期刊文献+

氧化铝纳米流体在车用热交换器中的试验研究 被引量:4

Experimental investigation on alumina nanofluids in vehicle heat exchanger
下载PDF
导出
摘要 研究纳米流体在车用热交换器中的强化传热效果,测试不同纳米粒子体积分数的氧化铝纳米流体在板翅式机油冷却器中的传热和流动特性,并与水、防冻液(乙二醇)及纳米流体基础液体进行对比.试验结果表明,在同一热交换器中,纳米流体的传热系数明显高于其他3种液体.当冷、热侧介质温度为90和120℃时,纳米粒子体积分数为5%的纳米流体的传热系数分别比水、乙二醇和基础液体提高6.52%、18.88%和24.62%;当冷、热侧介质温度为120和135℃时,体积分数为5%的纳米流体的传热系数比体积分数为1%的纳米流体提高104.72%.在试验条件下,热交换器的换热量随纳米粒子体积分数的增大而增大,但流动阻力并未明显增加,初步证明了纳米流体应用于车用热交换器的可行性. In order to study the heat transfer enhancement of nanofluids in a vehicle heat exchanger (a plate-fin oil cooler),the heat transfer and flow characteristics of alumina nanofluids with different volume fractions were measured and compared to those of water,antifreeze (ethylene glycol) and nanofluids' base fluid.Experimental results showed that in the same heat exchanger,the heat transfer coefficient of nanofluids was significantly higher than that of the other three liquids.When the hot/cold side temperature was 90 ℃/120 ℃,the heat transfer coefficient of 5% (nanoparticle volume fraction) nanofluid increased by 6.52%,18.88% and 24.62% respectively than that of pure water,antifreeze (ethylene glycol) and base fluid;when the hot/cold side temperature was 120 ℃ /135 ℃,it was 104.72% higher than that of the 1% nanofluid.In the experimental condition,the heat flow increased with the nanoparticle volume fraction,but the flow resistance rose moderately,which primarily proved the feasibility of the nanofluids in the vehicle heat exchanger.
出处 《浙江大学学报(工学版)》 EI CAS CSCD 北大核心 2010年第4期761-764,818,共5页 Journal of Zhejiang University:Engineering Science
关键词 纳米流体 冷却介质 车用热交换器 强化传热 nanofluids coolant vehicle heat exchanger enhanced heat transfer
  • 相关文献

参考文献11

  • 1CHOI S U S. Enhancing thermal conductivity of fluids with nanoparticles [J]. ASME FED, 1995, 231: 99- 103.
  • 2XUAN Y, LI Q. Heat transfer enhancement of nanofluids [J]. International Journal of Heat and Fluid Flow, 2000, 21(1): 58-64.
  • 3KEBLINSKI P, EASTMAN J A, CAHILL D G. Nanofluids for thermal transport [J]. Materials Today, 2005, 8(6).. 36-44.
  • 4彭小飞,俞小莉,钟勋,袁庆丰.纳米流体热导率试验[J].浙江大学学报(工学版),2007,41(7):1177-1180. 被引量:9
  • 5彭小飞,俞小莉,夏立峰,钟勋.纳米流体悬浮稳定性影响因素[J].浙江大学学报(工学版),2007,41(4):577-580. 被引量:35
  • 6MAIGA S, NGUYEN C T, GALANIS N, et al. Heat transfer behaviours of nanofluids in a uniformly heated tube [J]. Superlattices and Microstructures, 2004, 35 (3-6): 543 - 557.
  • 7WEN D, DINGY. Experimental investigation into the pool boiling heat transfer of aqueous based γ-alumina nanofluids [J]. Journal of Nanoparticle Research, 2005, 7(2) : 265 - 274.
  • 8JANG S P, CHOI S U S. Cooling performance of a microchannel heat sink with nanofluids [J]. Applied Thermal Engineering, 2006, 26(17/18): 2457-2463.
  • 9LEE J, MUDAWAR I. Assessment of the effectiveness of nanofluids for single-phase and two-phase heat transfer in micro-channels [J]. Heat and Mass Transfer, 2007, 50(3/4): 452-463.
  • 10MA H B, WILSON C, BORGMEYER B, et al. Effect of nanofluid on the heat transport capability in an oscillating heat pipe [J]. Applied Physics Letters, 2006, 88 (14) : 1161 - 1163.

二级参考文献14

  • 1陈宗淇 戴闽光.胶体化学[M].北京:高等教育出版社,1985..
  • 2CHOI U S.Enhancing thermal conductivity of fluids with nanoparticles[J].ASME FED,1995,231:99-103.
  • 3XUAN Y,LI Q.Heat transfer enhancement of nanofluids[J].International Journal of Heat and Fluid Flow,2000,21(1):58-64.
  • 4CHOI S U S,YU W,HULL J R,et al.Nanofluids for vehicle thermal management[C]∥Vehicle Thermal Management Systems Conference and Exhibition.Nashville:SAE,2001.
  • 5CHOI S U S,YU W,HULL J R,et al.Nanofluids for vehicle thermal management[C]∥Vehicle Thermal Management Systems Conference & Exhibition.Nashville:SAE,2001.
  • 6CHOI S U S.Enhancing thermal conductivity of fluids with nanoparticles[C]∥ASME FED 231.New York:ASME,1995:99-103.
  • 7LEE S,CHOI S U S.Measuring thermal conductivity of fluids containing oxide nanoparticles[J].Transaction of the ASME,1999,121(5):280-289.
  • 8XUAN Y M,QIANG L.Heat transfer enhancement of nanofluids[J].International Journal of Heat and Fluid Flow,2000,21(1):58-64.
  • 9SHINPYO L,CHOI S U S.Application of metallic nanoparticles suspensions in advanced cooling systems[C]∥ASME PVP.New York:ASME,1996:27-234.
  • 10SHIN N,HIBIYA T.Ceramic probe for measuring the thermal conductivity of an electrically conductivity by the transient hot wire method[J].Review of Scientific Instruments,1988,59(12):2600-2603.

共引文献42

同被引文献35

引证文献4

二级引证文献13

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部