期刊文献+

进水温度对新型复合气提降膜蒸发器性能的影响

Effect of water inlet temperature on performance of evaporator combined with Vapor-lift effect
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摘要 就提出的基于气提效应的新型复合降膜蒸发器展开了深入研究,讨论了进水温度发生变化时,该复合降膜蒸发器的水力特性和传热传质性能的变化情况。研究表明:随着进水温度的增加,输送单元的输送液体流量和输送高度比(泵送高度与驱动吸程之比)均得到提高;而蒸发换热单元的降落液膜厚度则随进水温度的增加而减薄,从而使得传热性能增强;且随着进水温度的增加,其对传热性能的提高逐渐减弱。在相同的输送流量下,进水温度从30℃增加到90℃时,其传热系数提高66.8%~69.3%。 This paper is concerned with the theoretical analysis to obtain the effect of water inlet temperature on the performance of the proposed falling film evaporator combined with vapor-lift effect. Results indicate that the transported liquid flow rate and transportation height ratio(ratio of the pumping height to the driving suction depth)increase with higher water inlet temperature.However,higher water inlet temperature results in the decreasing of falling film thickness which leads to higher heat transfer coefficient.Moreover,the enhancement on the heat transfer performance decreases with increasing water inlet temperature.Theoretical analysis shows when transporting the same water flow rate,the water inlet temperature increases from 30℃to 90℃,and the heat transfer coefficient increases by 66.8 9%5 to 69.3%.
出处 《化工学报》 EI CAS CSCD 北大核心 2008年第S2期87-92,共6页 CIESC Journal
基金 国家自然科学基金重点项目(50736004)~~
关键词 降膜蒸发 气提效应 水力特性 传热传质性能 falling film evaporation vapor-lift effect hydrodynamic performance heat and mass transfer performance
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参考文献19

  • 1陈曦,汪建军,朱家骅,帅剑云,冯昭华.降膜蒸发过程熵产分析[J].化工学报,2006,57(7):1518-1524. 被引量:3
  • 2王永福,周荣琪,段占庭.二元混合物降膜蒸发的数值模拟[J].化工学报,2002,53(9):946-950. 被引量:10
  • 3赵起,林载祁.垂直管降膜蒸发传热系数的数学模型[J]高校化学工程学报,1987(02).
  • 4Gimbutis G.Heat transfer of a turbulent falling film. Proc. 5th Int.Heat Transfer Conference . 1974
  • 5Shahaboddin Ayatollahi,Mostafa Narimani,Mahmood Moshfeghian.Intermittent gas lift in Aghajari oil field,a mathematical study. Journal of Petrology . 2004
  • 6Milan Milivojevic,Stavros Pavlou b,Ivana Pajic-Lijakovic,??Branko Bugarski.Dependence of slip velocity on operating parameters of air-lift bioreactors. Chemical Engineering . 2007
  • 7Ros N C J.Simultaneous flow of gas and liquid as encountered in well tubing. J.Pet.Techn . 1961
  • 8Abdul-Majeed G H.A comprehensive mechanistic model for vertical and inclined two-phase flow. . 1997
  • 9Prost J S,Gonzalez M T,Urbicain M J.Determination and correlation of heat transfer coefficients in a falling fil mevaporator. Journal of Food Engineering . 2006
  • 10Bo Jin and Paul Lant.Flow regime, hydrodynamics, floc size distribution and sludge properties in activated sludge bubble column, air-lift and aerated stirred reactors. Chemical Engineering Science . 2004

二级参考文献17

  • 1张旭,陈沛霖.直接蒸发冷却过程不可逆热动力学分析[J].同济大学学报(自然科学版),1995,23(6):638-643. 被引量:5
  • 2Khalkhali H,Faghri A,Zuo Z J.Entropy generation in a heat pipe system.Applied Thermal Engineering,1999,19:1027-1043
  • 3Parvatiyar M G.Entropy generation in ultraltration processes.Journal of Membrane Science,1998,144:125-132
  • 4Zhan Kenhua(湛垦华),Shen Xiaofeng(沈小峰).Prigogine and Dissipation Structure Theory(普里高津与耗散结构理论).Xi'an:Shaanxi Science and Technology Press,1982:148
  • 5Degroot S R,Mazur P.Thermodynamics of Irreversible Processes.Amsterdam:North-Holland Publishing Company,1962:1-37
  • 6Oztop H F.Effective parameters on second law analysis for semicircular ducts in laminar flow and constant wall heat flux.International Communications in Heat and Mass Transfer,2005,32:266-274
  • 7Zimparov V.Extended performance evaluation criteria for enhanced heat transfer surfaces:heat transfer through ducts with constant wall temperature.International Journal of Heat and Mass Transfer,2000,43:3137-3155
  • 8Xu Jijun(徐济鋆),Lu Zhongqi(鲁钟琪).Boiling Heat-transfer and Gas-liquid Flow(沸腾传热和气-液两相流).Beijing:Atomic Energy Press,2001:37-77
  • 9Li Rusheng(李如生).Non-equilibrium Thermodynamics and Dissipative Structure(非平衡态热力学和耗散结构).Beijing:Tsinghua University Press,1986:55
  • 10Sahin A Z.Entropy generation and pumping power in a turbulent fluid flow through a smooth pipe subjected to constant heat flux.Energy,2002,2:314-321

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