Butane oxidation process development in a circulating fluidized bed

Applied Catalysis A: General

Volumn 376, Issue 1, 2010, Pages 4-12

  Patience, Gregory S ^a   Bockrath, Richard E ^b  

^a ÉCOLE POLYTECHNIQUE DE MONTRÉAL   (Canada)

^b DUPONT COMPANY   (United States)

Author keywords

Attrition resistance; Butane oxidation; Circulating fluidized bed; Lattice oxygen contribution; Maleic anhydride; Vanadyl pyrophosphate

Indexed keywords

BED REACTORS; BUTANE OXIDATION; CATALYST CONSUMPTION; CATALYST INVENTORY; CHEMICAL LOOPING COMBUSTION; CIRCULATING FLUIDIZED BED; CIRCULATING FLUIDIZED BED REACTOR; COMMERCIAL REACTOR; DESIGN CONSIDERATIONS; DESULPHURIZATION; GOOD STABILITY; HIGH CONCENTRATION; HOT GAS; LATTICE OXYGEN; MALEIC ACIDS; MAXIMUM TEMPERATURE; METHANOL TO OLEFIN; N-BUTANE; ORDER OF MAGNITUDE; PARTIAL OXIDATIONS; PLANT CAPACITIES; PRODUCTION RATES; REACTOR CONFIGURATION; SILICA SHELL; SOLIDS CIRCULATION RATES; SPRAY DRYING TECHNOLOGY; VANADYL PYROPHOSPHATE;

BUTANE; CATALYSIS; CATALYST ACTIVITY; CHEMICAL REACTORS; DESULFURIZATION; DEWATERING; FLUID CATALYTIC CRACKING; FLUIDIZATION; FLUIDIZED BED COMBUSTION; FLUIDIZED BEDS; LIQUEFIED PETROLEUM GAS; MALEIC ANHYDRIDE; METHANOL; OCCUPATIONAL RISKS; OLEFINS; OXIDATION; OXYGEN; PILOT PLANTS; PROCESS ENGINEERING; SILICA; SPRAY DRYING; VANADIUM; VANADIUM COMPOUNDS;

FLUIDIZED BED PROCESS;

EID: 77649289390     PISSN: 0926860X     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.apcata.2009.10.023     Document Type: Article

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