低沸点燃料内气泡生长简化模型的建立  

Development of a Simplified Model of Bubble Growth for Fuels with Lower Boiling Point

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作  者:刘元[1] 魏明锐[1] 颜伏伍[1] 许伟康[1] 余小梅[1] 

机构地区:[1]武汉理工大学汽车工程学院,湖北武汉430070

出  处:《内燃机学报》2012年第5期429-434,共6页Transactions of Csice

基  金:国家自然科学基金资助项目(50376018;51276132)

摘  要:基于对过热液体内气泡生长的一维数值模型的研究,根据气泡表面的热边界层内温度分布的定性分析,构建了一个简化的气泡生长模型.分别利用过热水中气泡生长的试验数据和二甲醚(DME)一维气泡生长模型的计算数据对模型的有效性进行了验证,结果表明,简化的气泡生长模型不仅保持了一维气泡生长模型的准确性,还大大降低了计算成本.利用该模型对二甲醚在过热条件下的气泡生长过程进行了数值模拟,结果表明,在表面张力控制阶段,气泡生长主要受表面张力的影响,在传热控制阶段,气泡生长主要受热扩散系数的影响,而在过渡阶段,气泡生长则同时受表面张力和热扩散系数的影响.A simplified model for bubble growth was developed according to qualitative analysis of tem- perature profile in the thermal boundary layer of the vapor bubble. The model is based on the study of one- dimensional bubble growth model under the superheated conditions. The model is validated by the experi- mental data of vapor bubble growth in the superheated water and the numerical solution of dimethyl ether (DME) vapor bubble growth using the one-dimensional bubble growth model respectively. Compari- son shows that the model gives good accuracy and reduced computational cost than those of one- dimensional bubble growth model. Using the model, the DME bubble growth is simulated under the su- perheated conditions. The result shows that surface tension plays an important role in the controlled do- main of surface tension for bubble growth, and heat transfer controlled domain of bubble growth is con- trolled by thermal diffusivity while in the transition domain both surface tension and thermal diffusivity influence the bubble growth.

关 键 词:蒸发 气泡生长 数值模拟 边界层 

分 类 号:TK421[动力工程及工程热物理—动力机械及工程]

 

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