Patent Gazette · 2017. 12. 13. · Patent Gazette The Patent Gazette is an official Gazette aims...

Cooperation Council For the Arab States of the Gulf

Secretariat General

GCC Patent Office

Patent GazetteGC0004409 - GC0004488

Thirty One

29 Mharam 1438 - 30 November 2016

Patent Gazette

The Patent Gazette is an official Gazette aims to publish the new patents and everythingrelated to patents. The Patent Gazette issued by the Patent Office of the Cooperation Council

for the Arab Gulf States. Filing and granting directorate, publishing and grantingdepartment.

http://www.gccpo.org

Contents

Sr Subject

1 Introduction

2 About The GCC Patent Office

3 International Codes for Bibliographic Data Elements

4 List of Codes of States and International Organizations

5 List of Granted Patents

6 The Front Page of Granted Patents

7 List of Lapsed Patent Applications

8 List of Rejected Patent Applications

9 List of Patent Applications with Change of Ownership

introduction

The “Patent Gazette” issued by the Patent Office of the Cooperation Council for the Arab States of the Gulf concernswith publishing disclosures set forth in the GCC Patent Regulation and its Implementing Bylaws. The disclosures arerepresented by the data and information related 2016-11-30 patent applications and patents with the Office for theperiod covered. This issue; (Thirty One) of the Gazette comes in view of growth of the Office functions 2016-11-30cover Office activities relating 2016-11-30 applications and patents during the period 2016-11-01 - 2016-11-30 In addition 2016-11-30 activities that were not published previously. This issue includes the following: 1. A list of granted patents . 2. The front pages of the granted patents . 3. A list of lapsed patent applications . 4. A list of rejected patent applications . 5. A list of patent applications and patent with change of-ownership. This issue includes the publication of granting of ( 80 ) after satisfying the conditions of grants and payment ofgrant and publication fees thereof. We would also like 2016-11-30 notify that the office has decided 2016-11-30 s2016-11-30p paper publishing and relyon electronic publishing of issues of the Patent Gazette, effective 2016-11-01 issue (18th). The Regulation allows any concerned individual having any objection 2016-11-30 the grant of any patent publishedin this issue 2016-11-30 submit Within 3 months an appeal 2016-11-30 the Grievances Committee in accordancewith the procedures set forth in the Implementing Bylaws at the following address: Secretary of the Grievances Committee The Secretariat General of the Cooperation Council for the Arab States of the Gulf PO. Box 340227, Riyadh 11333, Saudi Arabia Tel: +96614827777, Ext. 1026 Fax: +96614809768 Email: grievance@ gccsg.org Electronic copy of this Gazette can be obtained 2016-11-01 the website of the GCC Patent Office:http://www.gccpo.org

About GCC Patent Office

The GCC Patent Office is a regional office that receives patent applications in the member states of the GulfCooperation Council, which are: The United Arab Emirates, Kingdom of Bahrain, Kingdom of Saudi Arabia, Sultanateof Oman, State of Qatar; and State of Kuwait to obtain patents and protection of inventions in the said countries. The Office grants patents for applications filed, provided they fulfill the conditions stipulated in the GCC PatentRegulation and its Implementing Bylaws Patents granted by the Office shall be valid in all GCC Member States, and shall need no further processing in anyGCC Member State. The GCC Patent Regulation prohibits infringement of patents granted by the Office Such infringement shall besubject to criminal or civil responsibility, or both as per the laws and regulations of each GCC State. For more information, the office may be contacted at: Tel.: (009661) 4820136, 4820260 Fax: (009661) 4829600 E-mail: [email protected] Website : http://www.gccpo.org

International Codes

International Codes for Bibliographic Data Elements* Included in the First Pages of GrantedPatents

Code Bibliographic Data Element

11 Number of the Patent12 Designation of the Kind of Document21 Number of the Application22 Date of Filing the Application30 31 32 33

Data relating to Priority Number(s) assigned to Priority Application(s) Date(s) of Priority Application(s) Priority Country

45 Date of Publishing the Grant of the Patent51 International Patent Classification54 Title (Naming) of the Invention56 List of Cited Prior Art Documents57 Abstract

72 Abstract

73 Name(s) of Inventor(s)74 Name of Agent (Attorney)

International Codes for Bibliographic Data Elements* Included in the FirstPages of Granted Patents

Country Code

RUSSIAN FEDERATION RU

ETHIOPIA ET

AZERBAIJAN AZ

ARGENTINA AR

JORDAN JO

ARMENIA AM

ARUBA AW

ERITREA ER

SPAIN ES

AUSTRALIA AU

ESTONIA EE

AFGHANISTAN AF

ECUADOR EC

ALBANIA AL

GERMANY DE

UNITED ARAB EMIRATES AE

ANTIGUA AND BARBUDA AG

ANDORRA AD

INDONESIA ID

ANGOLA AO

ANGUILLA AI

URUGUAY UY

UZBEKISTAN UZ

UGANDA UG

UKRAINE UA

IRELAND IE

ICELAND IS

ITALY IT

PAPUA NEW GUINEA PG

PARAGUAY PY

PAKISTAN PW

BAHRAIN BH

BRAZIL BR

BARBADOS BB

PORTUGAL PT

BERMUDA BM

BRUNEI DARUSSALAM BN

BELGIUM BE

BULGARIA BG

Country Code

BELIZE BZ

BANGLADESH BD

PANAMA PA

BENIN BJ

BAHAMAS BS

BHUTAN BT

BOTSWANA BW

BURKINA FASO BF

BURUNDI BI

BOSNIA AND HERZEGOVINA BA

POLAND PL

BOLIVIA, PLURINATIONAL STATE OF BO

BONAIRE, SINT EUSTATIUS AND SABA BQ

PERU PE

BELARUS BY

THAILAND TH

TAIWAN, PROVINCE OF CHINA TW

TURKMENISTAN TM

TURKEY TR

TRINIDAD AND TOBAGO TT

Chad TD

TOGO TG

TUVALU TV

TUNISIA TN

TONGA TO

TIMOR–LESTE TL

JAMAICA JM

MONTENEGRO ME

GIBRALTAR GI

ALGERIA DZ

COMOROS KM

TURKS AND CAICOS ISLANDS TC

SOLOMON ISLANDS SB

FAROE ISLANDS FO

FALKLAND ISLANDS (MALVINAS) FK

VIRGIN ISLANDS, BRITISH VG

COOK ISLANDS CK

NORTHERN MARIANA ISLANDS MP

CAYMAN ISLANDS KY


Country Code

BOUVET ISLAND BV

ISLE OF MAN IM

CENTRAL AFRICAN REPUBLIC CF

CZECHIA CZ

DOMINICAN REPUBLIC DO

SYRIAN ARAB REPUBLIC SY

THE CONGO CD

IRAN, ISLAMIC REPUBLIC OF IR

UNITED REPUBLIC OF TANZANIA TZ

Republic of Korea KR

DEMOCRATIC PEOPLE’S REPUBLIC OF KOREA KP

LAO PEOPLE’S DEMOCRATIC REPUBLIC LA

THE FORMER YUGOSLAV REPUBLIC OF MACEDONIA MK

REPUBLIC OF MOLDOVA MD

SOUTH AFRICA ZA

SOUTH SUDAN SS

South Georgia and the South Sandwich Islands GS

Georgia GE

GUERNSEY GG

DJIBOUTI DJ

JERSEY JE

Denmark DK

Dominica DM

Cabo Verde CV

Rwanda RW

Romania RO

Zambia ZM

Zimbabwe ZW

Côte d’Ivoire CI

Samoa WS

San Marino SM

Saint Vincent and the Grenadines VC

Saint Kitts and Nevis KN

Saint Lucia LC

Sint Maarten (Dutch part) SX

Saint Helena, Ascension and Tristan da Cunha SH

Sao Tome and Principe ST

Sri Lanka LK

El Salvador SV

Country Code

Slovakia SK

Slovenia SI

Singapore SG

Senegal SN

Swaziland SZ

Sudan SD

Suriname SR

Sweden SE

Switzerland CH

Sierra Leone SL

Seychelles SC

Chile CL

Western Sahara EH

Serbia RS

لاموصلا SO

Somalia CN

Tajikistan TJ

Iraq IQ

Oman OM

Gabon GA

Gambia GM

Ghana GH

Grenada GD

Greenland GL

Guatemala GT

Guyana GY

GUINEA GN

EQUATORIAL GUINEA GQ

GUINEA–BISSAU GW

Holy See VA

Vanuatu VU

France FR

Philippines PH

Venezuela, Bolivarian Republic of VE

Finland FI

Viet Nam VN

Fiji FJ

Cyprus CY

Qatar QA


Country Code

Kyrgyzstan KG

Kazakhstan KZ

Cameroon CM

Croatia HR

Cambodia KH

Canada CA

Cuba CU

Curaçao CW

Costa Rica CR

Colombia CO

Congo CG

Kuwait KW

Kiribati KI

Kenya KE

Latvia LV

Lebanon LB

Luxembourg LU

Libya LY

Liberia LR

Lithuania LT

Liechtenstein LI

Lesotho LS

Maldives MV

Malta MT

Mali ML

Malaysia MY

Madagascar MG

Egypt EG

NORDIC PATENT INSTITUTE (NPI) (/td> XN

Morocco MA

Macao MO

EUROPEAN PATENT OFFICE (EPO) EP

PATENT OFFICE OF THE COOPERATION COUNCIL FOR THE ARAB STATES OFTHE GULF (GCC)

GC

BENELUX OFFICE FOR INTELLECTUAL PROPERTY (BOIP) BX

COMMUNITY PLANT VARIETY OFFICE (EUROPEAN UNION) (CPVO) QZ

Country Code

BENELUX OFFICE FOR INTELLECTUAL PROPERTY (BOIP) BX

Mexico MX

Malawi MW

Saudi Arabia SA

UNITED KINGDOM GB

HONG KONG (See The Hong Kong Special Administrative Region of the People’sRepublic of China)

HK

African Intellectual Property Organization (OAPI) OA

African Regional Intellectual Property Organization (ARIPO) AP

Eurasian Patent Organization (EAPO) EA

INTERNATIONAL BUREAU OF THE WORLD INTELLECTUAL PROPERTYORGANIZATION (WIPO)

IB, WO

Mongolia MN

Mauritania MR

Mauritius MU

Mozambique MZ

Monaco MC

Montserrat MS

Myanmar MM

Namibia NA

Nauru NR

Norway NO

Austria AT

Nepal NP

Niger NE

Niger NG

Nicaragua NI

New Zealand NZ

Haiti HT

India IN

Honduras /td> HN

Hungary HU

Netherlands NL

United States of America /td> US

Japan JP

Yemen YE

Greece GR

List Of Granted Patents

List of Granted Patents

SrApplication

NoTitle of Invention

Patent

No

Date ofGrant

Valid

Until

1 13379METHOD AND APPARATUS FOR REMOVAL OF OILFROM UTILITY GAS STREAM

GC0004409 02/11/2016 02/11/2036

2 18466

ASSEMBLY AND METHOD FOR MULTI-ZONEFRACTURE STIMULATION OF A RESERVOIR USINGAUTONOMOUS TUBULAR UNITS

GC0004410 02/11/2016 02/11/2036

3 19959

METHOD FOR AUTOMATIC CONTROL ANDPOSITIONING OF AUTONOMOUS DOWNHOLETOOLS

GC0004411 02/11/2016 02/11/2036

4 10779SUPER-SOLUTION HOMOGENOUS PROPYLENEPOLYMERIZATION

GC0004412 06/11/2016 06/11/2036

5 24110REMOVING CARBON NANOTUBES FROM A WATERSTREAM

GC0004413 08/11/2016 08/11/2036

6 14004 ALKYLENE OXIDE PURIFICATION SYSTEMS GC0004414 15/11/2016 15/11/2036

7 5110 POLYMERIZATION PROCESS GC0004415 15/11/2016 15/11/2036

8 8927

METHOD AND APPARATUS FOR RETAINING A SOFTSEAL IN AN INTEGRATED FLAPPER MOUNT, HARDSEAT,SPRING HOUSING SURFACE CONTROLLEDSUBSURFACE SAFETY VALVE

GC0004416 15/11/2016 15/11/2036

9 9772

PROCESS FOR TRANSFERRING HEAT TO A LIQUIDMIXTURE COMPRISING AT LEAST ONEMETHACRYLIC MONOMER

GC0004417 15/11/2016 15/11/2036

10 12477 TREATMENT OF AIR GC0004418 15/11/2016 15/11/2036

11 12839

WATER TREATMENT PROCESS VIA ANANOFILTRATION OR REVERSE OSMOSIS TYPEMEMBRANE SYSTEM ENABLING HIGH CONVERSIONRATES DUE TO ORGANIC MATTER REMOVAL

GC0004419 15/11/2016 15/11/2036

12 12910

METHODS AND APPARATUS WITH HIGHRESOLUTION ELECTRODE CONFIGURATION FORIMAGING IN OIL-BASED MUDS

GC0004420 15/11/2016 15/11/2036

13 14477SHAPE MEMORY POLYURETHANE FOAM FORDOWNHOLE SAND CONTROL FILTRATION DEVICES

GC0004421 15/11/2016 15/11/2036

14 22112 PROCESS FOR PREPARING EDDN AND/OR EDMN GC0004422 15/11/2016 15/11/2036

15 22603 EPOXIDATION PROCESS WITH ADDED MODERATOR GC0004423 15/11/2016 15/11/2036

16 24278MISALIGNMENT COMPENSATION FOR DEEPREADING AZIMUTHAL PROPAGATION RESISTIVITY

GC0004424 15/11/2016 15/11/2036

17 12494REMOVAL OF HYDROCARBONS FROM AN AQUEOUSSTREAM

GC0004425 15/11/2016 15/11/2036

18 10669 DOOR LOCK REDUCES ELECTRICAL ENERGY NEEDED GC0004426 15/11/2016 15/11/2036

19 148765-AMINO-2-1-HYDROXY-ETHYL-TETRAHYDROPYRAN

DERIVATIVESGC0004427 15/11/2016 15/11/2036

20 15227DUAL COMPARTMENT SLIDE AND SHELLCONTAINER

GC0004428 15/11/2016 15/11/2036

21 17645PHOTOVOLTAIC CELL HAVING A SUBSTRATE MADEOF ALUMINOSILICATE GLAS

GC0004429 15/11/2016 15/11/2036

22 18137AEROSOL-GENERATING SUBSTRATE FOR SMOKINGARTICLES

GC0004430 15/11/2016 15/11/2036

23 18535

MAGNETIC RETRIEVAL APPARATUS AND METHODFOR RETAINING MAGNETS ON DOWNHOLEMAGNETIC RETRIEVAL APPARATUS

GC0004431 15/11/2016 15/11/2036

24 18610METHODS AND APPARATUS FOR DETECTING DEEPCONDUCTIVE PIPE

GC0004432 15/11/2016 15/11/2036

25 18611SYSTEMS AND METHODS FOR EM RANGING IN OIL-BASED MUD BOREHOLE

GC0004433 15/11/2016 15/11/2036

26 19007

ATTRITION RESISTANT SUPPORTS FOR FISCHER-TROPSCH CATALYST AND PROCESS FOR MAKINGTHE SAME

GC0004434 15/11/2016 15/11/2036

27 20741SYSTEMS AND METHODS FOR SEPARATING OILAND/OR GAS MIXTURES

GC0004435 15/11/2016 15/11/2036

28 16019PRE-CONNECTORIZED OPTICAL FIBRE CABLE, ANDKIT FOR THE DEPLOYMENT THEREOF

GC0004436 15/11/2016 15/11/2036

29 20421C-17 AND C-3 MODIFIED TRITERPENOIDS WITH HIVMATURATION INHIBITORY ACTIVITY

GC0004437 15/11/2016 15/11/2036

30 20897

TEMPERATURE CONTROL SYSTEM, HYDROCARBONSYNTHESIS REACTION APPARATUS,HYDROCARBON SYNTHESIS REACTION SYSTEM,AND TEMPERATURE CONTROL PROCESS

GC0004438 15/11/2016 15/11/2036

31 22217

METHOD OF PHASE SYNCHRONIZATION OF MWDOR WIRELINE APPARATUS SEPARATED IN THESTRING

GC0004439 15/11/2016 15/11/2036

32 22218METHOD FOR DETERMINING FRACTURE SPACINGAND WELL FRACTURING USING THE METHOD

GC0004440 15/11/2016 15/11/2036

33 22431

PROCESS FOR THE PRODUCTION OF POLYOLEFINSWHEREIN AN ANTIOXIDANT IS FED TO THEREACTION MIXTURE DURING THE PROCESS

GC0004441 15/11/2016 15/11/2036

34 23631BENDING CORRECTION FOR DEEP READINGAZIMUTHAL PROPAGATION RESISTIVITY

GC0004442 15/11/2016 15/11/2036

35 23633 CONNECTOR ASSEMBLY GC0004443 15/11/2016 15/11/2036

36 24641 PHENOXYETHYL PIPERIDINE COMPOUNDS GC0004444 15/11/2016 15/11/2036

37 24768 PETROLEUM RECOVERY PROCESS AND SYSTEM GC0004445 15/11/2016 15/11/2036

38 10472 PHOTOCATALYTIC AIR TREATMENT SYSTEM ANDMETHOD

GC0004446 16/11/2016 16/11/2036

39 20695

PROCESS FOR PREPARING ALKANOLAMINES BYHOMOGENEOUSLY CATALYZED ALCOHOLAMINATION

GC0004447 17/11/2016 17/11/2036

40 24097 CONVECTION ZONE OF A CRACKING FURNACE GC0004448 17/11/2016 17/11/2036

41 8570

IMPROVED POLYMERIZATION PROCESSES USINGMETALLOCENE CATALYSTS, THEIR POLYMERPRODUCTS AND END USES

GC0004449 17/11/2016 17/11/2036

42 15063 PROCESS FOR PREPARING ALDEHYDES GC0004450 17/11/2016 17/11/2036

43 21855IMPROVED OXO PROCESS AND METHOD FORPRODUCING SYNTHESIS GAS FROM WASTE OIL

GC0004451 17/11/2016 17/11/2036

44 22105

PROCESS FOR SEPARATING BY ABSORPTION THEPYROLYSIS GAS FROM PREPARATION OF LOWERCARBON OLEFINS

GC0004452 17/11/2016 17/11/2036

45 23124PROCESS FOR THE PREPARATION OFMETALLOCENE COMPLEXES

GC0004453 17/11/2016 17/11/2036

46 6384PROCESS FOR THE SYNTHESIS OF ORGANICCOMPOUNDS

GC0004454 17/11/2016 17/11/2036

47 14820CRYSTALLINE FORMS OF A 3-CARBOXYPROPYL-AMINOTETRALIN COMPOUND

GC0004455 17/11/2016 17/11/2036

48 21580

A METHOD OF ISOLATING OLEFINOLIGOMERIZATION PRODUCTS AND OF THEDECOMPOSITION OF OLIGOMERIZATION CATALYSTRESIDUES

GC0004456 17/11/2016 17/11/2036

49 21921 FILTER CLEANING APPARATUS GC0004457 17/11/2016 17/11/2036

50 22151 MULTI-ZONE FRACTURING COMPLETION GC0004458 17/11/2016 17/11/2036

51 17410

SEPARATION VESSELS FOR USE INPOLYMERIZATION PROCESSES AND METHODS FORCLEANING SAME

GC0004459 20/11/2016 20/11/2036

52 24680 ANTIMICROBIAL COMPOUNDS GC0004460 20/11/2016 20/11/2036

53 16741SILICA-COATED ALUMINA ACTIVATOR-SUPPORTSFOR METALLOCENE CATALYST COMPOSITIONS

GC0004461 21/11/2016 21/11/2036

54 17605REMOVAL OF ACID GASES FROM A GAS STREAM,WITH CO2 CAPTURE AND SEQUESTRATION

GC0004462 22/11/2016 22/11/2036

55 10517 5,6-DIHYDRO-1H-PYRIDIN-2-ONE COMPOUNDS GC0004463 22/11/2016 22/11/2036

56 5591 METHOD FOR PRODUCING AROMATIC CARBONATE GC0004464 23/11/2016 23/11/2036

57 15186ALKYLAMINO-SUBSTITUTED DICYANOPYRIDINESAND THEIR AMINO ACID ESTER PRODRUGS

GC0004465 23/11/2016 23/11/2036

ROCESS FOR THE OXIDATION OF GAS MIXTURE

58 10641 CONTAINING HYDROGEN CHLORIDE GC0004466 23/11/2016 23/11/2036

59 5830PROCESS FOR PRODUCTION OF AROMATICCARBONATE

GC0004467 23/11/2016 23/11/2036

60 12919FUSED HETEROCYCLIC DERIVATIVE AND USETHEREOF

GC0004468 23/11/2016 23/11/2036

61 10246 A PROCESS FOR PRODUCING ISOCYANATES GC0004469 23/11/2016 23/11/2036

62 14866 PROCESS FOR PREPARING POLYMETHYLOLS GC0004470 24/11/2016 24/11/2036

63 18019 STARTUP METHOD FOR FRACTIONATOR GC0004471 24/11/2016 24/11/2036

64 22810

SUPERABSORBENT POLYMERS WITH RAPIDABSORPTION PROPERTIES AND PROCESS FORPRODUCTION THEREOF

GC0004472 24/11/2016 24/11/2036

65 21670REVERSE OSMOSIS MEMBRANE FOR SEAWATERDESALINATION

GC0004473 24/11/2016 24/11/2036

66 14898SELECTIVE CATALYTIC HYDROGENATION OFALKYNES TO CORRESPONDING ALKENES

GC0004474 24/11/2016 24/11/2036

67 21387AZIMUTHAL BRITTLENESS LOGGING SYSTEMS ANDMETHODS

GC0004475 24/11/2016 24/11/2036

68 22990AN AEROSOL GENERATING DEVICE HAVING ANINTERNAL HEATER

GC0004476 24/11/2016 24/11/2036

69 20853EXHAUST GAS TREATMENT SYSTEM AND EXHAUSTGAS TREATMENT METHOD

GC0004477 27/11/2016 27/11/2036

70 14874Process for Producing Cement or CementSubst itutes

GC0004478 27/11/2016 27/11/2036

71 8738SHAPED POROUS BODIES OF ALPHA-ALUMINA ANDMETHODS FOR THE PREPARATION THEREOF

GC0004479 27/11/2016 27/11/2036

72 5960PSEUDO-BLOCK COPOLYMERS AND PROCESSEMPLOYING CHAIN SHUTTLING AGENT

GC0004480 28/11/2016 28/11/2036

73 18387 PROCESS FOR PRODUCING POLYETHEROLS GC0004481 29/11/2016 29/11/2036

74 19923PROCESS FOR THE PRODUCTION OF PROPYLENEOXIDE

GC0004482 29/11/2016 29/11/2036

75 22502 HEAT TUBE GC0004483 29/11/2016 29/11/2036

76 18442 SELF-ASSEMBLED SURFACTANT STRUCTURES GC0004484 29/11/2016 29/11/2036

77 21177 A WATER RECIRCULATION SYSTEM GC0004485 29/11/2016 29/11/2036

78 14538 MULTI LAYER FILM GC0004486 29/11/2016 29/11/2036

79 19256

USE OF COMPOUNDS CONTAINING ALUMINIUMOXIDE AND SILICON OXIDE FOR PRODUCING AHYDROPHILIC BUILDING PRODUCT

GC0004487 30/11/2016 30/11/2036

80 21344

METHODS TO INCREASE THE NUMBER OF FILTERSPER OPTICAL PATH IN A DOWNHOLESPECTROMETER

GC0004488 30/11/2016 30/11/2036

The Front Pages of Granted Patents

[12] Patent

[11] Patent No.:GC0004409 [45] Date of Publishing the Grant of the Patent: 30/Nov/2016 31/2016

Number of the Decision to Grant the Patent:2016/87374Date of the Decision to Grant the Patent:02/Nov/2016

[21] Application No.:GCC/P/2009/13379[22] Filing Date:29/4/2009[30] Priority:

[33] State[32] Priority date[31] Priority No.USUS

30/4/200818/3/2009

61/125,939PCT/US09/37550[72] Inventors:1- Harry W. Deckman،2- Preeti Kamakoti،3- Peter I. Ravikovitch،4- Bruce T. Kelley،5- Paul S.Northrop،6- Peter C. Rasmussen،7- Paul L. Tanaka،8-Martin N. Webster،9- Wieslaw J. Roth،10- Edward W.Corcoran[73] Owner: ExxonMobil Upstream Research Company,P.O. Box 2189, Houston, Texas 77252, USA[74] Agent: Saud M. A. Shawwaf Law Office

[51]IPC: Int. Cl.: B01D53/047 (2006.01) [56] Cited Documents:

US 5,700,310 A (BOWMAN et al) 23 December 1997- US 4,784,672 A (SIRCAR) 15 November 1988- Examiner: Eng. Abdulaziz S. AlMotek

[54] METHOD AND APPARATUS FOR REMOVAL OF OIL FROM UTILITY GAS STREAM [57] Abstract: The present application is directed to a method and system for preparing gaseous utility streams fromgaseous process streams, particularly, removing oil contamination from such streams prior to use in a dry gas seal. Themethods and systems may include at least one kinetic swing adsorption process including pressure swing adsorption,temperature swing adsorption, calcination, and inert purge processes to treat gaseous streams for use in dry gas sealsof rotating equipment such as compressors, turbines and pumps and other utilities. The adsorbent materials usedinclude a high surface area solid structured microporous and mesoporous materials. No. of claims: 35 No. of figures: 8

Note: Any interested individual may, within 3 months of publication of the grant, file objection thereof with the.Grievance Committee after payment of grievance fees

[12] Patent



[21] Application No.:GC 2011-18466[22] Filing Date:25/5/2011[30] Priority:

[33] State[32] Priority date[31] Priority No.US26/5/201061/348.578

[72] Inventors:1- Randy C. Tolman،2- Pavlin B. Entchev،3-Renzo M. Angeles Boza،4- Dennis H. Petrie،5- Kevin H.Searles[73] Owner: ExxonMobil Upstream Research Company,P.O. Box 2189, Houston, Texas 77252, USA[74] Agent: Saud M. A. Shawwaf Law Office

[51]IPC: Int. Cl.: E21B 43/00 (2011.01) [56] Cited Documents:US 2005/0241835 A1 (BURRIS, II et al) 03 November- 2005 Examiner: Eng. Imad A. AlAhaidib

[54] ASSEMBLY AND METHOD FOR MULTI-ZONE FRACTURE STIMULATION OF A RESERVOIR USINGAUTONOMOUS TUBULAR UNITS [57] Abstract: Autonomous units and methods for downhole, multi-zone perforation and fracture stimulation forhydrocarbon production. The autonomous unit may be a perforating gun assembly, a bridge plug assembly, or fracturingplug assembly. The autonomous units are dimensioned and arranged to be deployed within a wellbore without an electricwireline. The autonomous units may be fabricated from a friable material so as to self-destruct upon receiving a signal.The autonomous units include a position locator for sensing the presence of objects along the wellbore and generatingdepth signals in response. The autonomous units also include an on board controller for processing the depth signalsand for activating an actuatable tool at a zone of interest. No. of claims: 62 No. of figures: 8


[12] Patent





[72] Inventors:1- Krishnan Kumaran،2- Niranjan A.Subrahmanya،3- Pavlin B. Entchev،4- Randy C. Tolman،5-Renzo M. Angeles Boza[73] Owner: ExxonMobil Upstream Research Company,P.O. Box 2189, Houston, Texas 77252, USA[74] Agent: Saud M. A. Shawwaf Law Office

[51]IPC: E21B47/00 [56] Cited Documents:US 2005/0241835 A1 (BURRIS 11 et a1) 03 November-.2005 .US 5,705,812 A (BREWER et a1) 06 January 1998-Examiner: Eng. Imad A. AlAhaidib

[54] METHOD FOR AUTOMATIC CONTROL AND POSITIONING OF AUTONOMOUS DOWNHOLE TOOLS [57] Abstract: Methods and apparatus for actuating a downhole tool in a wellbore includes acquiring a CCL data set orlog from the wellbore that correlates continuously recorded magnetic signals with measured depth, and selects alocation within the wellbore for actuation of a wellbore device. The CCL log is then downloaded into an autonomous tool.The tool is programmed to sense collars as a function of time, thereby providing a second CCL log. The autonomoustool also matches sensed collars with the physical signature from the first CCL log and then self-actuates the wellboredevice at the selected location based upon a correlation of the first and second CCL logs. No. of claims: 34 No. of figures: 18


[12] Patent





4/6/20077/4/2008

60/933,00712/098,907[72] Inventors:1- Patrick Brant،2- Gary Lee Casty،3-Gabor Kiss،4- Raymond A. Cook،5- James R. Lattner[73] Owner: ExxonMobil Chemical Patents Inc, 5200Bayway Drive, Baytown, Texas 77520, USA[74] Agent: Saud M. A. Shawwaf Law Office

[51]IPC: Int. Cl.: C08F110/06; C08F2/06 (2006.01) [56] Cited Documents:US 6 218 488 B1 (SCHIFFINO RINALDO S [US] ET AL)-17 April 2001WO 2004/026923 A (EXXONMOBIL CHEM PATENTS-INC [US]; ARJUNAN PALANISAMY [US]; ZHANGSIMON) 1 April 2004WO 2004/026921 A ( EXXONMOBIL CHEM PATENTS-INC [US]; BRANT PATRICK [US]; LUFT GERHARD FRA) 1 April 2004Examiner: Bander M. Al-Thobity

[54] SUPER-SOLUTION HOMOGENOUS PROPYLENE POLYMERIZATION [57] Abstract: Processes for polymerizing propylene. About 40 wt% to about 80 wt% propylene monomer, based ontotal weight of propylene monomer and diluent, and about 20 wt% to about 60 wt% diluent, based on total weight ofpropylene monomer and diluent, can be fed into a reactor. The propylene monomer can be polymerized in the presenceof a metallocene catalyst and an activator within the reactor at a temperature of about 80°C or more and a pressure ofabout 13 MPa or more to produce a polymer product in a homogenous system. About 20 wt% to about 76 wt%(preferably About 28 wt% to about 76 wt%) propylene monomer, based on total weight of the propylene monomer,diluent, and polymer product, can be present at the reactor exit at steady state conditions. No. of claims: 5 No. of figures: 7


[12] Patent





[72] Inventors:1- Robert D. Denton،2- Russell J. Koveal,Jr.،3- Terry A. Ring،4- Dallas Noyes[73] Owners:1- ExxonMobil Upstream Research Company,P.O. Box 2189, Houston, Texas 77252, USA،2- SolidCarbon Products LLC, 1959 North 1450 East, Provo, Utah84604, USA[74] Agent: Saud M. A. Shawwaf Law Office

[51]IPC: Int. Cl.: C02F 9/04 (2006.01) [56] Cited Documents: CN 101885527 A (HAIFANG et al) 17 November 2010- US 4,490,258 A (HEIJNEN et al) 25 December 1984-Examiner: Faisal Abdulla Aljardan

[54] REMOVING CARBON NANOTUBES FROM A WATER STREAM [57] Abstract: Methods and a system for removing carbon nanotubes from a water stream are provided herein. Thesystem includes a purification vessel, wherein the purification vessel is configured to form a carbon oxide from thecarbon nanotubes within the water stream. No. of claims: 29 No. of figures: 14


[12] Patent




[33] State[32] Priority date[31] Priority No.US31/7/200861/137,485

[72] Inventors:1- John F. Szul،2- James H. McCain،3-Floyd L. Pfeffer،4- Harvey E. Andresen،5- Phillip R.Fairchild،6- Kent E. Newman[73] Owner: Dow Technology Investments LLC, 2020 DowCenter, Midland, Michigan 48674, USA[74] Agent: Saud M. A. Shawwaf Law Office

[51]IPC: Int. Cl.: B01D 3/14, 3/20, 3/22, 3/42; C07D 301/32 (2006.01) [56] Cited Documents:( us 3 216 177 A (BRACKEN ROBERT C ET AL - November 1965 09(US 3 094 401 A ( MAX LIDELL SWANTE - June 1963 18(US 4 033 617 A (COCUZZA GIOACCHINO ET AL - July 1977 05Examiner: Yahiya Naser Al-BuSafi

[54] ALKYLENE OXIDE PURIFICATION SYSTEMS [57] Abstract: Embodiments of the present disclosure provide processes, columns, and systems for removingacetaldehyde from alkylene oxide in a feed stream and for providing an alkylene oxide-water stream that can bedirectly transferred to a glycol reaction process. The alkylene oxide purification column includes a first section toconvert a feed stream into a gas phase portion and a liquid phase portion and a second section located in the columnabove the first section to separate alkylene oxide from the acetaldehyde, water, and other impurities that enter thesecond section from the first section. No. of claims: 10 No. of figures: 3


[12] Patent




[33] State[32] Priority date[31] Priority No.USUSUSSA

20/5/200420/5/200421/6/200421/5/2005

60/572.87660/572.78660/581.4634680/4680[72] Inventors:1- Robert O. Hagerty،2- Kevin B. Stavens،3- Marc L. DeChellis،4- Darryl B. Fischbuch،5- James M.Farley[73] Owner: Univation Technologies, LLC, San Felipe,Suite 1950, Houston 5555,, Texas 77056, USA[74] Agent: Saud M. A. Shawwaf Law Office

[51]IPC: Int. Cl.7: C08F10/02 [56] Cited Documents: US 5 405 922 A (DECHELLIS ET AL) 11 April 1995-

Examiner: Ali Ahmed Almulla

[54] POLYMERIZATION PROCESS [57] Abstract: The present invention relates to a continuous gas phase process comprising polymerizing one or morehydrocarbon monomer(s) in a fluidized bed reactor in the presence of catalyst system or polymerization catalyst and acondensable fluid for a period of at least 12 hours where the bed temperature is less than the Critical Temperature andthe dew point temperature of the gas composition in the reactor is within 25 °C of the bed temperature. No. of claims: 55 No. of figures: 2


[12] Patent




[33] State[32] Priority date[31] Priority No.USUSUS

5/10/200622/8/200625/9/2006

60/850,12760/839,36511/534,983[72] Inventors:1- ROBERT C. HENSCHEL،2- WINSIDES،3- JASON C. MAILAND،4- RAM, Siya،5-SWEETNAM, Paul،6- KIRK, Brian،7- WANG, Junru،8-FU, Junru،9- BOERMA, Marjan،10- HAUER-JENSEN,Martin،11- MARIO ROBLES،12- ADRIAN V. SARAN[73] Owner: BJ SERVICES COMPANY, 4601 Way West,Park Boulevard , Houston, Texas ,77041, USA[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: E21B34/06; E21B34/10 (2006.01) [56] Cited Documents:US 3 375 874 A (CHERRY VONNER R ET AL)2 April- 1968

Examiner: Eng. Ahmed Saleem AlHinai

[54] METHOD AND APPARATUS FOR RETAINING A SOFT SEAL IN AN INTEGRATED FLAPPER MOUNT,HARD SEAT,SPRING HOUSING SURFACE CONTROLLED SUBSURFACE SAFETY VALVE [57] Abstract: Presented is a subsurface safety valve in which the flapper mount, hard seat and spring housing havebeen integrated into a single assembly. To accommodate a “soft seat insert,” a special retainer soft seat ring and softseat seal are provided. The soft seat seal fits over a conical 5 protruding surface (hard seat) that surrounds the mainbore of the safety valve on the bottom side of the spring housing. The retainer ring fits over the soft seat seal and holdsit in place against the conical surface. Notches along the perimeter of an upper flanged end of the soft seat seal preventgases, such as nitrogen, from becoming trapped behind the seal and potentially damaging it during a rapiddecompression event. A gap between the upper flanged end of the soft seat seal 10 and the lower spring housing allowthe seal to move up and down the conical protruding surface as the flapper opens and closes, reducing compression ofthe seal and the risk of a compression No. of claims: 15 No. of figures: 5


[12] Patent




[33] State[32] Priority date[31] Priority No.DEUSUS

22/12/20065/10/200622/12/2006

102006062258.860/850,12760/871.529[72] Inventors:1- Gunter Lipowsky،2- Frank Hofer،3-Ulrich Jager،4- Sylke Haremza،5- Klaus Joachim Muller-Engle،6- Peter Zurowski،7- Steffen Rissel،8- VolkerSchliephake[73] Owners:1- Stone & Webster, Inc., 1430 EnclaveParkway, Houston, 77077, Texas, USA،2- BASFAKTIENGESELLSCHAFT, 67056, Ludwigshafen,Germany[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: C07C 57/07, 57/075; C09K 15/00 (2006.01) [56] Cited Documents:EP 1 034 824 A (NIPPON CATALYTIC CHEM IND-[JP]) 13 September 2000 DE 103 36 386 A1 (BASF AG [DE]) 04 March 2004-US 2005/074563 A1 (TATSUZANA MASAHIRO [JP] ET- AL) 07 April 2005Examiner: Bander M. Al-Thobity

[54] PROCESS FOR TRANSFERRING HEAT TO A LIQUID MIXTURE COMPRISING AT LEAST ONEMETHACRYLIC MONOMER [57] Abstract: A process for transferring heat to a liquid mixture comprising at least one (meth)acrylic monomer in anindirect heat exchanger, wherein a quaternary ammonium salt, a tertiary amine or a salt thereof with a Bronsted acid isadded to the liquid mixture to reduce fouling. No. of claims: 15


[12] Patent




[33] State[32] Priority date[31] Priority No.EP20/12/200707150212.4

[72] Inventors:1- PENTTI Ismo،2- SAUKONOJA Jouni ،3-PAKALA Timo ،4- MANNERLA Anja[73] Owner: Borealis Technology Oy, Porvoo, Finland[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: B01D 53/40 (2006.01) [56] Cited Documents: US 3456709 A (A VEGEBY) 22 July 1969- US 4364910 A (WILLEN et al) 21 December 1982-WO 20061113639 A21EISENMANN CORPORATION)- 26 October 2006US 2003/0089242 A1 (WAKAMATSU et al.) 15 May 2003- -US 3785127 A (MARE) 15 January 1974US 3781407 A (TATSUO KAMIJO et al.) 25 December- 1973 US 5120902 A (TAGAMOLILA et al.) 09 June 1992-Examiner: Eng. Abdulaziz S. AlMotek

[54] TREATMENT OF AIR [57] Abstract: The present invention concerns a process for removing impurities from air to be used in the oxidation ofcumene, which process comprises providing an air feed containing air and at least one acidic component, contacting theair with an aqueous caustic solution, which contains at least one alkaline compound whereby to neutralize the acidiccomponents in the air feed, e.g. to form inorganic salts, separating a first purified air stream from the caustic solution,contacting the first purified air stream with fresh water to dissolve residual caustic solution and/or salts in the water, andseparating a second purified air stream from the water containing residual caustic solution and salts. Further, thepresent invention concerns a purification column for use in purifying air. No. of claims: 10 No. of figures: 1


[12] Patent




[33] State[32] Priority date[31] Priority No.FR14/2/20080850947

[72] Inventors:1- Daines-Martinez Catherine،2- SchrotterJean-Christophe،3- Breant Philippe[73] Owner: Veolia Water Solutions & TechnologiesSupport, LAquarene-1, place Montglfler, 94417, Saint-Maurice, Cedex, France[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: C02F 1/44, 9/02, 9/14 (2006.01) [56] Cited Documents: DE 100 04 590 Al (MAIER JOSEPH [DE]) 31 May 2001- FR 2 788 054 A (ANJOU RECH [FR]) 7 July 2000-EP 0 520 920 A (HYDREX TRAITEMENTS [FR]) 30- December 1992Examiner: Eng. Abdallah I. AlKhatib

[54] WATER TREATMENT PROCESS VIA A NANOFILTRATION OR REVERSE OSMOSIS TYPE MEMBRANESYSTEM ENABLING HIGH CONVERSION RATES DUE TO ORGANIC MATTER REMOVAL [57] Abstract: The invention relates to a treatment process for fresh water, seawater or water from a treatment plantcontaining organic matter, for its potabilisation, its desalinisation, its recycling or for its purification for an industrialapplication, the aforementioned process comprising at least a first stage (11) of filtration via nanofiltration or reverseosmosis of a flow from a primary treatment stage (10) and a second stage (13) of filtration via nanofiltration or reverseosmosis of a concentrate from the aforementioned first stage of filtration (11).According to the invention, such a processcomprises an intermediary stage of treatment (12, 12’’) including a biological treatment and/or oxidation and/or low pHcoagulation of the aforementioned concentrate from the aforementioned first stage (11) of filtration and/or of theaforementioned concentrate from the aforementioned second stage (13) of filtration. No. of claims: 4 No. of figures: 3


[12] Patent




[33] State[32] Priority date[31] Priority No.PCT8/4/2008US2008/059655

[72] Inventors:1- Bittar ,Michael S،2- Hu, Guoyu ( David)،3- Smollinger,Glenn[73] Owner: Halliburton Energy services,Inc, 10200Bellaire Boulevard, Texas 77072, Houston, USA[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: G01V 3/00, G01V 3/24 (2006.01) [56] Cited Documents:US 6.600.321 B2 (EVANS) 29 July 2003-US 2007/0046290 A1 (BESPALOV BI 31.) 01 March 2007- Examiner: Eng. Mohammed A. AlJaafar

[54] METHODS AND APPARATUS WITH HIGH RESOLUTION ELECTRODE CONFIGURATION FORIMAGING IN OIL-BASED MUDS [57] Abstract: Various disclosed resistivity imaging tools and methods provide a high-resolution electrode configurationfor imaging in oil-based muds. Some tool embodiments have a sensing surface that comprises: a measurementelectrode, a focus electrode surrounding the measurement electrode, and a return electrode surrounding the focuselectrode. The sensing surface can be provided on an extendable sensor pad or on the wall-contacting portion of astabilizer. Some method embodiments include measuring the measurement electrode current while driving a voltagesignal between the measurement electrode and the return electrode. The voltage signal may simultaneously orsequentially provide energy at different frequencies. The resistivity measurements are combined with tool position andorientation measurements to form a borehole wall image. Robust and reliable performance is expected in the hostileconditions often experienced by logging while drilling (LWD) tools, coupled with the ability to make micro-resistivitymeasurements with a resolution approaching that of electrode-grid tool designs. No. of claims: 23 No. of figures: 11


[12] Patent





[72] Inventors:1- Duan, Ping،2- McEIfresh, Paul M[73] Owner: Baker Hughes Incorporated, Allen ParkwaySuite 2100 , Houston, USA[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: E21B43/08; E21B43/10 (2006.01) [56] Cited Documents:US 2007-0240877 Al (O'MALLEY et al.) 18 October 2007-US 7048048 B2 (NGUYEN et al.) 23 May 2006-US 6043290 A (PETRELLA) 28 March 2000- US 5910357 A (HACHI SUK.A et al .)08 June 1999-Examiner: Eng. Imad A. AlAhaidib

[54] SHAPE MEMORY POLYURETHANE FOAM FOR DOWNHOLE SAND CONTROL FILTRATION DEVICES [57] Abstract: Filtration devices may include a shape-memory material having a com¬pressed run-in position or shapeand an original expanded position or shape. The shape-memory material may include an open cell porous rigidpolyurethane foam material held in the compressed run-in position at the temperature below glass transitiontemperature (Tg). The foam material in its compressed run-in position may be covered with a fluid-dissolvablepolymeric film and/or a layer of fluid-degradable plastic. Once filtration devices are in place in downhole and arecontacted by the fluid for a given amount of time at temperature, the devices may expand and totally conform to theborehole to prevent the production of undesirable solids from the formation. No. of claims: 7 No. of figures: 2


[12] Patent





[72] Inventors:1- Luyken, Hermann،2- Ahrens,Sebastian،3- Brasche,Gordon،4- Baldamus,Jens،5- Baumann,Robert،6- Hugo,Randolf،7- Jaegli, Stephanie،8-Melder,Johann- Peter،9- Pastre,Jörg،10- Buschhaus,Boris[73] Owner: BASF SE, 67056 , Ludwigshafen, Germany[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: C07C 209/48, 231/10, 253/00 (2006.01) [56] Cited Documents:WO 2808/104582 A2 (BASF SE [DE]; DAHMEN KI-RSTEN [DE]; OFTRI NG ALF RED (DE]; BAUMAN N KATRI N)4 September 2008US 3 947 522 A (SH ELLEY JR RALPH R ET A L) 30- March 1976Examiner: Faisal Abdulla Aljardan

[54] PROCESS FOR PREPARING EDDN AND/OR EDMN [57] Abstract: A process for preparing EDDN and/or EDMN by conversion of FA, HCN and EDA, the reaction beingeffected in the presence of water, and, after the conversion, water being depleted from the reaction mixture in adistillation column, which comprises performing the distillation in the presence of an organic solvent which has a boilingpoint between water and EDDN and/or EDMN at the distillation pressure existing in the column or which forms a low-boiling azeotrope with water. No. of claims: 18 No. of figures: 4


[12] Patent





[72] Inventors:1- Ashok S. Padia،2- Hassan Eisa Al-Ahmadi[73] Owner: Scientific Design Company, Inc, 49 IndustrialAvenue, Little Ferry NJ 07643, USA[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: C07D301/08; C07D301/10 (2007.01) [56] Cited Documents:US 2010/267974 Al (ZHANG LI PING [US] ET AL) 21- October 2010US 2010/267975 Al (HABENSCHUSS MI CHAEL [US]- ET AL) 21 October 2010EP 0 352 850 A1 (SHELL INT RESEARCH [NL]) 31-January 1990US 2010/267973 Al (LIU ALBERT C [US] ET AL) 21- October 2010WO 03/044002 Al (SHELL OI L CO [US]; BAKER-DAVID SCOTT [US]; KOBE J EFFREY MI CHAEL [US];) 30 May 2003WO 2004/002972 A2 (SHELL OI L CO [US]; LOCKEM-EYER JOHN ROBERT [US]; EVANS WAYN E ERROL [US]) 8 January 2004US 2011/152549 Al (RIZKALLA NABI L [US] ET AL) 23- June 2011Examiner: Eng. Abdallah I. AlKhatib

[54] EPOXIDATION PROCESS WITH ADDED MODERATOR [57] Abstract: A method for the epoxidation of an olefin comprising the steps of reacting a feed gas compositioncontaining an olefin, oxygen, and a moderator having an optimal moderator concentration in the presence of anepoxidation catalyst at a first temperature and having a first selectivity; and increasing the optimal moderatorconcentration to a second moderator concentration and whereby the first selectivity is lowed to a second selectivity andthe first temperature to a second temperature. No. of claims: 14 No. of figures: 3


[12] Patent





[72] Inventors:1- Andreas Hartmann،2- Christian Fulda،3-Hans-Martin Maurer[73] Owner: Baker Hughes Incorporated, 2929 AllenParkway, Suite 2100, Texas 77019, Houston, USA[74] Agent: Saba & Co. T.M.P

[51]IPC: E21B 47/024; G01V 3/28, 3/38 [56] Cited Documents:.US 7,268,555 B1 (Rabinovich et a1.) 11 September 2007- .US 20050143920 A1 (BARBER et al.) 30 June 2005-Examiner: Eng. Imad A. AlAhaidib

[54] MISALIGNMENT COMPENSATION FOR DEEP READING AZIMUTHAL PROPAGATION RESISTIVITY [57] Abstract: An apparatus and method for estimating a parameter of interest of an earth formation involvingalignment information between receivers and their corresponding oriented transmitters. The method may includegenerating signals indicative responses to energy transmitted into an earth formation; estimating differences inalignment between transmitters and receivers; using the estimated differences in alignment to compensate formisalignment; and estimating a parameter of interest using the misalignment compensated signals. The apparatus mayinclude a bottom hole assembly with one or more oriented transmitters, one or more oriented receivers, one or morealignment sensors, and at least one processor configured to compensate for misalignment using information aboutdifference in alignment between the at least one oriented transmitter and at least one oriented receiver. No. of claims: 16 No. of figures: 8


[12] Patent





[72] Inventors:1- ANDTSJO Henrik،2- AARNI-SirvioMaarit[73] Owner: Borealis Technology Oy, Porvoo, Finland[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: C02F1/04; C02F1/26; C07C37/72 (2006.01) [56] Cited Documents:EP 0 717 024 A1 (ENICHEM SPA [IT]) 19 June 1996-EP 1 256 561 A1 (PHENOLCHEMIE GMBH & Co KG)-13 November 2002WO 2005/102936 A (BAYER MATERIALSCIENCE AG-[DE]; BLASCHKE ULRICH [DE]; NESTERNACHER STEF) 03 November 2005Examiner: Eng. Abdulaziz S. AlMotek

[54] REMOVAL OF HYDROCARBONS FROM AN AQUEOUS STREAM [57] Abstract: The present invention concerns a process for the removal of hydrocarbons from an aqueous stream,which process comprises conducting a phenol-containing water stream into a separation column (2), separating thephenol-containing water in the column using heat to form an overhead portion and a bottoms portion, and collecting theoverhead portion as well as the bottoms portion. Further, the process comprises adding an eluent to an aqueous stream,thereby forming an aqueous mixture, subsequently conducting the aqueous mixture into a separation vessel (1), whereinit is allowed to settle into two phases, which form a hydrocarbon stream and a phenol-containing water stream,subsequently collecting the hydrocarbon stream, and conducting the phenol-containing water stream to the separationcolumn for further separation. No. of claims: 10 No. of figures: 1


[12] Patent




[33] State[32] Priority date[31] Priority No.FI27/4/200720075295

[72] Inventor: Mika Helisten[73] Owner: Abloy Oy, Wahlforssinkatu 20, 80100,Joensuu, Finland[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: E05B47/06, 15/10, 47/00 (2011.01) [56] Cited Documents:DATABASE EPODOC EUROPEAN PATENT OFFICE,-THE HAGUE, NL; to achieve reduced power consumption20 March 2007US 1 377 061 A (GUSTAV DEEG) 03 May 1921- EP 1 355 028 A (SAVIO .SPA [IT]) 22 October 2003-Examiner: Eng. Fahad M. AlBaker

[54] DOOR LOCK REDUCES ELECTRICAL ENERGY NEEDED [57] Abstract: This invention relates to a door lock comprising a lock body (3) fitted with a front plate and a dual-actionbolt (4). The transfer of external force to the locking piece (5) in the lock body is reduced. The reduction of externalforce is arranged in two stages of transmission. At the first stage of transmission, the transmitted force is reduced usinga wedge part (10) that is in force transmission contact with a lever (11). The second stage of transmission constitutesthe lever. No. of claims: 16 No. of figures: 9


[12] Patent




[33] State[32] Priority date[31] Priority No.PCT12/12/2008PCT/IB2008/055261

[72] Inventors:1- Christian, HUBSCHWERLEN،2-Georg, RUEEDI،3- Jean-Philippe, SURIVET،4-Cornelia, ZUMBRUNN ACKLIN[73] Owner: Actelion Pharmaceuticals Ltd, Gewerbestrasse16 , Allschwil 4123, Switzerland[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: C07D 491/056, 497/04, 519/00; A61K 31/4375,31/498; A61P 31/04 (2006.01) [56] Cited Documents:W0 2006125974 Al (ASTRAZENECA AB [SE];-ASTRAZENECA UKLTD [GB]; RECK FOLK.ERT [US]; MORNI) 30NOVEMBER 2006[; W0 2006032466 A2 (ACTELION PERCUREX AG [CH-

HUBSCHWERLEN CHRISTIAN [FR]; SURIVET JEAN-P) 30 MARCH2006W0 2004/089947 A2 (MORPHOCHEM AG [DE];-HUBSCHWERLENCHRISTIAN [FR]; SURIVET JEAN PHILLIPP) 21 OCTOBER 2007Examiner: PH. Abrar AlSaleem

[54] 5-AMINO-2-1-HYDROXY-ETHYL-TETRAHYDROPYRAN DERIVATIVES [57] Abstract: The invention relates to antibacterial compounds of formula I IwhereinR1 represents alkoxy (notablymethoxy);R2 represents H or F;each of R3, R4, R5 and R6 represents independently H or D;V represents CH and Wrepresents CH or N or V represents N and W represents CH;Y represents CH or N;Z represents O, S or CH2; andArepresents CH2, CH2CH2 or CD2CD2;and salts of such compounds. No. of claims: 17


[12] Patent



[21] Application No.:GC 2010-15227[22] Filing Date:6/2/2010[72] Inventors:1- Philippe BOURGOIN،2- PeterBENKO،3- Roger NUTZI،4- AleksandraSAMULEWICZ[73] Owner: Philip Morris Products S. A., Netherlands[74] Agent: Saba & Co. T.M.P

[51]IPC: B65D5/38, 5/72 [56] Cited Documents:US 2058710 A ( MONTGOMERY HANNA T) 27 October-1936DE 1275940 B ( ERHARDT WALTHER ) 22 Augut 1968-CH 180218 A ( WALMENMAIER WILHELM ) 15-October 1935 Examiner: Eng. Fahad M. AlBaker

[54] DUAL COMPARTMENT SLIDE AND SHELL CONTAINER [57] Abstract: A multi-compartment slide and shell container (2) comprises: an outer shell (4); and an inner slide (6)having a first compartment (38) with a first access opening and a second compartment (40) with a second accessopening. The inner slide (6) is slidable within the outer shell (4) between a closed position in which the first and secondaccess openings are occluded by the outer shell (4) such that the interiors of the first (38) and second (40) compartmentsare inaccessible and an open position in which the interiors of the first (38) and second (40) compartments are bothaccessible. In the open position, the second access opening of the inner slide (6) is substantially aligned with a thirdaccess opening (20) provided in the outer shell (4) such that the second compartment (40) of the inner slide (6) isaccessible through the second and third (20) access openings. The inner slide (6) may be slidable within the outer shell(4) between the closed position and the open position via an intermediate position in which the interior of one of the first(38) and second (40) compartments is inaccessible and the interior of the other of the first (38) and second (40)compartments is accessible. No. of claims: 15 No. of figures: 10


[12] Patent




[33] State[32] Priority date[31] Priority No.DE29/1/2010102010006331.2

[72] Inventors:1- Jorg Hinrich FECHNER،2- ChristofKASS،3- Franz OTT[73] Owner: Schott AG, Bergstrase 55122,10, Mainz,Germany[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: C03C3/087; C03C3/112; C03C3/118;H01L31/0392 (2011.01) [56] Cited Documents:WO 2009/154314 A1 (NIPPON ELECTRICGLASS Co)-23 December 2009EP 2 299 536 A1 (NIPPON ELECTRIC GLASSCo [JP])- 23 March 2011Examiner: Eng. Yusuf AlRaqabi

[54] PHOTOVOLTAIC CELL HAVING A SUBSTRATE MADE OF ALUMINOSILICATE GLAS [57] Abstract: The invention relates to a photovoltaic cell, preferably a thin-film photovoltaic cell, having a substrateglass made of aluminosilicate glass, comprising a glass composition which has SiO2 and Al2O3 as well as the alkalineoxide Na2O and the alkaline earth oxides CaO, MgO, and BaO, and optionally further components, the glasscomposition containing 10 to 16 wt.-% Na2O, > 0 to < 5 wt.-% CaO, and > 1 to 10 wt.-% BaO, and the ratio ofCaO:MgO being in the range of 0.5 to 1.7. The aluminosilicate glass used according to the invention is crystallizationstable because of the selected quotient of CaO/MgO and has a transformation temperature Tg > 580°C and aprocessing temperature VA < 1200°C. Therefore, it represents a more thermally stable alternative to soda-lime glass.The object of the invention is also the use of the aluminosilicate glass as a substrate glass, superstrate glass, and/orcover glass for a photovoltaic cells, preferably for thin-film photovoltaic cells, in particular those based onsemiconductor composite material, such as CdTe, CIS, or CIGS. No. of claims: 12


[12] Patent



[21] Application No.:GC 2011-18137[22] Filing Date:9/4/2011[72] Inventors:1- Jean-Marc RENAUD،2- Jean-JacquesPIADÉ،3- Jacques ZUBER،4- Fabien ZUCHUAT ،5- AnuAJITHKUMAR،6- Samuel BONNELY،7- JohannesPetrus Maria PIJNENBURG[73] Owner: Philip Morris Products S.A, Kwai JaneRenaud 3, CH -2003 , Neuchatel, Switzerland[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: A24B 15/12; A24D 1/00 (2006.01) [56] Cited Documents:US 4981522A (PHILIP MORRIS PROD. INC.) 01-January l99lWO 2009022232A2 (PHILIP MORRIS PROD. S. A, et-al.) 19 February 2009WO 2005044026Al (BRITISH AMERICAN 1--14TOBACCO CO. LTD., et al.) 19 May 2005EP 0509657Al (PHILIP MORRIS INC., et al.) 21- 1October 1992Examiner: Yahiya Naser Al-BuSafi

[54] AEROSOL-GENERATING SUBSTRATE FOR SMOKING ARTICLES [57] Abstract: (Figure 1)Strands of homogenised tobacco material comprising at least one aerosol former are provided,together with an aerosol-generating substrate comprising a plurality of the strands of homogenised tobacco material anda smoking article comprising the aerosol-generating substrate. The strands of homogenized tobacco material have amass to surface area ratio of at least about 0.09 mg/mm2 and an aerosol former content of between about 12% andabout 25% by weight. No. of claims: 14 No. of figures: 8


[12] Patent





[72] Inventors:1- Jonathan F. NELSON،2- Gregory L.HERN[73] Owner: Baker Hughes Incorporated, 2929 AllenParkway Suite 2100 Texas 77019, Houston, USA[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: E21B 31/06 (2006.01) [56] Cited Documents:WO 2009-002185 A1 (M-I SWACO NORGE AS et a1.)-31 December 2008US 7219724 B2 (THERIOT, SR.,CLAYTON) 22 May-2007WO 2009-009456 A1 (WELLBORE ENERGY-SOLUTIONS, LLC et a1.) 15 January 2009 US 3637033 A (WILLIAM MAYALL) 25 January 1972-Examiner: Eng. Mohammed A. AlJaafar

[54] MAGNETIC RETRIEVAL APPARATUS AND METHOD FOR RETAINING MAGNETS ON DOWNHOLEMAGNETIC RETRIEVAL APPARATUS [57] Abstract: Magnetic retrieval tools for use in a wellbore or other tubular member to remove metallic debris. Amagnetic retrieval tool includes a tool body having a central shaft with a plurality of ribs that project radially outwardlytherefrom. The ribs present lateral sides that have recesses formed therein. Magnet bars are retained within therecesses by wedge members and retaining rings. The magnet bars include a hollow protective housing that encloses aplurality of magnets. Retaining plugs are used to secure the magnets within the housing. No. of claims: 16 No. of figures: 12


[12] Patent





22/6/201012/5/2011

61/357,31113/106,032[72] Inventors:1- Michael S. BITTAR،2- Jing LI[73] Owner: Halliburton Energy Services,Inc, 10200 PlayerBoulevard, Houston , Houston, Texas 77072, USA[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: G01V3/26 (2006.01) [56] Cited Documents:US 5,200,705 A (Brian Clark et a l.) 06 April 1993-US 2003/0137301 A l (Larry Thompson et al.) 24 July-2003 Examiner: Eng. Imad A. AlAhaidib

[54] METHODS AND APPARATUS FOR DETECTING DEEP CONDUCTIVE PIPE [57] Abstract: Downhole tools and techniques acquire information regarding nearby conductors such as pipes, wellcasing, and conductive formations. At least some method embodiments provide a current flow along a drill string in aborehole. The current flow disperses into the surrounding formation and causes a secondary current flow in the nearbyconductor. The magnetic field from the secondary current flow can be detected using one or more azimuthally-sensitiveantennas. Direction and distance estimates may be obtainable from the azimuthally-sensitive measurements, and can beused as the basis for steering the drillstring relative to the distant conductor. Possible techniques for providing currentflow in the drillstring include imposing a voltage across an insulated gap or using a toroid around the drillstring to inducethe current flow. No. of claims: 18 No. of figures: 9


[12] Patent





22/6/201026/5/2011

61/357,32013/116,069[72] Inventors:1- Michael S. BITTAR،2- Jing LI،3-Shanjun LI،4- Michael D. FINKE[73] Owner: Halliburton Energy Services,Inc, 10200 PlayerBoulevard, Houston , Houston, Texas 77072, USA[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: E21B47/022; E21B47/02 (2006.01) [56] Cited Documents:US 5,200,705 A (Brian Clark et a1.) 06 April 1993- US 6,405,136 B1 (Qiming Li et a1.) 11 June 2002-Examiner: Eng. Imad A. AlAhaidib

[54] SYSTEMS AND METHODS FOR EM RANGING IN OIL-BASED MUD BOREHOLE [57] Abstract: Nearby conductors such as pipes, well casing, etc., are detectable from within a borehole filled with an oil-based fluid. At least some method embodiments provide a current flow between axially-spaced conductive bridges on adrillstring. The current flow disperses into the surrounding formation and causes a secondary current flow in the nearbyconductor. The magnetic field from the secondary current flow can be detected using one or more azimuthally-sensitiveantennas. Direction and distance estimates are obtainable from the azimuthally-sensitive measurements, and can beused as the basis for steering the drillstring relative to the distant conductor. Possible techniques for providing currentflow in the drillstring include imposing a voltage across an insulated gap or using a toroid around the drillstring to inducethe current flow. No. of claims: 22 No. of figures: 9


[12] Patent





[72] Inventors:1- Manoj M. Koranne،2- Erling Rytter،3-Sigrid Eri،4- Oyvind Borg[73] Owner: W.R.GRACE & CO.CONN, 7500 GraceDrive, Columbia, Maryland 21044, USA[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: B01J21/02 (2006.01) [56] Cited Documents:JianJun Guo et al., ' Improvement of stability of out-layer-MgAl2O4 spinel for a Ni/MgAl2O4/Al2O3catalyst in dry reforming of methane 2005Wrzyszcz et al., ' Some catalytic properties of-hydrothermally synthesised zinc aluminate spinel, 9 March 2001Examiner: Sarah Fahad Al-Dossary

[54] ATTRITION RESISTANT SUPPORTS FOR FISCHER-TROPSCH CATALYST AND PROCESS FORMAKING THE SAME [57] Abstract: The invention relates to a novel method of preparing attrition resistance spinel supports forFischerTropsch catalysts. The process comprises: (a) combining aluminum oxide, metalcompound capable of forming spinelphase, and soluble compound of a trivalent aluminum; (b)mixing the combination resulting in (a) in a manner sufficient toform a slurry comprising theaforementioned combination; and (c) processing the mixture of (b) under conditionssufficient toform metal aluminate spinel composition. Metal aluminate spinel, for example, is formed in thelast step bycalcining the mixture from (b) at a temperature in the range of 700 to 1300°C, but theprocess is also capable, ofproducing attrition resistant supports (e.g., having a DI of 5 or less) ata relatively lower temperature in the range of 700to 1050°C. The invention also produces theattrition resistance with lower metal loadings than that reported for priorattrition resistant spinelsupports. No. of claims: 16 No. of figures: 1


[12] Patent





[72] Inventor: Andreas Nicholas MATZAKOS[73] Owner: Shell Internationale Research MaatschappijB.V, Carel van Bylandtlaan 30, 2596 HR, Den Haag,Netherlands[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: E21B 43/20; C09K 8/58 (2006.01) [56] Cited Documents:US 2009/071648 A1 (HAGEN DAVID L [US] ET AL) 19-March 2009US 4 415 032 A (SHU WINSTON R [US]) 15 November- 1983Examiner: Eng. Ebrahim AlQurashi

[54] SYSTEMS AND METHODS FOR SEPARATING OIL AND/OR GAS MIXTURES [57] Abstract: A system for producing oil from an underground formation comprising a well above the formation; amechanism to inject an enhanced oil recovery formulation into the formation, the enhanced oil recovery formulationcomprising water and a solvent; a mechanism to produce the water, solvent, oil, and gas from the formation; a separatorto separate the oil, water, and a first portion of the solvent from the gas and a second portion of the solvent; and anabsorption tower to expose the gas and the second portion of the solvent to water to remove the second portion of thesolvent from the gas. No. of claims: 16 No. of figures: 4


[12] Patent




[33] State[32] Priority date[31] Priority No.EP8/6/2009PCT/EP2009/057024

[72] Inventors:1- GRIFFITHS, Ian James،2- GIGLIO,Antonio،3- CAVENAGHI, Luca[73] Owner: Prysmian S.p.A., Viale Sarca 222-2016, Milano(MI)- Italy, Milano, Italy[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: G02B6/44, G02B6/38 (2006.01) [56] Cited Documents:US 7 244 066 82 (THEUERKO RN THOMAS [US]) 17- Jul y 2007US 2009/057010 Al (SCHERER RICHA RD J [US] ET- AL) 5 March 2009US 5 836 061 A (CASTILLO G ILBERT [US] ET AL) 17- November 1998Examiner: Eng. Ebrahim AlObody

[54] PRE-CONNECTORIZED OPTICAL FIBRE CABLE, AND KIT FOR THE DEPLOYMENT THEREOF [57] Abstract: An optical fiber cable, comprising at least one optical fiber (110) and a cable connector (105) at a cableend, and a removable cap (170) removably couplable to a free end of the cable connector. The cap comprises a recess(185) adapted to receiving and accommodating an anchor element (410) of a cable pulling rope (400), and to retain theanchor element against traction when the pulling rope is tractioned. No. of claims: 9 No. of figures: 5


[12] Patent





[72] Inventors:1- Alicia REGUEIRO-REN،2- Zheng LIU،3- Jacob SWIDORSKI،4- Ny SIN،5- Brian LeeVENABLES،6- Sing-Yuen SIT،7- Yan CHEN ،8- JieCHEN،9- Nicholas A. MEANWELL[73] Owner: BRISTOL-MYERS SQUIBB COMPANY,Route 206 and Province Line Rd, Princeton, New Jersey08543, USA[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: INV. C07J63/00 A61 K31/56 A61 P31/18 (2011.01) [56] Cited Documents:WO 2009/100532 Al (VI ROCH EM PHARMA INC- [CA]; MO IN ET CHRISTOPH E [CA]) 20 August 2009WO 2011/153315 Al (SQUI BB BRI STOL MYERS co-[US]; REGU EI RO- REN ALI CIA [US]; SWIDORSKI JACO) 8 December 2011WO 2011/153319 Al (SQUI BB BRI STOL MYERS co-US]; REGU EI RO- REN ALI CIA [US]; LI U ZHENG] [US]) 8 December 2011Examiner: PH. Bashair Z. AlEnizi

[54] C-17 AND C-3 MODIFIED TRITERPENOIDS WITH HIV MATURATION INHIBITORY ACTIVITY [57] Abstract: Compounds having drug and bio-affecting properties, their pharmaceutical compositions and methods ofuse are set forth. In particular, C-17 and C-3 modified triterpenoids that possess unique antiviral activity are providedas HIV maturation inhibitors, as represented by compounds of Formulas I, II and III: ; ; and .These compounds areuseful for the treatment of HIV and AIDS. No. of claims: 16


[12] Patent




[33] State[32] Priority date[31] Priority No.JP30/3/20112011-074247

[72] Inventor: Shinya ARAI[73] Owners:1- Japan Oil, Gas and Metals NationalCorporation, 2-10-1, Toranomon, Minato-ku, Tokyo,Japan،2- Inpex Corporation, 5-3-1, Akasaka, Minato-ku,Tokyo, Japan،3- JX Nippon Oil & Energy Corporation, 6-3, Otemachi 2-chome, Chiyoda-ku, Tokyo, Japan،4- JapanPetroleum Exploration Co.Ltd, 7-12 Marunouchi 1-chome,Chiyoda-ku, Tokyo, Japan،5- Cosmo Oil Co,Ltd, 1-1-1,Shibaura, Minato-ku, Tokyo, Japan،6- Nippon SteelEngineering Co,Ltd, 5-1, Osaki 1-chome, Shinagawa-ku,Tokyo, Japan[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: B01J8/00; B01J8/22; B01J19/00; C07C1/04;C07C9/00; C10G2/00; C10G3/00 (2006.01) [56] Cited Documents:DE 28 07 422 Al (THYSSEN GAS; DIDIER ENG) 30- August 1979US 2003/125395 Al (STEYNBERG AND RE PETER- [ZA]) 3 July 2003US 4 407 974 A (FLOCKENHAUS CLAUS [DE] ET AL)- 4 October 1983Examiner: Eng. Ebrahim AlQurashi

[54] TEMPERATURE CONTROL SYSTEM, HYDROCARBON SYNTHESIS REACTION APPARATUS,HYDROCARBON SYNTHESIS REACTION SYSTEM, AND TEMPERATURE CONTROL PROCESS [57] Abstract: The temperature control system is provided with a lower heat removing unit which is disposed at thebottom of a reactor in which an exothermic reaction takes place inside and through which a liquid coolant is flowed, andan upper heat removing unit which is disposed in the reactor further above from the lower heat removing unit andthrough which the liquid coolant is flowed, recovering reaction heat inside the reactor and controlling a temperatureinside the reactor. The lower heat removing unit is supplied with the liquid coolant which is adjusted for temperature bya first temperature adjustment unit, and the upper heat removing unit is supplied with the liquid coolant which isadjusted for temperature by a second temperature adjustment unit different from the first temperature adjustment unit. No. of claims: 11 No. of figures: 12


[12] Patent





[72] Inventor: FORGANG, Stanislav[73] Owner: Baker Hughes Incorporated, 2929 AllenParkway, Suite 2100, Texas 77019, Houston, USA[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: E21B47/00; G01V9/00 (2006.01) [56] Cited Documents:US 6661375 B2 ( RICKETT et a l . ) 9 DECEMBER 2003-US 2005-0183887 Al ( RODNEY , PAUL F. ) 25 AUGUST-2005US 2006-0180349 Al ( DASHEVSKIY , DMITRIY ) 17-AUGUST 2006US 6777940 B2 (MACUNE, DON T ) 17 AUGUST 2004- US 6400646 Bl (SHAH et al.) 4 JUNE 2002-Examiner: Eng. Imad A. AlAhaidib

[54] METHOD OF PHASE SYNCHRONIZATION OF MWD OR WIRELINE APPARATUS SEPARATED IN THESTRING [57] Abstract: The present disclosure is related to apparatuses and methods for estimating a phase offset in earthformations. The method may include estimating the phase offset by comparing signals generated and received by a firstsub, the second signal being transmitted by a second sub that has been synchronized by the signal generated by the firstsub. The signals may be exchanged using a first antenna on the first sub and a second antenna on the second sub. Thesignals may use a selected frequency. Synchronization may take place without electrical communication between thefirst and second subs. The method may include compensating for a propagation delay in the signals using the phaseoffset. The method may include using a time stamp during the synchronization. The apparatus may include a firstantenna and a second antenna on first and second subs, respectively, both configured to transmit and receiveelectromagnetic signals. No. of claims: 17 No. of figures: 5


[12] Patent





[72] Inventor: Hyunil Jo[73] Owner: Baker Hughes Incorporated, 2929 AllenParkway, Suite 2100, Texas 77019, Houston, USA[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: E21B43/26 (2006.01) [56] Cited Documents:US 2011/017458 A1 (EAST JR LOYD E [US] ET AL) 27-January 2011NICOLAS ROUSSEL ET AL: Optimizing Fracture-Spacing and Sequencing in Horizontal-Well Fracturing,SPE PRODUCTION & OPERATIONS, vo1. 26, no. 2, 01 May 2011Examiner: Eng. Imad A. AlAhaidib

[54] METHOD FOR DETERMINING FRACTURE SPACING AND WELL FRACTURING USING THE METHOD [57] Abstract: A method for determining the fracture spacing for a first set of fractures of a wellbore. A first fracturedimension is chosen from the smaller of the length or height of a first fracture and an expected second fracturedimension is chosen from the smaller of the expected length or expected height of a second fracture to be formed. Anapproximate position of the second fracture is determined from a percentage of the average of the first fracturedimension and the second fracture dimension. An approximate position of a third fracture is determined so that ratio ofthe distances from the first fracture and the second fracture are about equal to a ratio of the first fracture dimensionand the second fracture dimension. The well may then be fractured at the approximate position of the second fractureand may be fractured at the approximate position of the third fracture. No. of claims: 22 No. of figures: 2


[12] Patent





[72] Inventors:1- ANKER, Martin،2- BERGSTRAMichiel،3- ERIKSSON Erik4، - HAGSTRAND, Per-Ola،5- VAHTERI Markku،6- FOSSE Knut[73] Owner: Borealis AG, Wagramer Strasse 17-19,Vienna 1220, Austria[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: C08F10/00; C08F2/00; C08F297/08; C08F6/00;C08J3/22 (2007.01) [56] Cited Documents:N. KAWAMOTO: Novel stabilization system for-polypropylene via the Ziegler-Natta catalysedpolymerisation in the presence of aluminium aryloxide' J.APPL. POLYMER SCI., vol.99, 2006, pages 1350-1358EP 0 198 644 A2 (DU PONT CANADA [CA]) 22 October-1986EP 2 348 058 A1 (BOREALIS AG [AT]) 27 July 2011-EP 1 849 819 A1 (TORAY ADVANCED FILM CO LTD-[JP]; SUMITOMO CHEMICAL CO [JP])31 October 2007EP 2072 203 A1 (BOREALIS TECH OY [FI]) 24 June - 2009WO 2001/057927 A1 (BOREALIS AG [AT];NILSSON - ULF [SE]: SMEDBERG ANNIKA [SE]:CAMPUS ALFRE) 19 May 2011Examiner: Eng. Abdallah I. AlKhatib

[54] PROCESS FOR THE PRODUCTION OF POLYOLEFINS WHEREIN AN ANTIOXIDANT IS FED TO THEREACTION MIXTURE DURING THE PROCESS [57] Abstract: The present invention relates to a process for the production of a stabilized polyolefin comprising- anolefin homo- or copolymer (A); andan antioxidant (B) wherein olefin homo- or copolymer (A) is produced in a processcarried out in one or more reactors, and the antioxidant (B)is fed during the process prior to and/or during a post-production step selected from depressurisation step, degassing step and catalyst deactivation step. The presentinvention furthermore relates to a polyolefin composition obtainable by the process according to the invention and theuse thereof for the production of an article.The present invention is also directed to the use of an antioxidant (B) in aprocess for the production of a stabilized polyolefin comprising- an olefin homo- or copolymer (A); andan antioxidant(B)during the process prior to and/or during a post-production step selected from depressurisation step, degassing stepand catalyst deactivation step. An article, preferably a pipe, made of the stabilized polyolefin and/or the polyolefincomposition according to the invention is also the present invention. No. of claims: 15


[12] Patent





[72] Inventor: Matthias Gorek[73] Owner: Baker Hughes Incorporated, 2929 AllenParkway, Suite 2100, Texas 77019, Houston, USA[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: E21B47/0228; G01V3/26; G01V3/28 (2006.01) [56] Cited Documents:US 2003/0085707 A1 (Minerbo et al.) 0 May 2003- US 2010/0123461 A1 (Folberth et al.)02 May 2010-Examiner: Eng. Imad A. AlAhaidib

[54] BENDING CORRECTION FOR DEEP READING AZIMUTHAL PROPAGATION RESISTIVITY [57] Abstract: An apparatus and method for estimating a parameter of interest in a borehole penetrating an earthformation using a receiver and a transmitter, both disposed on a carrier, with aligned magnetic moments to correct forbending of carrier during borehole investigations. The apparatus may include a transmitter with at least twosubstantially perpendicular coils and a receiver with at least one coil oriented with at least one or the transmitter coils.The method may include aligning the magnetic moment of the transmitter and the magnetic moment of the receiverprior to estimating the parameter of interest. The method may include supplying a constant electric current to one of thetransmitter coils while supplying a varying electric current to another of the transmitter coils. The method may includeestimating a direction of bending or angle of bending of the carrier. No. of claims: 19 No. of figures: 11


[12] Patent





[72] Inventors:1- Egbert Jan VAN RIET،2- Mark MichaelSHUSTER،3- Djurre Hans ZIJSLING[73] Owner: Shell Internationale Research MaatschappijB.V, Carel van Bylandtlaan 30, 2596 HR , Hague,Netherlands[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: E21B17/042; E21B19/16; F16L15/00 (2006.01) [56] Cited Documents:US 2004/130152 A1 (DELANGE RICHARD W [US] ET - AL) 8 JULY 2004US 2140467 A(CLIFTON CARGILE) 13 December 1938 - Examiner: Eng. Imad A. AlAhaidib

[54] CONNECTOR ASSEMBLY [57] Abstract: The invention provides a connector assembly for interconnecting tubular elements. The connectorassembly comprises at least one pin member, at least one box member, and for each box member a respective coatinglayer. Each pin member has a threaded outer surface and each box member has a threaded inner surface allowing thepin member and the box member to be screwed together. Herein the respective coating layer is positioned between thethreaded surfaces of the pin member and the box member. Each coating layer is of a softer material than said threadedsurfaces. The connector assembly further comprises means for removing excess coating material during make up of thepin member and the box member. No. of claims: 10 No. of figures: 9


[12] Patent





29/6/201213/3/2013

61/665,95161/779,099[72] Inventors:1- Matthew Allen SCHIFFLER،2- JeremySchulenburg YORK[73] Owner: Eli Lilly And Company, Lilly CorporateCenter, Indiana 46206-6288, Indianapolis, USA[74] Agent: Saba & Co. T.M.P

[51]IPC: Int. Cl.: A61K

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