Nanofluids are liquid suspensions containing nanoparticles that are smaller than 100 nm. There is an increased interest in nanofluids as thermal conductivity of nanofluids is significantly higher than that of the base liquids. ZnO-water nanofluids with volume concentration of ZnO particles varying from 0.0001 to 0.1% were prepared using ultrasonic vibration mixer. Thermal conductivity of the ZnO-water fluids was investigated for different sonication time using thermal property analyzer (KD2 Pro). Thermal conductivity of nanofluids for a given concentration of nanoparticle varies with sonication time. Heat transfer coefficient and pressure drop in an annular test section with variable pressure (1–2.5 bar) and heat flux (0–400 kW/m2) at constant mass flux of 400 kg/m2s were studied for samples having maximum thermal conductivity. Surface roughness of the heating rod was also measured before and after the experimentation. The study shows that heat transfer coefficient increases beyond the base fluid with pressure and concentration of ZnO.
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机译:纳米流体是含有小于100nm的纳米颗粒的液体悬浮液。随着纳米流体的导热率显着高于基础液体的导热率,人们对纳米流体的兴趣日益增加。用超声振动混合器制备了ZnO颗粒体积浓度为0.0001〜0.1%的ZnO-水纳米流体。使用热特性分析仪(KD2 Pro)在不同的超声处理时间下研究了ZnO-水流体的导热系数。对于给定浓度的纳米颗粒,纳米流体的热导率随超声处理时间而变化。对于具有最大导热率的样品,研究了在恒定质量通量为400 kg / m2s的可变压力(1-2.5 bar)和热通量(0-400 kW / m2)的环形测试区域中的传热系数和压降。在实验之前和之后也测量加热棒的表面粗糙度。研究表明,随着压力和ZnO浓度的增加,传热系数会超出基础流体。
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