Cieslinski Janusz T, Kaczmarczyk Tomasz Z
Department of Ecoengineering and Process Apparatus, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland.
Nanoscale Res Lett. 2011 Mar 15;6(1):220. doi: 10.1186/1556-276X-6-220.
Experimental investigation of heat transfer during pool boiling of two nanofluids, i.e., water-Al2O3 and water-Cu has been carried out. Nanoparticles were tested at the concentration of 0.01%, 0.1%, and 1% by weight. The horizontal smooth copper and stainless steel tubes having 10 mm OD and 0.6 mm wall thickness formed test heater. The experiments have been performed to establish the influence of nanofluids concentration as well as tube surface material on heat transfer characteristics at atmospheric pressure. The results indicate that independent of concentration nanoparticle material (Al2O3 and Cu) has almost no influence on heat transfer coefficient while boiling of water-Al2O3 or water-Cu nanofluids on smooth copper tube. It seems that heater material did not affect the boiling heat transfer in 0.1 wt.% water-Cu nanofluid, nevertheless independent of concentration, distinctly higher heat transfer coefficient was recorded for stainless steel tube than for copper tube for the same heat flux density.
对两种纳米流体(即水 - 氧化铝和水 - 铜)在池沸腾过程中的传热进行了实验研究。纳米颗粒的测试浓度为0.01%、0.1%和1%(重量)。外径为10毫米、壁厚为0.6毫米的水平光滑铜管和不锈钢管构成了测试加热器。进行这些实验是为了确定纳米流体浓度以及管表面材料对大气压下传热特性的影响。结果表明,当水 - 氧化铝或水 - 铜纳米流体在光滑铜管上沸腾时,纳米颗粒材料(氧化铝和铜)与浓度无关,对传热系数几乎没有影响。对于0.1重量%的水 - 铜纳米流体,加热器材料似乎并未影响沸腾传热,然而,在相同热流密度下,与浓度无关,不锈钢管记录的传热系数明显高于铜管。