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浸没燃烧蒸发过程单个气泡传热传质模型 被引量:5

Heat and mass transfer modeling of a single bubble during submerged combustion evaporation
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摘要 浸没燃烧蒸发器是一种利用高温气体与低温液体直接接触传热的高效蒸发设备,其现有传热传质模型较为繁琐。该文从传质推动力角度出发建立了高温气泡在水中上升过程的传热传质模型,计算结果与文献报道的实验数据、模拟结果基本吻合。利用该模型计算可得出,浸没燃烧蒸发过程中,液体平衡温度随气体初始温度的升高或气泡内初始水蒸汽含量的增大而升高,接触时间在一定范围内的增加使得液体平衡温度随之降低,超出1 s后对液体平衡温度影响不大。 The submerged combustion evaporator is a high-efficiency equipment using direct contact heat transfer between superheated bubbles and the liquid. The mass transfer force concept was used to develop a model for the heat and mass transfer from a single superheated bubble rising in the water pool. The results agree well with experimental data. The results also show that during submerged combustion evaporation, the steady-state liquid temperature increases with the increasing initial gas temperature or with increasing initial water-vapor content in the superheated bubble. Increases of the direct contact time of up to 1 s reduce the steady state liquid temperature, but have little influence on the steady-state liquid temperature beyond 1 s.
作者 聂永丰 岳东北 许玉东 刘建国 金宜英
机构地区 清华大学环境科学与工程系
出处 《清华大学学报(自然科学版)》 EI CAS CSCD 北大核心 2005年第9期1221-1224,共4页 Journal of Tsinghua University(Science and Technology)
基金 清华大学博士生科研创新基金项目
关键词 浸没燃烧蒸发 传热传质 传质推动力 直接接触 submerged combustion evaporation heat and masstransfer mass transfer force direct contact
分类号 TQ051.62 [化学工程]
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参考文献7

  • 1Williams R, Walker R. Efficient heat transfer by submerged combustion [J]. Gas Engineering & Management, 1997,37(7) : 32 - 33.
  • 2Hackenberg C M, Andrade A L. Transient surface temperature of superheated bubbles [A]. Veziroglu T N.Particulate Phenomena and Multiphase Transport [C].Washington:Hemisphere Pub Corp.1988.377-382.
  • 3Lage P L C, Hackenberg C M. Simulation and design of direct contact evaporators [A]. Veziroglu T N. Multiphase Transport and Particulate Phenomena[C]. New York:Hemisphere Pub Corp, 1990. 577 - 592.
  • 4Campos F B, Lage P L C. Simultaneous heat and mass transfer during the ascension of superheated bubbles [J].International J Heat and Mass Transfer, 2000, 43(2):179 - 189.
  • 5Campos F B, Lage P L C. Heat and mass transfer modeling during the formation and ascension of superheated bubbles[J].International J Heat and Mass Transfer, 2000,43(16): 2883- 2894.
  • 6Sherwood T K, Pigford R L, Wilke C R. Mass Transfer[M]. New York: McGraw-Hill, 1975.
  • 7蔡炳新.基础物理化学[M].北京:科学出版社,2001..

共引文献11

同被引文献24

引证文献5

二级引证文献9

清华大学学报(自然科学版)
2005年 第9期

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