Sep 200, '2 ('! 2'5#27% DOI: 0&2'')st&200&='&&&compounds >itrite @egulated chemicals and physical characteristics /rganic contaminantsMarious organic and inorganic chemicals Total coliforms Disinfection by-products /therspeciNed constituents Aead and copper T/+ limit (depending on recycled )ater contribution, i&e&a degree of dilution! 2 7 0 @ & ;&&&

•

YuantiNcation of u!u genotoFicity leel of urban rier )ater

%. Ka!eya, %. (aga"o, K. (a-agawa, D. Ya!ashi"a, %. Ko$ayashi, K. 7u1ieWater Science and Technology Keb 20, ' (! *0#*5% DOI: 0&2'')st&20&25&&&&, Keretti, &, Serbini, 8&, \ani, +&, Meschetti, 6&, +utilli, & /ttaiani, 1& 2005 <enotoFicity ofthe disinfection by-productsresulting from peracetic acid or hypochlorite disinfected se)age)aste)ater& Water @esearch $, 05Z& iOer, ;&, WitteGindt, 6&, Kischer, .& ;ansen, 3& &2002&&&

• Chemical monitoring strategy for the assessment of advanced water treatment plant performance

J. E. Drewes, J. A. M*Donald, %. %rinh, M. &. S"orey , S. J. KhanWater Science and Technology Keb 20, ' (! 57#57$% DOI: 0&2'')st&20&2'0&&&& +onNrm that Gey chemicals of potential toFicological concern (including pharmaceuticals,endocrine disrupting chemicals, and emerging disinfection by-products! in the product )aterare either absent or present at trace concentrations that do not present a source of human orenironmental health concern&&&

• 2nternal recycle to improve denitrification in a step feed anoxic?aerobic activated sludge system

C. A. Boyle, C. J. M*Ken'ie, S. MorganWater Science and Technology /ct 200$, '0 (7! ''#''=% DOI: 0&2'')st&200$&0&&&8>T@/9+T8/> The 1angere Waste)ater Treatment 3lant (WWT3! uses biological nitrogenremoal and 9M lightdisinfection of the )aste)ater in a step feed actiated sludge system)hich maGes better use of organic carbon in the inLuent as an energy source for denitriNcation(aigger 3arGer 2000% Aarrea et al&&&

• %hree dimensional fluorescent spectroscopy analysis for the evaluation of organic matter removal

from industrial estate wastewater by stabili5ation ponds





















C. Musi-a,ong, S. Wa""ana*hira, 7. (a-a1i!a, . 7uru!aiWater Science and Technology Jun 2007, 55 (! 20#20% DOI: 0&2'')st&2007&'&&&is of particular concern because /1 can react )ith the chlorine used inthe disinfection process to form potentially carcinogenic disinfection by-products (.3s!such as haloacetic acids (;s! and trihalomethanes (T;1s!& The formation of .3s during )atersupply production mainly depends upon the compleF&&&

• ,astewater reclamation through a combination of natural systems $infiltration-percolation and

constructed wetlands': a solution for small communities

E. uer"as, M. 7ol*h, M. Salgo" Water Science and Technology pr 2007, 55 (7! *#*=% DOI: 0&2'')st&2007&=&&&are compleF and include Nltration, sedimentation, chemical precipitation, bacteriologicaloFidation, and disinfection(Stentstro[m and +arlander, 200% Tanner and adlec, 200!&+onstructed )etlands, )ith subsurface LuF and planted macrophytes, present small aerobicOones around roots and rhiOomes, )here&&&

• !nalysis of the methodology to determine anaerobic toxicity: evaluation of main compounds present

in wastewater treatment plants $,,%s'

J. /rra, P. Poirrier , . Cha!y , J. Sego,ia, Y. +es"y Water Science and Technology 1ar 200=, 57 ('! =57#='2% DOI: 0&2'')st&200=&05&&&process& Kor eFample, the phenolic compounds and by-products of the disinfectants andantiseptics manufacturing, among others% the linear alGylbenOene sulphonate, main componentof detergents% long chain fatty acids present in the discharges generated in slaughterhouses% andorganic acids deried from&&&

• (tochastic approach for performance evaluation regarding water distribution systems

M. MLderl, %. 7e"' , W. au*hWater Science and Technology >o 2007, 5' ($! 2$#'% DOI: 0&2'')st&2007&5$=&&&8ntroduction Kor performance ealuation and analysis of )ater distribution systems ne)methodologies are deeloped on a freDuent basis& Kor eFample, +oOOolino et al& (2005! controlledthe disinfection of by-products in )ater distribution systems& .abayan et al& (200*!, da+onceicao +unha and @ibeiro (200*&&&

• Responsible development of nanotechnologies for water and wastewater treatment

M.. Wiesner Water Science and Technology Keb 200', 5 (! *5#5% DOI: 0&2'')st&200'&05&&&such as the deelopment of nuclear po)er, genetically modiNed organisms, informationtechnologies and synthetic organic chemistry, turn sour in the public eye as the conseDuences of

these technologies, often enironmental, become apparent& 6en potable )ater disinfection,the single most important technological adance&&&

• %he impact of organic carbon on the performance of a high rate nitrifying tric3ling filter designed to

pre-treat potable water

Ben ,an den A--er , Mi-e ol!es, (an*y Cro!ar , oward 7alloweldWater Science and Technology pr 200, ' (7! =75#==% DOI: 0&2'')st&200&5=



















&&&for ammonia remoal is pre#chlorination using high concentrations of chlorine, )hich has anumber of disadantages including the formation of disinfection by-products and high chlorineconsumption (+ammarota 200% 1ustiGa Sari 200*!& ue to the ongoing deterioration in ra))ater Duality, )ater treatment&&&

• 65one-based reclamation of an (% effluent

A. odr<gue' , . osal, M. J. )o!e' , E. )ar*<a2Cal,o, A. . 7ernande'2Al$aWater Science and Technology 1ay 20, ' (0! 22#20% DOI: 0&2'')st&20&2$=&&&and sho) the elimination rates of 5 micropollutants studied& >ine of them are remoed atrates eDual or higher to =0 at 5 min of oOonation& >icotine is eliminated at rate higher than$5 at 20 min of oOonation but this product is not mineraliOed because a methabolic by-product Table 2 $ 8nitial&&&

• !ddition of a magnetite layer onto a polysulfone water treatment membrane to enhance virus removal

9. a*iny , K. . ;odrow, D. +i, 5. +i, P. J. J. Al,are' Water Science and Technology 1ay 20, ' (0! 2*'#252% DOI: 0&2'')st&20&55

&&&)ater& dantages of nanomagnetite coating of 3Sf membranes include the simple coatingprotocol, aoidance of harmfuldisinfection byproducts, and negligible iron leaching into theNltrate& ue to the limited irus adsorption capacity of membranes prepared in this fashion,regeneration&&&

•

+oncurrent remoal of humic acid and o#dichlorobenOene in drinGing )ater by combined

oOonation and bentonite coagulation process

+i )u, 6ingwang 'hang, +e*heng +ei, 6ian1un +iu

Water Science and Technology ec 200$, '0 (2! 0'#0'=%DOI:

0&2'')st&200$&'7=&&&is formed in microbial degradation of biomolecules& 8ts presence introduces a bro)n colour to)ater, and forms disinfection by-products during chlorination step in conentional treatment(.ose @ecGho) 2007!& /n the other hand, dichlorobenOene (+.! is a typical S/+& 8t is used toproduce adhesies, paints&&&

• ydrogen-driven denitrification of wastewater in an anaerobic submerged membrane bioreactor:

potential for water reuse

B. e'ania, J.A. Oles'-iewi*' , (. Ci*e- Water Science and Technology ec 200', 5* (#2! 207#2*% DOI: 0&2'')st&200'&=**&&&#site (<antOer, $$5!, elimination of the organic carbon carry oer to the reclaimed )ater,

)hich can also become disinfectionby-product (.3! precursors, and W ater S cience Techno lo g y M o l 5 * > o Z 2 p p 2 0 7 Z 2 * Y 8W 3 ub lishing 2 0 0 ' 207doiB0&2'')st&200'&=** lo)er sludge&&&

• 6ff flavours in large waterbodies: physics# chemistry and biology in synchrony

S.B. Wa"son, M. Charl"on, Y.. ao, %. owell, J. idal, B. Brownlee, C. Mar,in, S. MillardWater Science and Technology 1ar 2007, 55 (5! #=% DOI: 0&2'')st&2007&55&&& (aerage nutrient leels and, algal biomass (usually measured as chlorophyll#a (chla!! or )atertreatment plant (WT3! chemical treatment doses, disinfection by-products, and sporadic



















consumer complaints (e&g& Stride, 200!& These same proFy measures hae been used to deNneacceptable target leels of T&&&

• )olecular weight distribution of organic matter by o5onation and biofiltration

Yen2ui +inWater Science and Technology /ct 202, '' (2! 2'0*#2'2% DOI: 0&2'')st&202&*=*&&&to oOonation )ith an oOone dosage of 0& mg /mg T/+& The absorption band at ,*00cm]2% )as reduced& dditionally, absorption peaGscarbon for subseDuent bioNltration& Theincrease of oOone@6K6@6>+6S +hin, & .rub, 3& @& Cemoval of disinfection by-product precursors )ith oOone#9M adanced oFidation&&&

• Reducing the natural color of membrane bioreactor permeate with activated carbon or o5one

Chris"ian A$egglen, Adriano Joss, Mar* Boehler , Si!one Bue"'er , ansruedi Siegris" Water Science and Technology Jul 200$, '0 (! 55#'5% DOI: 0&2'')st&200$&&&&&, aiser, ;&#3&, 6gli, T& on <unten, 9& 200' 1echanistic and Ginetic ealuation oforganic disinfection by-product and assimilable organic carbon (/+! formation during the

oOonation of drinGing )ater& Water @es& *0(2!, 2275Z22='& ;ao, /& J&, im, ;& +hiang, 3&#+&2000 ecoloriOation of )aste)ater&&&

• Degradation of pC*! by catalytic o5onation in natural water

K. A'rague, S. W. Os"erhus, J. ). Bio!orgiWater Science and Technology 1ar 200$, 5$ ('! 20$#27% DOI: 0&2'')st&200$&07=&&&!& /Oone has due to its high oFidation and disinfection potential recently receied muchattention in )ater treatment technology& 8t is applied in order to improe taste and color as )ellas to remoe undesired organic and inorganic compounds from the )ater (<ogate 3andit200*!& @egardless of seeral&&&

• *iological treatment of pharmaceutical wastewater from the antibiotics industry

O. +e8e$,re, 6. Shi, C. . Wu, . Y. (gWater Science and Technology Keb 20*, '$ (*! =55#='% DOI: 0&2'')st&20&72$&&&H 20*actual operations inoled& They can include biologicalreported that 200 to 0,000 Gg of)astes can typically be generated for eery Gilogram of actie ingredient produced (>@+

). 8he composition of these pharmaceutical by-products aries as it depends on the type of drugmanufactured&&&

• resence of selected priority and personal care substances in an onsite bathroom greywater treatment

facility

E. Eri-sson, E. Donner , A. +edinWater Science and Technology ec 200, '2 (2! 2==$#2=$=% DOI: 0&2'')st&200&$==&&&hypochlorite chloroform may be produced as a disinfection by-product in the presence oforganic matter& 3almDuist ;anaeus (2005! found 2&=Z'&0mgl of >3 and 0&0=Z0&'mgl of /3 inS)edish grey)aters )hich is higher than that detected here& The di?erence could )ell be due tothe di?erences in the grey)ater&&&















• %he process of activated sludge o5onation: effect of o5one on cells# flocs# macromolecules and nutrient

release

6ianrong Meng, Dong8ang +iu, Ma""hew 7rigonWater Science and Technology pr 205, 7 (7! 02'#02% DOI: 0&2'')st&205&0''

&&&to degrade refractory organic matter, reduce sludge production and to disinfect (.eltran ; 1ytca3 et al. ; hu et al. b; Stalter et al. ; Dester et al. ; ourgin et al.

). Sludge oonation is widely used L4 0>iglio et al. obtain a realistic ie) of also a )ay tofurther ea&&&

•

@emoal of humic acid from composted hog )aste by the )hite#rot fungus, Phanero*hae"e

*hrysosporiu!

Junying +iu, Yun!eng Song, oger uan, Yuhuan +iuWater Science and Technology Jul 205, 72 (! $2#$=% DOI: 0&2'')st&205&''&&&, are often Gar et al& ). 8he chrysosporium, is a wid employs an extensive co and oxidative enymes 0C has

now become a m remediation of pollutantdangerous disinfection byproducts such as chloroform andbromo#dichloromethane (Wang et al& ; 3yol et al. ). <sing a variety of methods, much

attention...

• (election of the surface water treatment technology 9 a full-scale technological investigation

Alina PrussWater Science and Technology Keb 205, 7 (*! '=#'**% DOI: 0&2'')st&20*&5&&&of natural organic matter in treatment of reseroir )ater& Separation and 3uriNcation Technology *$ (!, 2$5Z2$=& Sandrucci, 3&, 1erlo, <&, <enon, <& 1eucci, A& * ctivity

vs by-product precursors in )ater disinfection& Water @esearch 2$ (0!, 22$$Z20=& Sohn, J& <&,

my, <& oon, & *rocess...

• %he heterogeneous photo-Fenton reaction using goethite as catalyst

)uadalupe B. Or"i' de la Pla"a, Orlando M. Al8ano, Al$er"o E. CassanoWater Science and Technology Jun 200, ' (2! 0$#'% DOI: 0&2'')st&200&25=&&&for synthesising pesticides and other chlorophenols& 8t can also be produced as a byproduct in)ater disinfection and in pulp bleaching (ToFicological 3roNle for +hlorophenols $$$!& 8n thepresent )orG the degradation of 2#+3 as model compound )as studied and goethite ironoFyhydroFide )as used as a source&&&

• Centralised urban stormwater harvesting for potable reuse

P. M*Ardle, J. )leeson, %. a!!ond, E. eslop, . olden, ). Ku*'eraWater Science and Technology Jan 20, ' (! '#2*% DOI: 0&2'')st&20&00&&&in mainstream employment of these systems& @/ membranes are capable of remoing thema:ority of dissoled organic matter (/1!, )hile / is a destructie )ater treatment technologythat transforms biotoFic substances into )ater and carbon dioFide or harmless by-products (@ias et al& 200=!& Kurthermore, Snyder&&&



















• !mmonium nitrogen removal from wastewater with a three-dimensional electrochemical oxidation

system

Jing Ding, 5ing2+iang ;hao, +iang2+iang Wei, Yang Chen, 6in ShuWater Science and Technology ug 20, '= (! 552#55$% DOI: 0&2'')st&20&2'2

&&&)as a three#dimensional electrochemical oF Jing ing, Ying#Aiang \hao, Aiang#Aiang Wei, ang.ST@+T mmonium#containing )aste)ater could cause the promotion of euthe disinfection of )ater supplies& 8n this study, the feasibility of rem ammonium nitrogen fromsynthetic and real )aste)ater by electroc&&&

• Construction and operation costs of constructed wetlands treating wastewater

Di!i"ra )-i-a, )eorgios D. )i-as, &assilios A. %sihrin"'isWater Science and Technology Sep 20*, 70 (5! =0#=0% DOI: 0&2'')st&20*&2$*&&&treatment in small decentraliOed settlements, due to their lo) construction, operation andmaintenance costs, their easy adaptation to the enironment, and the limited generation of by-products method for DuicG prelimin 1T6@8AS > 16T8>T@/9+T8/>+onstruction andoperation costs of con treating )aste)ater&&&

• 8eyword 2ndex

Water Science and Technology 1ay $$, 2 (0#2! 2227#227% DOI:&&&pesticides *=7 /rthophosphate '2 /saGa >orth 3ort '$ /utlet pipe 7 /Fic, anaerobic,anoFic or aerated high K1 selectors =5 /Fidation by-products 2$ /Fidation pond 55, '$5/Fidation#reduction =7 /Fygen transfer eRciency 7=, $5 /Fygen transfer rate $*/Fygen uptaGe rate 057 /Oonation 2$&&&

•

Synthesis and photocatalytic actiity of boron#doped Ti/2 in aDueous suspensions under 9M#irradiation

(. P. 6e-ou-oulo"a-is, D. Man"'a,inos, . Diller" , D. Bahne!annWater Science and Technology 1ay 200, ' (0! 250#250'% DOI: 0&2'')st&200&50&&&9M# irradiation& + )as used as a model enironmental pollutant (.ahnemann et al& 2002!&+ is a )ater soluble organic pollutant, )hich is often found as a disinfection by-product formed during chlorination of )ater containing natural organic matter, such as humicsubstances& 8t is also found&&&

• Development and validation of a +=C-)(?)( method for studying the degradation 3inetics of

ofloxacin and trimethoprim during the application of solar Fenton process in secondary treated sewage

9. Mi*hael, E. apeshi, C. Mi*hael, D. 7a""a2KassinosWater Science and Technology ug 202, '' (7! 57*#5=% DOI: 0&2'')st&202&50&&& Technology H ''&7 H 202formation of by-products, p; changes, etc& When the linearapproach fails, other eDuations can be employed& modiNcation of the Nrst#order GineticeFpression (6Duation (2!! )as proposed and has been successfully used to eFplain thedegradation Ginetics of the compounds during&&&





















• !dvanced characteri5ation of algogenic organic matter# bacterial organic matter# humic acids and

fulvic acids

Kang!in Chon, Jaeweon Cho, o Kyong ShonWater Science and Technology 1ay 20, '7 (0! 222=#225% DOI: 0&2'')st&20&=

&&&od bu ion esin ur ./1 aris ab and Technology, S)itOerland ;o yong Shon School of +iil and6nironmental 6ngineering, Kaculty of 6ngineering and 8nformation Technology, 9niersity of Technology, Sydney (9TS!, associated )ith disinfectionbyproducts (.3s! (Aeenheer gro)th(Oam ) and it can...

• !naerobic co-digestion of sludge with other organic wastes and phosphorus reclamation in

wastewater treatment plants for biological nutrients removal

D. Bol'onella, P. Pa,an, P. Ba""is"oni, 7. Ce**hiWater Science and Technology Jun 200', 5 (2! 77#='% DOI: 0&2'')st&200'&*20&&&problems of energy balance, liDuid organic )astes such as dairy by-products and residualsfrom olie oil maGing factories are co#digested )ith WS& &. o lOo nella et al& 7= Struite

crystalliOation process The struite crystallisation process (S+3! )ithout addition of chemicals toblocG phosphorus&&&

• ilot study on control of phytoplan3ton by 5ooplan3ton coupling with filter-feeding fish in surface

water

ua Ma, 7uyi Cui, ;hi#uan +iu, ;hen#iang 7anWater Science and Technology Jul 200$, '0 (! 77#7*% DOI: 0&2'')st&200$&*7&&&)orGs& The direct algae#related problems in such )aters )ere unpleasant tastes, odors and hightreatment cost (;u +hiang $$'% Sugiura et al& $$=!& 8n addition, phytoplanGton and eFtra#cellular product could be potential trihalomethane (T;1! precursors of disinfection by-products (/lier Shindler&&&

• ! case study: bul3 organic matters and nitrogen removal from reclaimed water by enhanced direct

inEection-well groundwater recharge system

;hao 6uan, Cheng 6u'hou, ;hang MengWater Science and Technology Jul 200$, '0 (! 7*5#7*$% DOI: 0&2'')st&200$&*=&&&& 8t is being paid great attention by seeral municipalities as an alternatie ground)atersupplement& Kurther inestigation is being carried out )ith respect to the fate of endocrinedisruptors, antibiotics, disinfection by-products, other trace organics and pathogens, etc&@6K6@6>+6S mrhein, +&, lder, J& @&&&

• !n advanced oxidation process using ioni5ed gas for wastewater treatment

Eun Ju +ee, Paul )ene Chung, Dong eui Kwa- , +ee yung Ki!, Min Jeong Ki!Water Science and Technology Jul 200, '2 (2! *5#*5'% DOI: 0&2'')st&200&2'7&&&, & ildu?, J& 6& 2002 3robing reactiity of dissoled organic matter for disinfection by-production formation using P#= resin adsorption and ultraNltration fractionation& Water @es&', =*Z=*=& 1inistry of griculture and Korestry 2002 AiestocG data statistics& 3eurauori, J& 3hihla:a, &&&





















• Demonstrating ultra-filtration and reverse osmosis performance using si5e exclusion chromatography

. K. enderson, . M. S"ue"' , S. J. KhanWater Science and Technology ec 200, '2 (2! 27*7#275% DOI: 0&2'')st&200&*2&&&)ater, and (c! synthetic molecules including detergents, pharmaceuticals, and endocrinedisrupting compounds and disinfectionby-products (Shon et al& 200'!& The latter group in

particular are a potential health concern (;uerta#Kontela Mentura 200=! and residualconcentrations therefore need&&&

• )embranes coupled with physico chemical treatment in water reuse

W. S. )uo, . ;hang, S. &igneswaran, . . (go, J. Kandasa!y Water Science and Technology Jan 200, ' (2! 5#5$% DOI: 0&2'')st&200&=*&&&and disinfection by-products (.3s! remoal, LuF enhancement and fouling reduction, thusprolonging the continuous Nltration time (Aebeau et al& $$=!& /ne type of the hybrid systemGno)n as submerged membrane adsorption hybrid system (S1;S! integrates the entiretreatment actiity including adsorption&&&

• 2nfluence of surface chemistry and structure of activated carbon on adsorption of fulvic acids from

water solution

+. A. Sa,*hyna, 9. P. Ko'ya"ny- , %. &. Polia-o,a, (. A. Kly!en-oWater Science and Technology Jul 200$, '0 (2! **#**7% DOI: 0&2'')st&200$&**&&&implicates the formation of disinfection by-products such as trihalomethanes andhalogenacetic acids (Schmit Wells 2002!& The adsorption by actiated carbon is one ofpromising methods for )ater puriNcation in this case& Kulic acids contain fractions )ith ariousmolecular )eight and functional groups&&&

• Capillary nanofiltration coupled with powdered activated carbon adsorption for high quality water

reuse

C. Ka'ner , J. Meier , %. Win"gens, %. MelinWater Science and Technology Jul 200$, '0 (! 25#25$% DOI: 0&2'')st&200$&50&&&!& .esides high inestment costs, the 9K@/ process often demands the use of chlorinatedchemicals to suppress membrane fouling& Kurthermore economic treatment methods for the brinecontaining disinfection by-products and micropollutants are still reDuired& +apillarynanoNltration combines adantages from 9K&&&

• Characteri5ation of dissolved organic matter from !ustralian and Chinese source waters by combined

fractionation techniques

5unshan Wei, olando 7a$ris, Chris"opher W.K. Chow, Chang'hou Yan, Dongsheng Wang, Mary Dri-asWater Science and Technology Jul 20, '* (! 7#77% DOI: 0&2'')st&20&*2&&&of dissoled organicmatter for disinfection by-product formation using P#= resinadsorption and ultraNltration fractionation&Water @esearch ' (5!, =*Z=*=& Aeenheer, J& & omprehensive approach to preparative isolation and fractionation of dissolved organicFcarbon from natural...

•



















@ecent operational eFperiences of K8A1T6+ >K270 membrane in 6urope

Ka"ariina Ma1a!aa, Jus"yna War*'o- , Mar""i +eh"inenWater Science and Technology Jul 20, '* (! 22=#22% DOI: 0&2'')st&20&5=&&&is chlorinated prior to discharge to the distribution line and the treatment goal is to remoe T;1 precursors in order to reduce the formation of disinfection byproducts& The feed)ater

total organic carbon (T/+! concentration is at the leel of * mgA in the >K feed)ater and al)aysbelo) 0&* mgA in the permeate&&&

•

6aluating ;enrys la) constant of (#>itrosodimethylamine (>1!

Shinsu-e aru"a, Wen"ao Jiao, Weiping Chen, Andrew C. Chang, Jay )anWater Science and Technology /ct 20, '* (=! ''#'*% DOI: 0&2'')st&20&7*2&&&3rogramme on + &* 0]2% as the ;0 of >higher than the 0 ngA notiNcation leel andhigher than the 00 ngA response leel set by the +alifornia epartment of ;ealth Serices(+;S ).BFBitrosodimethylamine 0B14) is a member of the carcinogen family, the >#nitrosamines,and is a disinfection&&&

• "nhancement of microbubble generation in a pressuri5ed dissolution process by pac3ing the no55le

with porous ceramics

iroshi Ya!ashi"a, ide-i Aoyagi, isa"o MinagawaWater Science and Technology ec 20, '5 (! '$#75% DOI: 0&2'')st&20&=0&&&generation )ith porous ceramics Water Science Technology H '5& H 202+haracteristic of theporous ceramics The porous ceramics used in this study )ere produced by +lay#burn Technology@esearch +orporation (Tochigi, Japan!& This foam ceramic )as made from slag, bentonites andother plastic clay by-products&&&

• 2nfrastructure optimisation via )*R retrofit: a design guide

W. K. BaggWater Science and Technology Jan 200$, 5$ (2! 2#0% DOI: 0&2'')st&200$&=50&&&, or permeate, is of such high Duality that it can really be considered as a recoerable resource,rather than :ust a disposable )aste)ater treatment by-product& These are ery strong reasonsfor considering 1.@ as a possible upgrade option doiB 0&2'')st&200$&=50 2 Y 8W3ublishing 200$ Water Science&&&

• %he effect of hydrodynamic flow regimes on the algal bloom in a monomictic reservoir

Se2Woong Chung, eungsoo +ee, Yongro*- JungWater Science and Technology /ct 200=, 5= ('! 2$#2$=% DOI: 0&2'')st&200=&*=2&&&to continuous loads of allochthonous nutrients from the upstream )atershed& Serious algalblooms )ere obsered during summer months periodically, increasing the concern oer thee?ectieness of the )ater treatment system and outbreaG of disinfection by-products& Sincemore than $0 of the allochthonous&&&

• !cid pre-treatment of sewage anaerobic sludge to increase hydrogen producing bacteria *:

effectiveness and reproducibility























%. %o!!asi, ). Sassi, B. uggeriWater Science and Technology /ct 200=, 5= (=! '2#'2=% DOI: 0&2'')st&200=&50'&&&because it satisNes three main conditionsB lo) impact on the enironment (;2/ as by-product after use! it can be obtained from arious sources ()ater, organic matter, organicrefuses! surplus canbe storedandused in theproper time (e&g&)hen the amount of electric po)erreDuested is ery high&&&

• =ong-term hydrolytic capacity evaluation of a thermophilic anaerobic digester treating sewage sludge

Andres Donoso2Bra,o, Sara P4re'2El,ira, Alain &ande Wouwer , 7ernando 7d'2Polan*oWater Science and Technology /ct 202, '' (! 27=#2=*% DOI: 0&2'')st&202&*0=&&&& ; olonella et conditions increase the p disinfection reDuirements as the main cost#beneNt acess oer the mesophilicj1 maFimum speciNc gro)th rate of the acidogens (d ! S afNnityconstant of the acidogens (g A ! j21 maFimum speciNc gro)th rate of the methanogens2 Ssoluble organic matter (g A ! S2&&&

• 6xidation of bisphenol ! by permanganate: reaction 3inetics and removal of estrogenic activity

Jing1ing Yang, )ang Wen, Ji ;hao, 6iaoling Shao, Jun MaWater Science and Technology pr 20, '7 (=! ='7#=72% DOI: 0&2'')st&20&0'=&&&, but also can ecursors of disinfection byprohen eh ; (aldemer & any researches haefocused nate to remoe emerging pollu(;u et al& ) and toxins 0CodrTgue et al. ). 'nvestiof

phenolic compounds by that permanganate is a good water 0-iang et al. ). Howbetween different * species ar

yet...

•

+atalytic oOonation of p#chloronitrobenOene oer pumice#supported Oinc oFyhydroFide

+ei Yuan, Ji!in Shen, ;honglin Chen

Water Science and Technology >o 20, '= (=! =$5#$00% DOI: 0&2'')st&20&**$&&&of Science is greatly appreciated& )ater& pplied +atalysis .B 6nironmental *7 (2!, 0Z0$&aplan .eGaroglu, S& S&, igit, >& /&, aranNl, T& itis, 1& $++ D. Ruan et al. K atalytic oonation

of pB over >nHFpumice (ater Science & 8echnology H '=&= H 20The adsorptie remoalof disinfection&&&

• %uning the performance of a natural treatment process using metagenomics for improved trace

organic chemical attenuation

J. E. Drewes, D. +i, J. egnery , M. Alidina, A. Wing, C. oppe2JonesWater Science and Technology Keb 20*, '$ (! '2=#'% DOI: 0&2'')st&20&750&&&or emerging disinfection by-products, can 16T;/S +ontrolled laboratory#sc receied feed)aters that composition of /+ (iof a lo)#energy demand, no input of chemicals or residualgeneration& The Gey disadantages, ho)eer, are their large physical footprint and lacG of adetailed process under#recharge&&&

• Fate of organic pollutants in a pilot-scale membrane bioreactor-nanofiltration membrane system at

high water yield in antibiotic wastewater treatment

Jian:ing Wang, Yuansong Wei, Kun +i, Yu"ao Cheng, Mingyue +i, Jianguo 6u



















Water Science and Technology Keb 20*, '$ (*! =7'#==% DOI: 0&2'')st&20&7=$&&&, and soluble microbial byproduct#s mentioned aboe, most of the organic pollutants (+/, T/+ and antibiotics! could be remoed through recycling the >K concentrate in the 1.@ in thispilot system% only a small part )as discharged )ith the >K concentrate and permeate ()ateryield of $0!& These results clearly&&&

• 65one pretreatment of olive mill wastewaters $6),' and its effect on 6), biochemical methane

potential $*)'

E. %sin"a,i, (. Pon"illo, M. A. Dareio"i, M. KornarosWater Science and Technology ec 20, '= (2! 272#277% DOI: 0&2'')st&20&5'0&&&suitable, in )hich operate one treatment before proposed process for treatment contentbecause of its obious8>T@/9+T8/> The liDuid by-products of olie oil production using thethree# process, in the aim to/Oone pretreatment of olie mill )aste and its e?ect on /1Wbiochemical met potential (.13! 6&&&

• "ffects of the functional groups attached to aromatic organic compounds on their adsorption onto

preloaded activated carbon

+u ;haoyang, Jiang Bi*un, +i Ai!inWater Science and Technology ug 202, '' (=! 7$$#=05% DOI: 0&2'')st&202&*$&&&& Journal of the merican +hemical Society 7, 7Z=0& .ond, T&, ;enriet, /&, <oslan, 6& ;&,3arsons, S& & Je?erson, .& Disinfection byproduct formation and fractionationbehaior of natural organic matter surrogates& 6nironmental Science and Technology * (5!,5$=2Z5$=$&+arter, 1& +& Weber, W&&&

• 2ntegrated coagulation-tric3ling filter9ultrafiltration processes for domestic wastewater treatment

and reclamation

5ing2+iang ;hao, ui2Yuan ;hong, Jin2+i +iu, Yu +iuWater Science and Technology pr 202, '5 ($! 5$$#'05% DOI: 0&2'')st&202&05&&&, disinfection and crop productiities& Water Science and Technology 57 ('!,further polished by TK, and the product )ater had a +/ of less than 0 mgA, >;* #>_ = mgA and undetectable T3, )hich had met the +hina )aste)ater discharge standards& This study clearly sho)ed that theproposed +63TZTKZ 9K system&&&

• !pplication of the "DD flow detector for analysis of natural dissolved organic substances in coloured

water

B. +i$e*-i, S. Kalinows-iWater Science and Technology Jul 20, '= (! 2$#5% DOI: 0&2'')st&20&202&&&matter and its impact on coagulation in )ater treatment& Sci& Total 6niron& ', =Z$*&Singer, 3& +& Humic substances as precursors for potentially harmful disinfection by-products&Water Sci& Technol& *0 ($!, 25Z0& Standley, A& J& aplan, A& & 'solation and analysis of

ligninderived...

•



















6aluation of the after#e?ects of cyanobacterial cell remoal and lysis by photocatalysis using

gg.rTi/2

(an Shen, 7ang ;hang, 7eng ;hang, ay!ond J. ;engWater Science and Technology Sep 20*, 70 (5! =2=#=*% DOI: 0&2'')st&20*&2=7&&&& Wang, A& S& b iogas production and microcystin biodegradation in anaerobic digestion of blue algae.

?nergy ?nviron. Sci. A 0A), %@%%. >amyadi, ., Ho, D., Bewcombe, !., ustamante, H. & *revost, 4. Late

of toxic cyanobacterial cells and disinfection byproducts formation after&&&

• "ffect of p on phosphorus# copper# and 5inc elution from swine wastewater activated sludge

Miyo-o Wa-i, %o!o-o Yasuda, Yasuyu-i 7u-u!o"o, Ka'uyoshi Su'u-iWater Science and Technology ug 20*, 70 (*! 5$#5$=% DOI: 0&2'')st&20*&27*&&&performances& Trans& S6 *7 (!, =57Z='*& .olan, >& S&, driano, & +& 1ahimaira:a, S&

1istribution and bioavailability of trace elements in livestoc3 and poultry manure by-products& +rit& @e&6niron& Sci& Technol& * (!, 2$Z=& .ortone, <&, <emelli, S&, @ambaldi, & Tilche, &

Bitri2cation...

• erformance of anaerobic sequencing batch reactor in the treatment of pharmaceutical wastewater

containing erythromycin and sulfamethoxa5ole mixture

S. Aydin, B. 9n*e, ;. Ce"e*ioglu, E. ). O'$ayra!, A. Shahi, O. O-ay , O. Ari-an, O. 9n*eWater Science and Technology >o 20*, 70 (0! '25#'2% DOI: 0&2'')st&20*&*=&&&and control the )aste)ater that is produced as a byproduct of pharmaceutical manufacturingtechniDuesB aerobic and anaerobic (min et al& ; ; etecioglu et al. ; 1orivale activated sludge

treatment has ater, this process is unsuitable in emical oxygen demand 01) ed ,%++ mg/D 0helliapan et al...

• "ffects of exposure times on the toxic response of ammonia oxidi5ing mixed culture $!6)C' to

phenol and chlorinated phenols

J. %an"asu" , . Sa"oh, P. Par-pian, S. Mong-olsu- Water Science and Technology ec 200', 5* (#2! 2=#2==% DOI: 0&2'')st&200'&7*&&&phenols% nitriNers% oFygen utiliOation rate% phenol% phenolic compounds 8ntroduction 3henol andchlorinated phenols are discharged to the enironment in the )aste streams of seeral industrialoperations, through its use as biocides, or as by-products of other industrial operations, such aspulp&&&

• Differentiation of wastewater effluent organic matter $"f6)' from natural organic matter $N6)'

using multiple analytical techniques

Seong2(a! (a!, )ary A!y Water Science and Technology pr 200=, 57 (7! 00$#05% DOI: 0&2'')st&200=&'5&&&, and functionality of natural organic matter (>/1! in drinGing )ater sources as )ell asdocumented )ater Duality problems associated )ith >/1 including color, taste andodor, disinfection by-product (.3! formation potential, etc& Within the urban )ater cycle,refractory >/1 components such as humic substances&&&

• ! methodology for identifying vulnerable locations to taste and odour problems in a drin3ing water

system


























7. Proul: , M.J. odrigue' , J. S4rodes, C. Bou*hardWater Science and Technology 1ar 2007, 55 (5! 77#=% DOI: 0&2'')st&2007&77&&&& and ;oman, 1& ($$$!& Klaor proNle analysis and <+1S detection of phenoliciodinated disinfection byproducts in drinGing )ater for the 9S space program& Wat& Sci& Tech&,*0('!, *5Z5& hiari, &, .arrett, S&, +hinn, @&, .ruchet, &, 3iriou, 3&, 1atia, A& et al& (2002!&istribution <enerated Taste#and&&&

• !eration effect on the efficiency of swine manure treatment in a tric3ling filter pac3ed with organic

materials

M.A. )ar'n2;Iñiga, P. +essard, ). Au$ry , ). BuelnaWater Science and Technology 1ay 2007, 55 (0! 5#*% DOI: 0&2'')st&2007&'&&&porosity (approFimately $0!, high sorption capacity, high speciNc area (q200m2m! foradhesion of microorganisms and for itsdisinfecting capacity (+ouillard, $$*% Aens et al&, $$*!& The bioNltration system using peat )ithout forced aeration (passie bioNltration! has proed to beeRcient&&&

• 6ptimal performance of an immersed membrane bioreactor equipped with a draft tube for domestic

wastewater reclamation

7. Yang, A. Bi*- , S. Shandalo, , ). OronWater Science and Technology >o 200', 5* (0! 55#'2% DOI: 0&2'')st&200'&=77&&&(Stephenson et al&, 2000!& +omplete remoal of suspended solids and fecal coliforms )ereobtained sub:ect to nominal pore siOe of 0&0*mm (data not sho)n!& The results indicate that nofurther disinfection of the treated )aste)ater is reDuired before disposal or reuse& +onclusionsSeeral conclusions can&&&

• "fficacy of constructed wetlands to mitigate non-point source pollution from irrigation tailwaters in

the (an @oaquin &alley# California# +(!

A.%. OQ)een, J.J. Maynard, .A. DahlgrenWater Science and Technology Keb 2007, 55 (! 55#'% DOI: 0&2'')st&2007&072&&&! in the San JoaDuinZSacramento @ier elta is a )ater Duality concern because of theproduction of mutagenic and carcinogenic disinfection by-products during )ater treatment& 8naddition, these components contribute to biological oFygen demand (./! in )etland drainage)aters and could add to the ./ load&&&

• Characteri5ation of micro-flocs of N6) coagulated by !Cl# alum and polysilicate-iron in terms of

molecular weight and floc si5e

+i 7usheng, Yuasa A-ira, Ando Yu-aWater Science and Technology Jan 200=, 57 (! =#$0% DOI: 0&2'')st&200=&775&&&is the predominant organic matriF present in most natural rier and laGe )ater systems& >/1 isgetting increasingly concerned in light of its high potential in formingcarcinogenic disinfection byproducts& 6nhanced remoal of >/1 is eFpected also becauseeen if not targeted for remoal, its constituents can&&&

• Comparing sludge production under aerobic and anoxic conditions

John B. Copp, Pe"er +. Dold





















Water Science and Technology Jul $$=, = (! 2=5#2$*% DOI:&&&principal sourcesB <, S, and @/& The < source is conentionally treated ground)ater (i&e&aeration! that the T.W distribution systems had receied for decades& The S representsenhanced surface )ater treatment consisting of ferric sulfate coagulation, Locculation, settling,Nltration, disinfection&&&

• 2nfluence of oxygen limitation on the cell surface properties of bacteria from activated sludge

. Pal!gren, 7. Jorand, P. . (ielsen, J. C. Blo*- Water Science and Technology Keb $$=, 7 (*#5! *$#52% DOI:&&&, but )ith the dra)bacG that such processes generate disinfection by-products ia thereaction of chlorine )ith natural organic matter (>/1! (udley, $$=!& ;ybrid processes thatcombine membranes )ith other physicochemical methods hae been proposed to oercomesome of the problems listed aboe& Kor eFample&&&

• Development of a noncontact liquid level measuring system using image processing

Yoi*hi %a-agi, A-io %su1i-awa, Masao %a-a"o, %a-eshi Sai"o, Mo"o-o Kaida

Water Science and Technology Jun $$=, 7 (2! =#=7% DOI:&&&, &, my, <&, re)es, J&6&, ;eberer, T&, im, T&9& and Watanabe, & (200!& @e:ection of organicmicropollutants (disinfectionby-products, endocrine disrupting compounds, andpharmaceutically actie compounds! by >K@/ membranes& Journal of 1embrane Science, 227,Z2& Aee, S&&, +hoo, &;&, Aee&&&

• "ffect of addition of anaerobic fermented 6F)(, $organic fraction of municipal solid waste' on

biological nutrient removal $*NR' process: preliminary results

P. Pa,an, P. Ba""is"oni, P. %ra,erso, A. Musa**o, 7. Ce**hiWater Science and Technology Jul $$=, = (! 27#*% DOI:&&&their )astes directly to the close surrounding, creating enironmental problems& s result of the

multiple actiities carried out during the manufacturing process of dairy products (i&e&pasteuriOation, cleaning, and disinfection of the milGing sheds and other facilities!, dairy)aste)ater usually contains&&&

• >roundwater *iodenitrification on (and Fixed Film Reactor +sing (ugars as 6rganic Carbon (ource

C. (uri''o, &. Me''ano""eWater Science and Technology ug $$2, 2' (#*! =27#=*% DOI:&&&and nitrogen stripping tanG (Ma = m! and a sand Nlter ( essel diameter eU . m, bed height

heU ." m, sU ." mm) that was operated with a flowrate up to I.% m#/h 0 excess flowrate was byFpassed); Section "

was intended for polishing of denitrified )ater ( residual nitrites oFidation, disinfection&&&

•

etermining the fate of Mi*ro*ys"is aeruginosa cells and microcystin toFins follo)ing

chloramination

+ionel o, (awal Kayal, ino %rolio, )ayle (ew*o!$eWater Science and Technology Jul 200, '2 (2! **2#*50% DOI: 0&2'')st&200&**=&&&eFhibit greater reactiity )ith oFidants than 1+A@ (;ureiGi et al& $$*% ;o et al& 200'!& Thereactiity of this type of organic material )ith chlorine#based oFidants is also demonstrated



















through its ability to form signiNcant concentrations of disinfection by-products (3lummer 6dO)ald 200% >guyen et&&&

• +se of Constructed ,etlands to %reat Domestic ,astewater# City of !rcata# California

. A. )earhear" Water Science and Technology /ct $$2, 2' (7#=! '25#'7% DOI:&&&treatment (oFidation ponds! Treament marshes ( in parallel! 3lant coerage 6Quent receiingmarshes ( in series! 3lant coerage Disinfection 5,00025,000 7& 25= 20 meters indiameter ;eated digestorco#generation 22a 2&= ;a $0 2 ;a 20#*0+hlorinationdechlorination #########" ###Surface Klo)&&&

• eterogeneous photodegradation of methylene blue with iron and tea or coffee polyphenols in

aqueous solutions

Claudio Kendi Mori-awa, Ma-o"o ShinoharaWater Science and Technology Jan 20', DOI: 0&2'')st&20'&02

&&&deeloped could be used as a Ke fertiliOer in agriculture (1oriGa)a Saigusa

,

)and in the Lenton process to degrade pollutants or disinfect pathogens, such as 6scherichia coli (1oriGa)a ). 8he enhancement of 4 photodegradation by tea and co?ee polyphenols is interesting from the

point&&&

• erspectives on modelling micropollutants in wastewater treatment plants

+udiwine Clou'o" , Jean2Mar* Chou$er" , 7r4d4ri* Clou"ier , a1ee, )oel, (an*y). +o,e, enry- Mel*er , Chris"oph Or" , Do!ini#uePa"ureau, Benede-). Pls' , Ma:i!e Po!is, Pe"er A. &anrolleghe!Water Science and Technology Jul 20, '= (2! **=#*'% DOI: 0&2'')st&20&272&&&in stabiliOation ponds (solar radiation! (e&g&, 1oreno et al& ) and in treatment units that employ

ultraviolet 0<=)disinfection (3ereiraWWT3s, )hich can be highly dynamic (/rt et al& a). 8o

reduce costs when collecting data, some researchers are proposing the use of surrogates that sere torepresent&&&

• Removal of pharmaceutical residue in municipal wastewater by D!F $dissolved air flotation'9)*R

$membrane bioreactor' and o5one oxidation

Miyoung Choi, Dong Whan Choi, Jung Yeol +ee, Young Su- Ki!, Bun Su Ki!, Byoung o +eeWater Science and Technology /ct 202, '' (2! 25*'#2555% DOI: 0&2'')st&202&*2$&&&micropollutants (disinfection by-products, endocrine disrupting compounds, andpharmaceutically actie compounds! by >K@/ membranes& Journal of 1embrane Science 227,Z2& imura, &, 8)ase, T&, ita, S& Watanabe, & 'n9uence of residual organic

macromolecules produced in biological waste)ater&&&

• 6n-site evaluation of the removal of .HH micro-pollutants through advanced wastewater treatment

processes for reuse applications

S. Mar"in uel, J. M. Chou$er" , M. Esperan'a, C. Mige, P. (a,aln Madrigal, . Bud'ins-i, K. +eM4na*h, &. +a'aro,a, M. Co#uery Water Science and Technology Jun 20, ' (! 2*='#2*$7% DOI: 0&2'')st&20&*70



















&&&& H /n#site ealuation of the remoal of 00 micro#pollutants for reuse applications WaterScience Technology H '& H 20is the less eFpensie technology but the fate and toFicityof by-products still remains an issue to be inestigated& ctiated carbon Nltration appears asan interesting&&&

•

.iodegradation of 2,*#dichlorophenol in a LuidiOed bed reactor )ith immobiliOedPhanero*hae"e

*hrysosporiu!

6iao2!ing +i, 5i Yang, Ying ;hang, Wei ;heng, 6iu Yue, Dong2$o Wang, )uang2!ing ;engWater Science and Technology ug 200, '2 (*! $*7#$55% DOI: 0&2'')st&200&20&&&used for the production of germicides and soil steriliOants and also in the manufacture ofmethylated chlorophenols, that are used in antiseptics and disinfectants (Mroumsia et al& 2005!&.ecause of this great ubiDuity, 2,*#+3, )as rated as a priority pollutant by the 9S 6nironmental3rotection&&&

•

3reparation and characteriOation of fouling#resistant photocatalytic metal membrane embedded

)ith self#organiOed Ti/2 nano tube

Won2Youl Choi, (o2Su- Par- , Mar- . Wiesner , Jong2Oh Ki!Water Science and Technology ug 200, '2 (*! $'#$7% DOI: 0&2'')st&200&0''&&&in producing high#aspect#ratio nanotubes in aDueous electrolyte& 3recipitation by-product )asobsered, possibly resulting from bad di?usion out of the titanium etched portion on the top ofnanotube& The K6#S61 images of nanotubes as a function of anodic potential oer the range of 20to 0M are presented&&&

• esticide inputs from the sewage treatment plant of !grinio to River !cheloos# western >reece:

occurrence and removal

(. S"a!a"is, D. ela, 9. Kons"an"inouWater Science and Technology Sep 200, '2 (5! 0$=#05% DOI: 0&2'')st&200&$2&&&, pirimiphos etc!& Ke) studies )ere focused on the chlorination of organophosphorus pesticidessuch as chlorpyriphos, diaOinon, chlorfeniphos (cero et al& 200=!& /Fon deriaties (i&ediaOoFon, chlorpyriphos oFon, are the main degradation by-productsreported& higher reactiityof chlorine&&&

• Degradation of water polluted with used coo3ing oil by solar photolysis# Fenton and solar photo

Fenton

J. &ergara2S3n*he' , S. Sil,a2Mar"<ne' Water Science and Technology Jul 200, '2 (! 77#=*% DOI: 0&2'')st&200&252&&& (eFcess of Ke(88!! play a scaenger e?ect for hydroFyl radicals leading to a decrease of theprocess eRciency, )hich may eFplain the former behaior& 8n the case of ;2/2 additions,perhaps the more stable lo) molecular )eight Nnal by-productsslo)ed do)n reductions in +/(\aror et al& 200=&&&






















• (creening of pharmaceuticals and endocrine disrupting compounds in water supplies of Cyprus

Kons"an"inos C. Ma-ris, Shane A. Snyder Water Science and Technology ec 200, '2 (! 2720#272=% DOI: 0&2'')st&200&5*$&&&monitoring measurements of +ypriot regulatory agencies responsible for the protection offresh)ater supplies& +ertain organophosphates, 3+.s, organochlorines, disinfection by-products, phthalates, 3;s, M/+s, triaOines, and other pesticides, including alachlor and atraOineare routinely monitored&&&

• Removal of micropollutants in ,,% effluent by biological assisted membrane carbon filtration

$*io)!C'

M. Wee!aes, ). 7in- , C. +a*h!und, A. Magde$urg, D. S"al"er , C. %hoeye, ). De )ueldre, B. &anDe S"eeneWater Science and Technology Jan 20, ' (! 72#7$% DOI: 0&2'')st&20&0&&&of micropollutants to the enironment& /Oonation has the additional adantage of achieingpartial disinfection (Joss et al& 200=!& ;o)eer, there is some concern on the formation of by-products and their ecotoFicity formed during oOonation (Stalter et al& 200a!& This studypresents the results of adanced eQuent&&&

• 6ptimi5ation of FentonBs reagent coupled to Dissolved !ir Flotation to remove cyanobacterial odorous

metabolites and suspended solids from raw surface water

Jorge A. El<as2Ma:il, 7o"is igas, Mar<a %eresa Or"a de &el3s#ue' , osa2Mar<a a!<re'2;a!oraWater Science and Technology /ct 20, '* (=! ''=#'7*% DOI: 0&2'')st&20&52=&&&Z=*& +olliignarelli, +& Sorlini, S& *s with oone and <= radiation in drin3ing waterG

ontaminants removal and effects on disinfection byproducts formation& Water Science and Technology *$ (*!, 5Z5'& +ooG, &, >e)combe, <& SOta:nboG, 3& 8he application of powdered

activated carbon for mib and geosmin...

• 6ptimi5ing the coagulation process in a drin3ing water treatment plant 9 comparison between

traditional and statistical experimental design Ear tests

M. ;ainal2A$ideen, A. Aris, 7. Yuso8 , ;. A$dul2Ma1id, A. Sela!a" , S. 9. O!ar Water Science and Technology Jan 202, '5 (! *$'#50% DOI: 0&2'')st&202&5'&&&the coagulants and coagulant aid dosages, initial p; setting, Nnal turbidity, settling p; aftercoagulation process and residual aluminium& s the control of disinfection by-products is not aproblem at this WT3, >/1 parameters )ere not included in this inestigation& 1T6@8AS >16T;/S Sri#<ading WT3 Sri&&&

• "cofriendly approach for detection of phenols in water using laccase from different fungi

Ma'aahir Kidwai, Ar"i Jain, A$ha Shar!a, a!esh Chander KuhadWater Science and Technology Jun 202, '' (2! =5#$% DOI: 0&2'')st&202&$=&&&of curbing them@esearch e?orts are increasingly being directed to)ards the search for noelmethods to estimate theof industrial sources, e&g& during the manufacturing of dyes, papers,plastics, drugs and antioFidants& 1oreoer, phenol itself is used as adisinfectant& .eing )atersoluble and haing&&&

• )odeling N6) removal by softening in a surface water treatment plant





















JoNo M. +. Dias, ui Oli,eira, Mi*hael Se!!ensWater Science and Technology Keb 20, '7 (5! 00=#0'% DOI: 0&2'')st&20&'2&&&for control of tastes, odors and disinfection byproducts, and to aoid membrane fouling& 8nthis paper )e eFplore chemical dosage and )ater Duality data collected by the city of1inneapolis oer a year period to determine if )e can identify relationships )hich describe>/1 remoal performance and also&&&

• ,or3ing with energy and mass balances: a conceptual framewor3 to understand the limits of

municipal wastewater treatment J. M. )arrido, M. 7d'2Polan*o, 7. 7d'2Polan*oWater Science and Technology 1ay 20, '7 (0! 22$*#20% DOI: 0&2'')st&20&2*&&&)ith tertiary ultraiolet disinfection increases (Kenu et al& ; 4aere et al. ).

thermodynamic point of view, ater can be considered not as an rgy sourceN. ll the organic comwastewater contain energy

stored within their chemical bonds. However, recovery of most of ""$A '( *ublishing 20 Water&&&

•

9MTi/2 photocatalytic oFidation of recalcitrant organic matterB e?ect of salinity and p;

Sho$ha Mu"hu-u!aran, +ili Song, Bo ;hu, Darli Mya" , Jin2Yuan Chen, S"ephen )ray , Mi-el Du-eWater Science and Technology ug 20*, 70 (! *7#**% DOI: 0&2'')st&20*&22&&&The presence of humic acid (;! has receied attention in )ater treatment research as itforms disinfection by-products(.3s! as a result of chlorination procedures& 8n addition, ;sare considered as a refractory organic pollutant due to their non#biodegradability, )ater#solubleformation and a )ide range&&&

• Fate of effluent organic matter $"f6)' and natural organic matter $N6)' through riverban3 filtration

S. K. Maeng, S. K. Shar!a, A. Magi*2Kne'e, , ). A!y

Water Science and Technology Jun 200=, 57 (2! $$$#2007% DOI: 0&2'')st&200=&'&&&slo)er than simple substrates (.arGer StucGey $$$!& 6f/1 also consists of humic substances)hich are deried from the drinGing )ater sources and sere as a precursor to disinfection by-product (.3s! )hile S13 (proteins! in 6f/1 represent a precursor to nitrogenous .3s (>#.3s!(my re)s 2007&&&

• %reatment of hydraulic fracturing wastewater by wet air oxidation

Wei Wang, 6iuyi Yan, Jinghui ;hou, Jiuli MaWater Science and Technology >o 205, DOI: 0&2'')st&205&57$&&&challenges associated )ith the production of shale gas by hydraulic fracturing& 6lements 7 (!,=Z='& ;ladiG, 1& A&, KocaOio, 1& J& 6ngle, 1& 1ischarges of produced waters from oil and gas

extraction via wastewater treatment plants are sources of disinfection by-products to receiing streams&&&

• ,astewater management in the Danube *asin

M. ;essner , . 7en' , . KroissWater Science and Technology ec $$=, = (! *#*$% DOI:&&&in the leachate, anaerobic treatment alone )as not suRcient& The anaerobic eQuent )asfurther treated in this study )ith a modiNed oOonation process& /Oonation is a )idely acceptedtechnology used for the Nnal disinfection of )ater and )aste)ater& 8n recent years, it has alsobeen increasingly used&&&

















•

dsorption and degradation of synthetic dyes on the mycelium of %ra!e"es ,ersi*olor

Yu:in Wang, Jian Yu

Water Science and Technology ug $$=, = (*#5! 2#2=% DOI:&&&! absorbance )as measured )ith a ShimadOu 9M#2500 9MMis& spectrometer at 25* nm using aDuartO cell )ith a #cm path length& 9M absorbance at 25* nm has been used e?ectiely todetermine concentrations of organic carbon in drinGing )ater supplies for the purpose ofmonitoring .3s (Disinfection By-Products&&&

• Coagulation of N6): lin3ing character to treatment

E.+. Sharp, S.A. Parson, B. JeersonWater Science and Technology pr 200', 5 (7! '7#7'% DOI: 0&2'')st&200'&20$&&&, +&J&, .ruchet, & and iGen, <& (2000!& +omprehensie isolation of natural organic matter forspectral characteriOation and reactiity testing& >atural /rganic 1atter and Disinfection By-Products, .arrett, S&, rasner, S&W& and my, <&A& (eds!, merican +hemical Society SymposiumSeries 7'&&&

• Flux-step method for the assessment of operational conditions in a submerged membrane bioreactor

E'io anieri, &i"o )oredo, Maria*hiara Ca!panella, Mi*hael W. 7al- Water Science and Technology Keb 20', DOI: 0&2'')st&20'&07&&&& ; Stephenson et al. ). 8his combination leads to many advantages, 0ernhard et al. ) so r

of disinfectionby-product /ne of the most imp system is the deposition o brane surfaces(abiotic amount of these foulant d LuF (<uglielmi et al& increase in hydraulic resi ate LuF duringa const suction&&&

•

2nvestigation of the effects of temperature and sludge characteristics on odors and &6C emissions

during the drying process of sewage sludge

Wen1ie Ding, +in +i, Jun:in +iuWater Science and Technology ug 205, 72 (*! 5*#552% DOI: 0&2'')st&205&2*'&&&mgg, respectiely& /ne Duarter of the )aste)ater treated in P;3 )as industrial )aste)ater,)hich might lead to the di?erence in olatile composition and +/ bet)een the t)o sludgesamples& The p; alues in the t)o sludge samples )ere almost neutral& s a by-product of)aste)ater treatment&&&

• Catalytic o5onation of bisphenol ! in aqueous solution using )n-Ce?()-J as catalyst

Yan8ang +iu, Junna ;hao, ;ai:ing +i, )ui:ia +i, Wei +i, 6iang )aoWater Science and Technology Sep 205, 72 (5! '$'#70% DOI: 0&2'')st&205&25=&&&good treatment e?ects for .3& The application of oOone is being studied increasingly sinceoOone is one of the most actie oFidants aailable both in drinGing )ater disinfection iccontaminants in )aste)ater& ps hae )orGed on .3 remoal atsumoto ; <mar et al.

). oone is relatively low...

•
















3hotocatalytic remoal of 2#nitrophenol using siler and sulfur co#doped Ti/2 under natural solar

light

Mehr'ad 7eili'adeh, A!in Delparish, S. %ough Bararpour , a!ed A$edini(a1a8a$adi, S. Moha!!ad Es!aeil ;a-eri, Manou*hehr&ossoughiWater Science and Technology ug 205, 72 (! $#*'% DOI: 0&2'')st&205&=0&&&eery)here in the )orld (Tong et al& ). (hile water puri2cation lac3s a single technology capable of

removing all the chemical and biological contaminants without leaving any harmful byproducts, photocatalysis isconsidered as a suitable alternatie (;ameed et al& ). very few studies have b...

• 6rganic and metallic pollutants in water treatment and natural wetlands: a review

K. aars"ad, . J. Ba,or , %. MRhlu!Water Science and Technology ec 20, '5 (! 7'#$$% DOI: 0&2'')st&20&=&&&( ) Disinfectant byproducts, T/P, T;1, ;, /+ large +W, 9S 75Z200 @ed& B Total org& halideB Z55, tri#halomethanB 7=Z$7, haloacetic acidB '7Z$'& lso )etland increasepot&.3 @ostad et al& ( ) 1iesel fuel, *b *eat columns, <S " ppm *b Q$I ppm 1C *b mobile 1iesel only

mobile along bedding eiss et al&&&

• D6C and +&! attenuation with soil aquifer treatment in the saturated 5one of an artificial coastal

sandfill

+loyd . C. Chua, Ed!ond Y. M. +o, Eng Ban Shuy , Ale:ander P. o$er"son, %ei- %hye +i!, SoonKea" %anWater Science and Technology ug 200, '2 (! *$#500% DOI: 0&2'')st&200&0=7&&&sandNll& /+ in treated )aste)ater is a bulG measure of dissoled organic matter includinghumic substances, proteins, carbohydrates and amino acids& These parameters also gie anindication of dissoled organics that may potentially formdisinfection by-products (.3s! suchas trihalomethanes&&&

•

Ti/2#assisted photocatalytic degradation of humic acidsB e?ect of copper ions

C. S. /yguner , M. Be-$ole" Water Science and Technology 1ay 200, ' (0! 25=#25$0% DOI: 0&2'')st&200&7*&&&on the photocatalytic degradation of humic substances of arious origins& esalination 7','7Z7'& 9yguner, +& S& .eGbolet, 1& 2007a reie) on the photocatalytic degradation ofhumic substances& 8nB >iGolau, &, SelcuG, ;& @iOOo, A& (eds! +ontrol of Disinfection By-Products in rinGing Water Systems& >/M&&&

• (orption behavior of a synthetic antioxidant# polycyclic mus3# and an organophosphate insecticide in

wastewater sludge

S. M. %ho!as, A. A. Bodour , K. E. Murray , E. C. 9nnissWater Science and Technology Jul 200$, '0 (! *5#5*% DOI: 0&2'')st&200$&2=*&&&!& 6+s can be naturally occurring or man#made and constitute a )ide ariety of commoditiesused for household, industrial, and agricultural purposes (ettrup .arceloU 200*!&3harmaceuticals and personal care products (33+3s!, endocrine disrupting compounds (6+s!,pesticides, disinfection by-products&&&























•

1odiNed ferron assay for speciation characteriOation of hydrolyOed l(888!B a precise - alue based

:udgment

Ye Chang#ing, Wang Dongsheng, Wu 6iaohong, 5u Jiuhui, John )regory Water Science and Technology Keb 200$, 5$ (*! =2#=2% DOI: 0&2'')st&200$&0''&&&of coagulation )ith polyaluminium chloridesB role of eclectrostatic patch& +olloids Surf& 2$*(Z!, 'Z7& \hao, ;&, ;u, +&, Aiu, ;&, \hao, P& Yu, J& 200= @ole of aluminium speciation in theremoal of disinfection byproduct precursors by a coagulation process& 6niron& Sci& Technol&*2(5!, 5752Z575=& =2&&&

• Determination and occurrence of organic micropollutants in reverse osmosis treatment for advanced

water reuse

&eroni*a )o!e' , Ka"ariina Ma1a!aa, E,a Po*urull, 7ran*es* BorrullWater Science and Technology Jun 202, '' (! '#7% DOI: 0&2'')st&202&''&&&#pressure membranes& Water Science and Technology 5 ('Z7!, 5Z**& imura, &, my, <&,re)es, J& 6&, ;eberer, T&, im, T& 9& Watanabe, & Ce6ection of organic micropollutants

0disinfection by-products, endocrine disrupting compounds, and pharmaceutically actiecompounds! by >K@/ membranes& Journal&&&

• )odelling micro-pollutant fate in wastewater collection and treatment systems: status and challenges

B. ). Pls' , +. Benede""i, ). %. Daigger , K. . +ang8ord, . 7. +arsen, . Mon"ei"h, C. Or" , . Se"h, J.2P. S"eyer , P. A. &anrolleghe!Water Science and Technology >o 202, '7 (! #5% DOI: 0&2'')st&202&5'2&&&agents, detergents, disinfection by-products, Lame retardants& comprehensie list ofsub:ects releant to the Neld of 13 modelling in )aste)ater are summarised as follo)s&ment

processes and calculate oerall efNciency of the WWT3 )ith respect to 13 remoal&assessment%(ii! international regulations&&&

• Discussion and Replies

Water Science and Technology ug $=5, 7 (=! 25#5$% DOI:&&&#5=' iscussion by S&& .aner:i +ontrolling 1etal 9ptaGe from ;eat#Treated Sludge pplied to<rasslands, J&W& Ma i l and &<& eey , pp&5$$#'0 iscussion by S& ;allDuist@eply Disinfection of rinGing Water @ich in .romide )ith +hlorine and +hl or ine ioFide , While1 in imiOin g the Kormation of 9ndesirable&&&

• Discussion Contents

Water Science and Technology Jul $=7, $ (7! 0*#70% DOI:&&&& Kat ta l ll2 @eply ll22 Disinfection 6? iciency and 3roblems s sociat ed )ith 1atu rat ion3onds , @&J& 1acdonald and & 6rnst , )& 557# 5' 7 iscussion by S & /hgaGi 2 2 iscussion by A&

















DBPs disinfection

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