화학공학소재연구정보센터
학회 한국화학공학회
학술대회 2012년 가을 (10/24 ~ 10/26, 부산 BEXCO)
권호 18권 2호, p.2177
발표분야 유동층
제목 점성 기체-액체-고체 순환유동층에서 열전달 모델
초록 A model for heat transfer in the riser of a three-phase (gas-liquid-solid) circulating fluidized bed (0.102 m ID; 2.5 m in height) with viscous liquid media was proposed and used to analyse the heat transfer resistances in the system. The heat transfer resistances were considered based on the two resistance-in-series model. Effects of gas and liquid velocities, particle size, solid  circulation rate and viscosity of liquid media on the heat transfer resistance in the region adjacent to the heater surface and that in the bed proper were determined. The heat transfer resistances did not increase significantly in the range of high liquid velocity, comparing with those in the conventional three-phase fluidized bed, confirming that the circulation of fluidized solid particles promoted the heat transfer by decreasing the heat transfer resistances. The resistance in the region adjacent to the heater surface was dominant for determination of heat transfer coefficient in the riser, comparing with the resistance in the bed proper. Both of resistances in the heater surface and in the bed proper decreased with increasing gas velocity, particle size or solid circulation rate, but increased with increasing the viscosity of continuous liquid media, while the former decreased slightly and the latter increased slightly upon increasing the liquid velocity.
저자 진해룡1, 임 호1, 이정석1, 강 용1, 김상돈2, 전기원3
소속 1충남대, 2한국과학기술원, 3한국화학(연)
키워드 Heat transfer; Model; Three-Phase; Circulation bed; Viscous media
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