Reactor Design,Cold-Model Experiment and CFD Modeling for Chemical Looping Combustion
Chemical looping combustion (CLC) is an efficient,clean and cheap technology for CO2 capture,and an interconnected fluidized bed is more appropriate solution for CLC.This paper aims to design a reactor system for CLC,carry out cold-model experiment of the system,and model fuel reactor using commercial CFD software.As for the CLC system,the air reactor (AR) is designed as a fast fluidized bed while the fuel reactor (FR) is a bubbling bed;a cyclone is used for solid separation of the AR exit flow.The AR and FR are separated by two U-type loop seals to remain gas sealed.Considered the chemical kinetics of oxygen carrier,fluid dynamics,pressure balance and mass balance of the system simultaneously,some key design parameters of a CH4fueled and Fe2O3/Al2O3-based CLC reactor (thermal power of 50kWth)are determined,including key geometric parameters (reactor cross-sectional area and reactor height) and operation parameters (bed material quantity,solid circulation rate,apparent gas velocity of each reactor).A cold-model bench having same geometric parameters with its prototype is built up to study the effects of various operation conditions (including gas velocity in the reactors and loop seals,and bed material height,etc.) on the solids circulation rate,gas leakage,and pressure balance.It is witnessed the cold-model system is able to meet special requirements for CLC system such as gas sealing between AR and FR,the circulation rate and particles residence time.Furthermore,the thermal FR reactor with oxygen carrier of Fe2O3/Al2O3 and fuel of CE,is simulated by commercial CFD solver FLUENT.It is found that for the design case the combustion efficiency of CH4 reaches 88.2%.A few part of methane is unburned due to fast,large bubbles rising through the reactor.
Chemical Looping Combustion CO2 Capture CFD Modeling Interconnected Fluidized Bed
Shaohua Zhang Jinchen Ma Xintao Hu Haibo Zhao Baowen Wang Chuguang Zheng
State Key Laboratory of Coal Combustion,Huazhong University of Science & Technology,Wuhan 430074,China
国际会议
The 7th International Symposium on Coal Combustion(第七届国际煤燃烧学术会议)
哈尔滨
英文
790-794
2011-07-19(万方平台首次上网日期,不代表论文的发表时间)