Boreskov Institute of Catalysis SB RAS, Novosibirsk, Russia

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OP-1-10REACTION BETWEEN CO 2 AND COKE: A COMPARISON OF THECOKE FROM CATALYTIC CRACKING OF BIO-OIL AND GASOILLuciana T. Santos 1 , Ana Paula S.S. Estevão 2 , Fabiana M. Santos 2 ,Leonardo F. Mello 3 , Yiu Lau Lam 3 and Marcelo M. Pereira 21 Nacional Agency of Petroleum, Av. Rio Branco, 65, CEP 20090004, RJ, BrazilFAX 55-21-2112-8389, ltsantos@anp.gov.br2 Federal University of Rio de Janeiro, CT,bloco A, 7º an., CEP 21941909, RJ, Brazil3 Cenpes - Petrobras, Av. Horácio Macedo 950, RJ, BrazilThe scenario of CO 2 emissions and the climatic changes are events highlightedin the world today [1]. The Fluid Catalytic Cracking Process (FCC) is a central pointof this problem [2]. It is one of the major individual sources of CO 2 emission in arefinery due to large amount of coke formed during cracking reactions. To processbiomass as alternative to fossil fuels can impact the energy transformation,furthermore will cause an increase in the amount of coke formed on the catalyst. So,CO production (an input for the chemical industry) and CO 2 sequestration can besimultaneously improved through the coke/CO 2 reaction [3]. The previously cokedcatalysts (in conventional gasoil and a bio-oil from sugarcane bagasse) wereregenerated under CO 2 flux. The reaction was accompanied on line by a MassSpectrometer and the catalysts were characterized by 13 C NMR, LECO, AA and BET.Independently of the nature of coke, the CO 2reacts in the presence of oxygen mainly at thebeginning of the reaction. Simultaneously with theconsumption of the label CO 2 (m/z=45), CO (m/z=29)is formed and coke is oxidized, Figure 1. The increaseof the temperature facilitates the CO (m/z=28)formation. Despite the differences on cokefunctionality, the same range of reaction temperaturewas observed, both in the presence of oxygen andCO 2 . The reaction kinetics was approximated by apseudo first order with respect to CO 2 obtaining anE app =87 kJ/mol to the reaction with gasoil. TheFigure1. MS profiles ofcatalysts oxidation at 800°C.calculation of the activation energy for the bio-oil is indevelopment.References:[1]. K. Caldeira, J.F. Kasting, Nature, 1993, 366, 251-253.[2]. J. Biswas, I.E. Maxwell, Applied Catalysis A: General, 1990, 63, 197-258.[3]. L.T. Santos et al, Applied Catalysis A: General, 2008, 336, 40–47.34
OP-1-11BIOMASS’ PRODUCTS TREATMENT INTO HYDROCARBONS ANDHYDROGEN-CONTAINING GAS OVER NANOSIZED CATALYSTSAND MEMBRANE-CATALYTIC SYSTEMSTsodikov M.V. 1 , Chistyakov A.V. 1 , Gekhman A.E. 2 , Moiseev I.I. 21 A.V. Topchiev Institute of Petrochemical Synthesis, RAS, Moscow,tsodikov@ips.ac.ru2 N.S. Kurnakov Institute of General and Inorganic Chemistry, RAS, MoscowResults of the present paper relate to research of catalytic and membranecatalyticprocesses based on alcohols, methane and carbon dioxide feed that allowobtaining fuel compounds and petrochemical substrates.Nanosized catalysts that possess high activity and selectivity in new reactions ofalkanes and olefins formation from bioalcohols were prepared with using ofheterometallic alkoxide and acetic precursors containing metals of II, VI-VIII groups.It was shown the possibility of selectivity adjustment in one-step process directed onbranched alkanes, olefins and alkane – olefin fractions formation. With use of kineticand structural methods the genesis of applied catalysts was characterized andpossible routes of studied reactions were found.New approaches to high rate dry and vapor-phase reforming of bio-products leadto hydrogen-containing gas formation over membrane-catalytic systems modifiedwith nanosized active components were developed.Principal possibility of high effective cellulose conversion over nanosizedcatalysts impregnated directly on the substrate surface was demonstrated.On the basis of developed approaches principal scheme was proposed thatdemonstrated the possibility to obtain a wide range of industrial important processesbased on renewable raw materials.Acknowledgements:Authors kindly thanks: Prof. Vargaftik M.N., Dr. Kozitsina N.Yu (IGIC RAS) andProf. Drobot D.V. (Lomonosov M.V. MSAFCT), RFBR and RAS for financial support.35
Page 1 and 2: Boreskov Institute of Catalysis SB
Page 3 and 4: International Scientific CommitteeV
Page 5 and 6: PL-1DESIGN OF CATALYSTS AND CATALYT
Page 7 and 8: PL-3CATALYTIC TRANSFORMATIONS FOR P
Page 9 and 10: PL-4In this contribution the princi
Page 11 and 12: PL-5THEORETICAL AND EXPERIMENTAL AN
Page 13 and 14: PL-6heat exchanging internals; dyna
Page 15 and 16: CATALYTIC CRACKING OF SUNFLOWER SEE
Page 17 and 18: KN-3CONVERSIONS OF WOOD AND CELLULO
Page 19 and 20: CATALYTIC FUEL-GAS CLEANING IN A ST
Page 21 and 22: BIO4ENERGY - THE SWEDISH QUESTFOR S
Page 23 and 24: ORAL PRESENTATIONSSection 1.CATALYS
Page 25 and 26: OP-1-2METHANOLYSIS OF VEGETABLE OIL
Page 27 and 28: OP-1-4SYNTHESIS, CHARACTERIZATION A
Page 29 and 30: OP-1-6THE PRODUCTION OF MOTOR FUEL
Page 31 and 32: HYDROTREATMENT CATALYSTS DESIGN FOR
Page 33: CATALYTIC HYDROTREATING OF FAST PYR
Page 38 and 39: OP-1-14BIO-ETHANOL - PETROCHEMICAL
Page 40 and 41: OP-1-15USING BIOMASS-BASED FUELS FO
Page 42 and 43: OP-2-1COMBINATION OF METAL AND ACID
Page 44 and 45: OP-2-3CELLULOSE HYDROTHERMAL CONVER
Page 46 and 47: OP-2-4CATALYTIC CONVERSION OF CONCE
Page 48 and 49: OP-2-6KINETICS OF SELECTIVE OXIDATI
Page 50 and 51: OP-2-8PROCESS FOR THE PRODUCTION OF
Page 52 and 53: OP-2-10BIODERIVED LACTIC ACID AND L
Page 54 and 55: OP-2-11CATALYTIC CONVERSION OF HEMI
Page 56 and 57: OP-2-13Cu CATALYSTS FOR HYDROGENOLY
Page 58 and 59: OP-2-15Cu-CONTAINING CATALYSTS FOR
Page 60 and 61: OP-2-16MICROWAVE-ASSISTED EPOXIDATI
Page 62 and 63: OP-2-18ULTRASOUND-INDUCED FORMATION
Page 64 and 65: OP-2-20EFFECT OF Ag DOPING IN La-Mn
Page 66 and 67: OP-2-22INSIGHTS IN GLYCEROL REFORMI
Page 68 and 69: OP-3-1APPLICATION OF NOVEL CATALYST
Page 70 and 71: OP-3-2REDUCING CONVERSIONS OF GLYCE
Page 72 and 73: OP-3-4LOW-TEMPERATURE CONVERSION OF
Page 74 and 75: OP-3-6H 2 PRODUCTION BY STEAM REFOR
Page 76 and 77: OP-3-8CATALYTIC STEAM REFORMING OF
Page 78 and 79: OP-3-10CATALYTIC GAS PHASE CONVERSI
Page 80 and 81: ORAL PRESENTATIONSSection 4.BIOCATA
Page 82 and 83: OP-4-2THE EFFECT OF OXYGEN MASS TRA
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OP-4-4VALORIFICATION OF FERMENTATIO
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OP-4-5MECHANISM OF ULTRASOUND-ASSIS
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PP-1THE ORTHO - PARA CONVERSION OF
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PP-3THREE-STAGE WASTE-FREE PROCESS
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PP-4Н 2 О with formation superflu
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PP-6HYDROGEN FROM FORMIC ACID DECOM
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PP-8VALORIZATION OF GLYCEROL BY CON
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PP-10BIODIESEL PRODUCTION FROM WAST
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PP-11Figure 1. CHEMPAK architecture
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PP-13HYDROCONVERSION OF VEGETABLE O
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PP-15CaO AND Al 2 O 3 SUPPORT SOLID
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PP-17CATALYTIC CRACKING OF GLUCOSE
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PP-19[DBU][Ac]: A TASK-SPECIFIC ION
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PP-21SELECTIVE CONVERSION OF CARBON
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PP-23HYDROGEN PRODUCTION BY ETHANOL
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PP-25SUB- AND SUPERCRITICAL WATER A
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PP-27THE BLENDING OF SECOND - GENER
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PP-29STUDY ON THE PRETREATMENTS OF
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PP-31THERMAL CONVERSIONS OF WOOD SA
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PP-33PHYSICOCHEMICAL PROPERTIES OF
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PP-35LOW-TEMPERATURE OXIDATION OF O
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PP-37LABORATORY EQUIPMENT FOR THE S
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PP-39FERMENTATION PROCESSES OF FREE
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PP-41THERMOCATALYTIC HYDROLYSIS AND
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PP-43OBTAINING OF SYNTHETIC FUEL FR
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PP-44hydrogen. The highest values o
Page 136 and 137:
PP-46PROBLEM OF RECEPTION OF ANTIMA
Page 138 and 139:
PP-48INVESTIGATION OF NEW WAYS OF B
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PP-50DEVELOPMENT OF AN EFFICIENT ME
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PP-52ZEOLITE COATINGS ON SUGAR CANE
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PP-54PREPARATION OF ADVANCED ADSORB
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PP-56HYDROGENATION OF CIS-METHYL OL
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PP-57CAVITATION ASSISTED DESIGH OF
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PP-59KINETICS OF CATALYTIC GASIFICA
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PP-61ORGANOSOLV LIGNIN AS CHEMICALS
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PP-62which were taken in preset qua
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PP-64EXTRACTION OF HUMIC ACIDS FROM
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PP-66THE INVESTIGATION OF ASPECTS O
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LIST OF PARTICIPANTSNeisiani ABDOLL
Page 162 and 163:
Andrey CHISTYAKOVA.V. Topchiev Inst
Page 164 and 165:
Yusuf ISA MAKARFIM.V. Lomonosov Mos
Page 166 and 167:
Nikolaj LAPINInstitute of Microelec
Page 168 and 169:
Vitaly ORDOMSKYDepartment of Chemis
Page 170 and 171:
Irina SIMAKOVABoreskov Institute of
Page 172 and 173:
Elena VIALICHPerm State UniversityB
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ORAL PRESENTATIONS.................
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OP-2-18 Andreeva D., Schäferhans J
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PP-15 Dias A.P., Puna J.F., Gomes J
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PP-50Rustamov M.I., Abad-zade Kh.I.
Page 182:
INTERNATIONAL CONFERENCECATALYSIS F
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Boreskov Institute of Catalysis SB RAS, Novosibirsk, Russia

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