细通道内R717沸腾干涸特性及关联式评价The characteristics of dryout of R717 in a mini-channel during boiling and correlations evaluation
张汝行,柳建华,张良,林金地
ZHANG Ruhang,LIU Jianhua,ZHANG Liang,LIN Jindi
摘要(Abstract):
研究了R717(氨)在管内直径3 mm细通道内的沸腾传热及摩擦压降特性。从试验结果来看,干涸前后,传热系数与摩擦压降呈现截然相反的变化趋势,干涸前,随着干度的增加,传热系数与摩擦压降明显会逐渐增加。而在干涸后,随着干度的增加,传热系数与摩擦压降出现了不同程度的衰减。利用实测数据对现存的流动沸腾传热关联式和两相流摩擦压降关联式进行评价,评价关联式捕捉干涸后传热系数与摩擦压降衰减的能力。
The characteristics of boiling heat transfer and friction pressure drop of R717(ammonia) in the tube with an inner diameter of 3 mm are studied.From the experimental results,it can be seen that both the heat transfer coefficient and the friction pressure drop show diametrically opposite trends before and after dryout.Before the dryout,the heat transfer coefficient and the friction pressure drop will gradually increase with the increase of vapor quality.After the dryout,the heat transfer coefficient and friction pressure drop have different degrees of attenuation with the increase of vapor quality.The existing correlations of flow boiling heat transfer and friction pressure drop correlations of two-phase flow are evaluated using the measured data,and the ability of the correlations to capture the heat transfer coefficient and friction pressure drop attenuation after dryout is evaluated.
关键词(KeyWords):
细通道;氨;两相流;干涸
mini-channel;ammonia;two-phase flow;dryout
基金项目(Foundation): 上海市部分地方院校能力建设专项计划项目(16060502600)
作者(Author):
张汝行,柳建华,张良,林金地
ZHANG Ruhang,LIU Jianhua,ZHANG Liang,LIN Jindi
参考文献(References):
- [1]LI W,WU Z.A general criterion for evaporative heat transfer in micro/mini-channels[J].International Journal of Heat and Mass Transfer,2010,53:1967-1976.
- [2]KIM S M,MUDAWAR I.Review of databases and predictive methods for heat transfer in condensing and boiling mini/micro-channel flows[J].International Journal of Heat and Mass Transfer,2014,77:627-652.
- [3]KIM S M,MUDAWAR I.Review of databases and predictive methods for pressure drop in adiabatic,condensing and boiling mini/micro-channel flows[J].International Journal of Heat and Mass Transfer,2014,77:74-97.
- [4]BOHDAL T,CHARUN H,SIKORA M.Comparative investigations of the condensation of R134a and R404A refrigerants in pipe minichannels[J].International Journal of Heat and Mass Transfer,2011,54:1963-1974.
- [5]FRIEDEL L.Improved friction pressure drop correlation for horizontal and vertical two-phase pipe flow[C]//Europe,Two-phase Flow Group Meet.Pap,1979,E2(18):485-492.
- [6]CHEN I Y,YANG K S,CHANG Y J,et al.Two-phase pressure drop of air-water and R-410a in small horizontal tubes[J].International Journal of Multiphase Flow,2001,27:1293-1299.
- [7]GARIMELLA S,AGARWAL A,KILLION J D.Condensation pressure drop in circular micro-hannels[J].Heat Transfer Eng.,2005,26:28-35.
- [8]CAVALLINI A,COL D,MATKOVIC M,et al.Pressure drop during twophase flow of R134a and R32 in a single minichannel[J].Journal of Heat Transfer,2009,131:033107-1-033107-8.
- [9]DALKILIC A S,AGRA O,TEKE I,et al.Comparison of frictional pressure drop models during annular flow condensation of R600a in a horizontal tube at low mass flux and of R134a in a vertical tube at high mass flux[J].International Journal of Heat and Mass Transfer,2010,53:2052-2064.
- [10]LOCKHART R W,MARTINELLI R C.Proposed correlation of data for isothermal two-phase two-component flow in pipes[J].Chemical Engineering Progress,1949,45:39-45.
- [11]LEE J,MUDAWAR I.Two-phase flow in high heat flux micro-channel heat sink for refrigeration cooling applications.Part I.Pressure drop characteristics[J].International Journal of Heat and Mass Transfer,2005,48:928-940.
- [12]SUN L,MISHIMA K.Evaluation analysis of prediction methods for two-phase flow pressure drop in mini-channels[J].International Journal of Multiphase Flow,2009,35:47-54.
- [13]ZHANG W,HIBIKI T,MISHIMA K.Correlations of two-phase frictional pressure drop and void fraction in mini-channel[J].International Journal of Heat and Mass Transfer,2010,53:453-465.
- [14]SUN L,MISHIMA K.An evaluation of prediction methods for saturated flow boiling heat transfer in mini-channels[J].International Journal of Heat and Mass Transfer,2009,52:5323-5329.
- [15]LAZAREK G M,BLACK S H.Evaporative heat transfer,pressure drop and critical heat flux in a small vertical tube with R-113[J].International Journal of Heat and Mass Transfer,1982,25:945-959.
- [16]KEW P A,CORNWELL K.Correlations for the prediction of boiling heat transfer in small-diameter channels[J].Applied Thermal Engineering,1997,17:705-715.
- [17]WOJTAN L,URSENBACHER T,THOME J R.Investigation of flow boiling in horizontal tubes:Part I—A new diabatic two-phase flow pattern map[J].International Journal of Heat and Mass Transfer,2005,48:2955-2969.
- [18]FANG X D,WU Q,YUAN Y L.A general correlation for saturated flow boiling heat transfer in channels of various sizes and flow directions[J].International Journal of Heat and Mass Transfer,2017,107:972-981.
- [19]KANDLIKAR S G,BALASUBRAMANIAN P.An extension of the flow boiling correlation to transition,laminar,and deep laminar flows in minichannels and microchannels[J].Heat Transfer Engineering,2004,25(3):86-93.
- [20]GUNGOR K E,WINTERTON R H S.Simplified general correlation for saturated flow boiling and comparisons of correlations with data[J].Chemical Engineering Research and Design,1987,65:148-156.
- [21]KAEW-ON J,SAKAMATAPAN K,WONGWISES S.Flow boiling heat transfer of R134a in the multiport minichannel heat exchangers[J].Experimental Thermal and Fluid Science,2011,35:364-374.
- [22]STEPHAN K.Heat transfer in condensation and boiling[M].Springer,Berlin Heidelbery,1992.
- [23]LI W,WU Z.A general criterion for evaporative heat transfer in micro/mini-channels[J].Int J Heat Mass Transf,2010,53:1967-1976.
- [24]KENNING D B R,COOPER M G.Saturated flow boiling of water in vertical tubes[J].Int J Heat Mass Transf,1989,32:445-458.
- [25]王昊,方贤德,王润,等.R717管内流动沸腾传热关系式评价分析[J].流体机械,2015,43(4):80-86.WANG H,FANG X D,WANG R,et al.Review of correlations of flow boiling heat transfer for ammonia[J].Fluid Machinery,2015,43(4):80-86.
- [26]GR?NNERUD R.Investigation of liquid hold up,flow-resistance and heat transfer in circulation type evaporators,part IV:Two-phase flow resistance in boiling refrigerants[C]//Annexe 1972-1,Bull.de l’Institut du Froid,1979.
- [27]XU Y,FANG X D.A new correlation of two-phase frictional pressure drop for condensing flow in pipes[J].Nuclear Engineering and Design,2013(263):87-96.
- [28]MüLLER-STEINHAGEN H,HECK K.A simple friction pressure drop correlation for two-phase flow in pipes[J].Chemical Engineering Progress,1986,20:297-308.