Sao Paulo, Brazil, 18-20 May 2011 - Paulista University ... · Sergio Ulgiati Department of...
Transcript of Sao Paulo, Brazil, 18-20 May 2011 - Paulista University ... · Sergio Ulgiati Department of...
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Sergio UlgiatiDepartment of Sciences for the Environment
“Parthenope” University – Napoli, ItalyEmail: [email protected]
Sao Paulo, Brazil, 18-20 May 2011 - Paulista University3rd International Workshop
“Advances in Cleaner Production”
Organic Waste, Residues and By-Productsfrom Agricultural, Industrial and Urban
Systems as Biorefinery Substrates.Viable Option or Fairie Tales?
An Application of SUMMA (SUstainability Multi-methodMulti-scale Assessment)
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Contributors:
• Francesco Cherubini, PhD, Environmental Chemist -Norwegian University of Science and Technology (NTNU) -Trondheim, Norway
• Sandra Fahd, PhD, Agricultural Engineer - MAIB -Mediterranean Agronimic Institute - Bari, Italy
• Salvatore Mellino, GIS modellist - Parthenope University -Napoli, Italy
• Gabriella Fiorentino, PhD, Biochemist - Parthenope University- Napoli, Italy
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A Problem - Us• All studies clearly identify human activity as a primary cause of the Earth
System Crisis
• The 20th Century has seen exponential growth in human populations, madepossible by the industrial-scale exploitation of natural resources and services
• The globalised industrial economy is committed to continuing growth inproduction and consumption
• Growth demands ever-increasing energy and material inputs
• Growth results in increasing levels of pollution, resource depletion, speciesloss and ecosystem degradation.
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Advocates of business-as-usual suggest that whatis needed to maintain a growing economy isincreased efforts to extract more energy fromdeeper reservoirs, oil sands, nuclear.
Business-as-usual
Business-as-usual is not an optionfor the future of humankind.
Unlimited growth is impossible ina limited planet and sooner orlater every activity is constrainedby a limiting factor.
They disregard the declining net return of these sources (increased efforts meanincreased energy investment, less net energy, more environmental disturbance).
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Howard T. Odum (1925-2002):the impossibility of business-as-usualand the search for alternatives.
Howard T. Odum and Elisabeth C. Odum (2001)A Prosperous Way Down: Principles andPolicies.Boulder, Colorado: University Press of Colorado.
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Odum’s Pulsing Model
Four Stages ofthe Growth
Cycle
Main premises ofcleanerproduction andsustainablesocieties:
a) recognizing thestage we are in;
b) Choosing theappropriate policyfor that stage.
c) Growthpolicies do not fitdescent periods
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No matter how you cutit…the hydrocarbonage (cheap fossil fuels)is over.
Alaska
United States
World
History
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Source: EWG, 2006. URANIUM RESOURCES AND NUCLEAR ENERGY. EnergyWatch Group, December 2006. EWG-Series No.1/2006.http://www.energywatchgroup.org/fileadmin/global/pdf/EWG_Report_Uranium_3-12-2006ms.pdf.
A PEAK FOR (CHEAP) URANIUM ?
Estimates ofavailable
uranium stocksat different pricecompared to thepresent uranium
demand forexisting reactors
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Net Energy and EROI (Energy Return onInvestment)
Resource inthe ground
EnergyInvestmentEin,2
Refinedresource
Extractedresource
EnergyInvestmentEin,1
Extractionprocess
Refiningprocess Eout
Ein
Net Energy = Eout – Ein
EROI = Eout / Ein
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Fossil oil togasolineprocess
(Michael Wang, 2005, Ethanolfrom Corn and Cellulosics,Center for Transportation
Research, Argonne NationalLaboratory)
The EROI ofrefined fuels is
around 5:1
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Our addiction to fossil fuels results on intensive consumption ofpetroleum derivatives which, combined with diminishing petroleumresources, causes environmental and political concerns.
Electricity and heat can be provided by a variety of renewablealternatives (wind, sun, hydro, geo, and so on).
Instead, the fossil resource alternative for production oftransportation fuels and chemicals is biomass, the only C-richmaterial source available on the Earth, besides fossils.
The search for alternatives
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A) Environmentally friendly: less, or no loading at all on water,land, air, climate, biodiversity.
B) Renewable. The age of fossil fuels is over.
C) Complex and integrated: components interact and exchangeenergy and matter flows in order to decrease emissions andwaste.
D) Aiming at wellbeing, not at growth.
E) Sustainable under different points of view: energetic,environmental, economic, and social.
Alternatives must be:
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Bio-ethanol production in the contaminated landaround Chernobyl (Belarus) ?
In 2009 an Irish Company (Greenfield Project Management Ltd) planned to use four millionha in Belarus, in the Chernobyl surroundings. The biofuel produced should have beencommercialised in Europe. This was a false annoucement to raise money in order to avoidbankrupcy (http://www.facebook.com/note.php?note_id=145364802189057).
On 16 May 2011, PhotoFuels, a Belgian-Ukrainian joint venture, announced to haveobtained approval from the Ukraine government to plant several test fields of commonmillet for biofuels in the Chernobyl area evacuated in the year 1986 after the nuclear poweraccident. (Deutsche Presse-Agentur)
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The failure of Bioenergy from food crops:
corn, wheat, oilseeds,…
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•Land
•Water
•Topsoil
•Nutrients
•Biota
•Other
Agriculturalphase: biomass
production
Residues leftin field
Residuesused in the
process
Net biofueloutputConversion
step
R
R*
F*F1
F2F4
B
H
F3
F1 = Gross biofuel production
F2 = Process energy demand met by biofuels
F3 = Biofuels invested in harvesting of residues
F4 = Biofuel demand for agricultural production
R = Potentially available residues (mass)
R* = Residues used in process (mass)
H = Process energy demand met by residues
B = Total biomass produced (mass)
Biofuel Production
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Corn toEtOH
process (Michael Wang, 2005,Ethanol from Corn andCellulosics, Center for
Transportation Research,Argonne National Laboratory)
The EROI ofbioethanol fromcorn is around
1.3:1
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Energy Policy 36 (2008) 3882– 3892
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Second Generation vs First Generation?Maybe…
• 1st generation biofuels Derived from Biomass harvested for the sugar, starch and oil
content, which can be converted using hydrolysis &fermentation
Technology establishedMajor Issues - Crops needed, Food v Fuel, Water Demand,Environmental issues - land clearing, soil degradation.
• 2nd generation biofuels Produced from lignocellulosic biomass, utilising hydrolysis,
fermentation, gasification or pyrolysis Can utilise Waste Materials (e.g. waste paper, paper mill waste,
wood waste, agricultural crop residues etc)
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(Li et al., 2010; Wyman et al., 2005)
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What is a biorefinery?Biorefinery:thesustainableprocessingofbiomassintoaspectrumofmarketableproductsandenergy”
(IEABioenergyTask42)
The“biorefinery”conceptembracesawiderangeoftechnologiesabletoseparatebiomassresources(wood,grasses,corn,urbanwaste)intotheirbuildingblocks(carbohydrates,proteins,biogas,fats)…
…thatcanbeconvertedtovalueaddedproducts,biofuelsandchemicals.
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In short:
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CELLULOSE
http://www.doitpoms.ac.uk/tlplib/wood/printall.php accessed on 9/03/09
• Extensive intramolecular and intermolecular H-bonding• Insoluble in water and most common organic solvents
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HEMICELLULOSE
O
H
HO
H
HO
H
H
OHH
OH
OH
O
OH
H
H
HO
H
H
OHH
OH
OH
O
H
HO
H
HO
OH
H
HH
OH
OH
O
OH
H
H
HO
H
H
OHH
OH
O
H
HO
H
HO
H
H
OHH
OH
HO
H
HO
H
HO
H
H
OHH
H
OH
HOOC
Glucose Galactose Mannose
Glucuronic acidArabinoseXylose
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LIGNIN
http://commons.wikimedia.org/wiki/Image:Lignin_structure.svg?uselang=ja accessed on9/03/09
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Chemical products from ligno-cellulosicmaterials
1. Levoglucosan2. Levoglucosenone3. Furfural4. 5-Hydroxymethylfurfural5. Levulinic acid
O
O OH
(4)
O
O
O
(2)
O
O
(3)
O
OH OH
O
HO
H2C
(1)
O
O
OH
(5)
F. Shafizadeh and Y. L. Fu, Carbohydr. Res., 1973, 29, 113-122.R. Krishna, M. R. Kallury, C. Ambridge and T. T. Tidwell, Carbohydr. Res., 1986, 158, 253-261J. Horvat, B. Klaic, B. Metelko and V. Sunjic, Tetrahedron Lett., 1985, 26, 2111-2114
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Chemical products from ligno-cellulosicmaterials
O
O OH
(4)
O
O
O
(2)
O
O
(3)
O
OH OH
O
HO
H2C
(1)
O
O
OH
(5)
O
O
O
O
Ethyl levulinate
Methyltetrahydrofuran(fuel additive)
T. Werpy and G. Petersen, U.S Department of Energy, 2004, p. 76
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Furfural
P.R. Gruber & M Kamm (Editors), “Biorefineries – Industrial Processes and Products,Status Quo and Future Directions, Vols 1 & 2, 2006, Wiley-VCH
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P.R. Gruber & M Kamm (Editors),“Biorefineries – IndustrialProcesses and Products,Status Quo and FutureDirections, Vols 1 & 2, 2006,Wiley-VCH
LevulinicAcid
Derivatives
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Step No. 1:
Identifying substates,intermediate products, andtechnological pathways
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C6
polysaccharides
Grasses Organic residues
and others
Starch
crops
Lignocellulosic
material
Oil crops &
Fats
C5
polysaccharidesLignin
Proteins
Triglycerides
SNG
H2
FeedstockBasic
component
Platform
Legend
Mechanical /
Physical process
Chemical
process
Biochemical
processes
Thermochemical
process
Anaerobic
digestion
Enrichment
Steam
reforming
SNG
Fertilizer
Pressing
Animal feed
Hydrogenation
Estherification
Biodiesel
Fiber products
Amino
acids
HydrogenLink among platforms
Pretreatment
Gasification
Chemical
reaction
Biofuels (FT, MTHF, EL)
Combustion
Electricity and heat
Hydrolysis Hydrolysis
Straw
Fermentation
Ethanol
Separation
Chemical
reaction
Syngas
Material
productEnergy product
Chemicals
Fiber
separation
Mechanical
Fractionation
Levulinic
AcidFurfural
Chemical
reaction
Methanisation
Amino
Acid
Fiber
separation
Organic acids
& extracts
Alkaline water
electrolysis
Sugar
crops
Straw
Oil
Pyrolysis
Pyrolytic
liquid
Mechanical
Fractionation
Mechanical
Fractionation
C6 sugars
Organic
juice
Extraction
C5 sugars
Separation
Water gas shift
FeedstockBasic
component
Platform
Legend
Mechanical /
Physical process
Chemical
process
Biochemical
processes
Thermochemical
process
Link among platforms
Material
productEnergy product
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1. Bioethanolfrom starch
C6
polysaccharides
Grasses Organic residues
and others
Starch
crops
Lignocellulosic
material
Oil crops &
Fats
C5
polysaccharidesLignin
Proteins
Triglycerides
SNG
H2
FeedstockBasic
component
Platform
Legend
Mechanical /
Physical process
Chemical
process
Biochemical
processes
Thermochemical
process
Anaerobic
digestion
Enrichment
Steam
reforming
SNG
Fertilizer
Pressing
Animal feed
Hydrogenation
Estherification
Biodiesel
Fiber products
Amino
acids
HydrogenLink among platforms
Pretreatment
Gasification
Chemical
reaction
Biofuels (FT, MTHF, EL)
Combustion
Electricity and heat
Hydrolysis Hydrolysis
Straw
Fermentation
Ethanol
Separation
Chemical
reaction
Syngas
Material
productEnergy product
Chemicals
Fiber
separation
Mechanical
Fractionation
Levulinic
AcidFurfural
Chemical
reaction
Methanisation
Amino
Acid
Fiber
separation
Organic acids
& extracts
Alkaline water
electrolysis
Sugar
crops
Straw
Oil
Pyrolysis
Pyrolytic
liquid
Mechanical
Fractionation
Mechanical
Fractionation
C6 sugars
Organic
juice
Extraction
C5 sugars
Separation
Water gas shift
FeedstockBasic
component
Platform
Legend
Mechanical /
Physical process
Chemical
process
Biochemical
processes
Thermochemical
process
Link among platforms
Material
productEnergy product
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1. Bioethanolfrom starch
2. Biodieselfrom oil crop
C6
polysaccharides
Grasses Organic residues
and others
Starch
crops
Lignocellulosic
material
Oil crops &
Fats
C5
polysaccharidesLignin
Proteins
Triglycerides
SNG
H2
FeedstockBasic
component
Platform
Legend
Mechanical /
Physical process
Chemical
process
Biochemical
processes
Thermochemical
process
Anaerobic
digestion
Enrichment
Steam
reforming
SNG
Fertilizer
Pressing
Animal feed
Hydrogenation
Estherification
Biodiesel
Fiber products
Amino
acids
HydrogenLink among platforms
Pretreatment
Gasification
Chemical
reaction
Biofuels (FT, MTHF, EL)
Combustion
Electricity and heat
Hydrolysis Hydrolysis
Straw
Fermentation
Ethanol
Separation
Chemical
reaction
Syngas
Material
productEnergy product
Chemicals
Fiber
separation
Mechanical
Fractionation
Levulinic
AcidFurfural
Chemical
reaction
Methanisation
Amino
Acid
Fiber
separation
Organic acids
& extracts
Alkaline water
electrolysis
Sugar
crops
Straw
Oil
Pyrolysis
Pyrolytic
liquid
Mechanical
Fractionation
Mechanical
Fractionation
C6 sugars
Organic
juice
Extraction
C5 sugars
Separation
Water gas shift
FeedstockBasic
component
Platform
Legend
Mechanical /
Physical process
Chemical
process
Biochemical
processes
Thermochemical
process
Link among platforms
Material
productEnergy product
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1. Bioethanolfrom starch
2. Biodieselfrom oil crop
3. SNG fromorganicresidues
C6
polysaccharides
Grasses Organic residues
and others
Starch
crops
Lignocellulosic
material
Oil crops &
Fats
C5
polysaccharidesLignin
Proteins
Triglycerides
SNG
H2
FeedstockBasic
component
Platform
Legend
Mechanical /
Physical process
Chemical
process
Biochemical
processes
Thermochemical
process
Anaerobic
digestion
Enrichment
Steam
reforming
SNG
Fertilizer
Pressing
Animal feed
Hydrogenation
Estherification
Biodiesel
Fiber products
Amino
acids
HydrogenLink among platforms
Pretreatment
Gasification
Chemical
reaction
Biofuels (FT, MTHF, EL)
Combustion
Electricity and heat
Hydrolysis Hydrolysis
Straw
Fermentation
Ethanol
Separation
Chemical
reaction
Syngas
Material
productEnergy product
Chemicals
Fiber
separation
Mechanical
Fractionation
Levulinic
AcidFurfural
Chemical
reaction
Methanisation
Amino
Acid
Fiber
separation
Organic acids
& extracts
Alkaline water
electrolysis
Sugar
crops
Straw
Oil
Pyrolysis
Pyrolytic
liquid
Mechanical
Fractionation
Mechanical
Fractionation
C6 sugars
Organic
juice
Extraction
C5 sugars
Separation
Water gas shift
FeedstockBasic
component
Platform
Legend
Mechanical /
Physical process
Chemical
process
Biochemical
processes
Thermochemical
process
Link among platforms
Material
productEnergy product
Biogas
Biogas
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1. Bioethanolfrom starch
2. Biodieselfrom oil crop
3. SNG fromorganicresidues
4. FT-fuels fromforestresidues
C6
polysaccharides
Grasses Organic residues
and others
Starch
crops
Lignocellulosic
material
Oil crops &
Fats
C5
polysaccharidesLignin
Proteins
Triglycerides
SNG
H2
FeedstockBasic
component
Platform
Legend
Mechanical /
Physical process
Chemical
process
Biochemical
processes
Thermochemical
process
Anaerobic
digestion
Enrichment
Steam
reforming
SNG
Fertilizer
Pressing
Animal feed
Hydrogenation
Estherification
Biodiesel
Fiber products
Amino
acids
HydrogenLink among platforms
Pretreatment
Gasification
Chemical
reaction
Biofuels (FT, MTHF, EL)
Combustion
Electricity and heat
Hydrolysis Hydrolysis
Straw
Fermentation
Ethanol
Separation
Chemical
reaction
Syngas
Material
productEnergy product
Chemicals
Fiber
separation
Mechanical
Fractionation
Levulinic
AcidFurfural
Chemical
reaction
Methanisation
Amino
Acid
Fiber
separation
Organic acids
& extracts
Alkaline water
electrolysis
Sugar
crops
Straw
Oil
Pyrolysis
Pyrolytic
liquid
Mechanical
Fractionation
Mechanical
Fractionation
C6 sugars
Organic
juice
Extraction
C5 sugars
Separation
Water gas shift
FeedstockBasic
component
Platform
Legend
Mechanical /
Physical process
Chemical
process
Biochemical
processes
Thermochemical
process
Link among platforms
Material
productEnergy product
Biogas
Biogas
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1. Bioethanolfrom starch
2. Biodieselfrom oil crop
3. SNG fromorganicresidues
4. FT-fuels fromforestresidues
5. GreenBiorefinery
C6
polysaccharides
Grasses Organic residues
and others
Starch
crops
Lignocellulosic
material
Oil crops &
Fats
C5
polysaccharidesLignin
Proteins
Triglycerides
SNG
H2
FeedstockBasic
component
Platform
Legend
Mechanical /
Physical process
Chemical
process
Biochemical
processes
Thermochemical
process
Anaerobic
digestion
Enrichment
Steam
reforming
SNG
Fertilizer
Pressing
Animal feed
Hydrogenation
Estherification
Biodiesel
Fiber products
Amino
acids
HydrogenLink among platforms
Pretreatment
Gasification
Chemical
reaction
Biofuels (FT, MTHF, EL)
Combustion
Electricity and heat
Hydrolysis Hydrolysis
Straw
Fermentation
Ethanol
Separation
Chemical
reaction
Syngas
Material
productEnergy product
Chemicals
Fiber
separation
Mechanical
Fractionation
Levulinic
AcidFurfural
Chemical
reaction
Methanisation
Amino
Acid
Fiber
separation
Organic acids
& extracts
Alkaline water
electrolysis
Sugar
crops
Straw
Oil
Pyrolysis
Pyrolytic
liquid
Mechanical
Fractionation
Mechanical
Fractionation
C6 sugars
Organic
juice
Extraction
C5 sugars
Separation
Water gas shift
FeedstockBasic
component
Platform
Legend
Mechanical /
Physical process
Chemical
process
Biochemical
processes
Thermochemical
process
Link among platforms
Material
productEnergy product
Biogas
Biogas
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1. Bioethanolfrom starch
2. Biodieselfrom oil crop
3. SNG fromorganicresidues
4. FT-fuels fromforestresidues
5. GreenBiorefinery
6. Phenols andpower fromwoodpyrolysis
C6
polysaccharides
Grasses Organic residues
and others
Starch
crops
Lignocellulosic
material
Oil crops &
Fats
C5
polysaccharidesLignin
Proteins
Triglycerides
SNG
H2
FeedstockBasic
component
Platform
Legend
Mechanical /
Physical process
Chemical
process
Biochemical
processes
Thermochemical
process
Anaerobic
digestion
Enrichment
Steam
reforming
SNG
Fertilizer
Pressing
Animal feed
Hydrogenation
Estherification
Biodiesel
Fiber products
Amino
acids
HydrogenLink among platforms
Pretreatment
Gasification
Chemical
reaction
Biofuels (FT, MTHF, EL)
Combustion
Electricity and heat
Hydrolysis Hydrolysis
Straw
Fermentation
Ethanol
Separation
Chemical
reaction
Syngas
Material
productEnergy product
Chemicals
Fiber
separation
Mechanical
Fractionation
Levulinic
AcidFurfural
Chemical
reaction
Methanisation
Amino
Acid
Fiber
separation
Organic acids
& extracts
Alkaline water
electrolysis
Sugar
crops
Straw
Oil
Pyrolysis
Pyrolytic
liquid
Mechanical
Fractionation
Mechanical
Fractionation
C6 sugars
Organic
juice
Extraction
C5 sugars
Separation
Water gas shift
FeedstockBasic
component
Platform
Legend
Mechanical /
Physical process
Chemical
process
Biochemical
processes
Thermochemical
process
Link among platforms
Material
productEnergy product
Biogas
Biogas
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1. Bioethanolfrom starch
2. Biodieselfrom oil crop
3. SNG fromorganicresidues
4. FT-fuels fromforestresidues
5. GreenBiorefinery
6. Phenols andpower fromwoodpyrolysis
7. Hydrogen andchemicalsfrom sugarcrops
C6
polysaccharides
GrassesOrganic residues
and others
Starch
crops
Lignocellulosic
material
Oil crops &
Fats
C5
polysaccharidesLignin
Proteins
Triglycerides
SNG
H2
FeedstockBasic
component
Platform
Legend
Mechanical /
Physical process
Chemical
process
Biochemical
processes
Thermochemical
process
Anaerobic
digestion
Enrichment
Steam
reforming
SNG
Fertilizer
Pressing
Animal feed
Hydrogenation
Estherification
Biodiesel
Fiber products
Amino
acids
HydrogenLink among platforms
Pretreatment
Gasification
Chemical
reaction
Biofuels (FT, MTHF, EL)
Combustion
Electricity and heat
Hydrolysis Hydrolysis
Straw
Fermentation
Ethanol
Separation
Chemical
reaction
Syngas
Material
productEnergy product
Chemicals
Fiber
separation
Mechanical
Fractionation
Levulinic
AcidFurfural
Chemical
reaction
Methanisation
Amino
Acid
Fiber
separation
Organic acids
& extracts
Alkaline water
electrolysis
Sugar
crops
Straw
Oil
Pyrolysis
Pyrolytic
liquid
Mechanical
Fractionation
Mechanical
Fractionation
C6 sugars
Organic
juice
Extraction
C5 sugars
Separation
Water gas shift
Biogas
Biogas
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The European Union roadmap to Biorefineries (hugeinvestments for research, 7th RTD program)
Source: Biofuels in the European Union – A vision for 2030 and beyond,Final report of the Biofuels Research Advisory Council, June 200638
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Step No. 2:
Designing an integrated system
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Agro-Industrial Integrated System “Parthenope” - Napoli, Italy
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Step No. 3:
Assessing the profitability andenvironmental friendliness ofbiorefineries
A case study with LCA
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compiling an inventory ofrelevant inputs andoutputs
evaluating the potentialenvironmental impactsassociated with thoseinputs and outputs
interpreting the results ofthe inventory and impactphases in relation to theobjectives of the study
Life Cycle Assessment- LCALife Cycle Assessment (LCA) is a technique for assessing the potentialenvironmental aspects associated with a product (or service), by:
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Step No. 4Expanding the focus of the assessment:
a) thermodynamic efficiency (exergy),b) demand for environmental support
(eMergy), andc) economic feasibility.
An extended LCA
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Multidimensional Life Cycle Assessment
Matter and energy flows1. LCA
2. Extended LCA: SUMMASUstainability Multimethod Multiscale Approach
LCA + process efficiency +environmental support +embodied time + money flows
SUMMA
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SUstainability Multimethod Multiscale Approach
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Step No. 5: Marginal and polluted land (GIS- Geographical Information System)
Case study:Non-food crops on land unsuitable foragriculture.a) Cropping for energyb) Biorefinery, the Biofine process
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Material: oilseed crop
2. Ethiopian Mustard or Brassica carinata
Different types of soil (clay and sandy types) as well as in a semi-arid temperate climate
Low water requirement
Low fertilizers and plant protection requirement
Promising oil feedstock for cultivation in coastal areas of central-southern Italy
Opportunity of exploiting the Mediterranean marginal areas forenergetic purposes
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Cropping for Energy
Agrresidues
CakeMealOil
Biodiesel
Transesterifica7on
Oilextrac7on
Seeds
Glycerin
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Usable and Net Energy Delivered to the user by all the co-products of the different
phases of biodiesel production chain (data per hectare).
Energy
content
(J/ha/yr)
Usable
Energy (for
residues 50%
less than
HHV)
(J/ha/yr)
Transportation
of residues (5%
of energy
content)
(J/ha/yr)
Usable Energy
Delivered
(J/ha/yr)
Net
Energy
Delivered
(J/ha/yr)
Invested for
process 1.82E+10
Biodiesel 1.46E+10 1.46E+10 7.30E+08 1.39E+10
Cake meal 1.17E+10 5.85E+09 5.85E+08 5.27E+09
Straw 4.36E+10 2.18E+10 2.18E+09 1.96E+10 Lo
w I
np
ut
Delivered 3.88E+10 2.06E+10
Invested for
process 2.59E+10
Biodiese l 2.06E+10 2.06E+10 1.03E+09 1.96E+10
Cake meal 1.66E+10 8.30E+09 8.30E+08 7.47E+09
Straw 5.51E+10 2.76E+10 2.76E+09 2.48E+10 Hig
h I
np
ut
Deliver e d 5.19E+10 2.60E+10
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Net Energy Delivered (NED) by the biodiesel production chain and fractions of
agricultural and regional energy consumption potentially replaced
.
Low Input
(J/yr)
High Input
(J/yr)
Total NED from polluted areas 8.90E+14 1.12E+15
% of energy budget of Campania region 0.33% 0.41%
% of energy budget of regional agricultural sector 10.63% 13.41%
Economic balance between the total economic investment for biodiesel and heat
production chain and the saving of economic investment associated to such bio-
energy in marginal land.
Low Input (!/yr) High Input (!/yr)
Total Economic Investment (a) 3.78E+07 4.62E+07
Value of delivered energy (b) 9.68E+06 1.22E+07
Economic Balance (b-a) -2.81E+07 -3.40E+07
Ratio a/b 3.90 3.79
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Agrresidues
CakeMealOil
Biodiesel Glycerin LevulinicAc
Lignin
Transesterifica7on
Mechanicaltreatment
Oilextrac7on
Seeds
Biofinefeedstock
Steamexplosion
Shreddedfeedstock
Formicac
BiofineLine
Biofine Line
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An Example: The Biofine Process
An Existing Process• A high temperature, fast acid hydrolysis of biomass
polysaccharides.• The feedstock is hydrolysed with 1-5% sulphuric acid in
two reactors.• The first reactor hydrolyses the sugars and produces 5-
hydroxymethyl furfural (HMF) from the C6 sugars andfurfural from the C5 sugars.
• The HMF goes to the second reactor where levulinic acidis formed (and smaller amounts of formic acid)
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Biofine Line
Indicators Levulinic
Acid
Formic
Acid Biodiesel Glycerin
Material resource depletion
MI abiot (g/g) 4.48 0.37 2.68 1.19
MI water (g/g) 26.17 2.17 27.56 12.20
Energy depletion
GER per unit mass (J/g) 3.29E+04 2.73E+03 2.08E+04 9.19E+03
Oil eq (g oil/g) 0.78 0.07 0.50 0.22
Oil eq (g oil/J) 2.20E-05 8.13E-06 1.32E-05 1.32E-05
Oil eq (g oil/!) 871 871 633 2090
Emergy (demand for environmental support)
Specific emergy (seJ/g) 3.58E+12 1.24E+13 1.17E+10 1.17E+11
Transformity (seJ/J) 9.83E+07 1.51E+09 3.11E+05 7.02E+06
EYR 1.00 1.00 1.14 1.14
ELR 56.87 56.87 8.28 8.28
% Renewable 2% 2% 11% 11%
Climate change
Global warming (g CO2 -equiv/ g) 2.46 0.20 1.24 0.55
Acidification (g SO2 / g) 9.66E-03 8.02E-04 3.92E-03 1.73E-03
Eutrophication (g PO4/g) 9.44E-04 7.84E-05 4.10E-04 1.82E-04
!
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42 GJ/ton: approx energy content of raw oil
Energy cost of selected plastics
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Energy cost ofselected chemicals
Approx energycontent of raw oil:
42 GJ/ton:
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Concluding remarks• We will have to rely on biomass for liquid fuels, chemicals and materials,
when we run out of cheap fossil fuels. No doubt on this.• Cropping for energy, even in marginal land, is never an option (a part from
Brazilian sugar cane, in some cases) due to low energy return and highcosts.
• Instead of expensive cropping, the use of lignocellulose residues and wasteprovides interesting, substrate abundant, low cost and energy self-sufficientalternatives (biorefinery).
• The biorefinery concept solves the problem of agro-industrial and urbanwaste, and promises cheap liquid fuels and biomaterials/biochemicals.
• Biochemicals can be already produced at competitive cost with petro-chemicals. Bioenergy is more difficult, because of low hydrolysis yields.
• Some high yield processes (Biofine) are very close to the commercial stage.• Lignocellulose is everywhere and therefore contributes to the independence
from fossil fuels.
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Thank you
for your attention !