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槽式集热器吸热管外混合对流换热数值模拟 总被引:2,自引:0,他引:2
本文总结了太阳能抛物槽式集热器吸热器玻璃管外对流换热的影响因素.在Shiraz 250 kW槽式太阳能热发电系统集热器结构基础上,采用最佳口径比,设计了几种结构参数不同且具有典型意义的集热器;并对所设计不同集热器结构及位置因素影响下的吸热管外混合对流换热进行了数值模拟.模拟结果表明:吸热管外混合对流平均换热热损失随集热器距地距离增大而增大,但增幅越来越小;随集热器两半反射器间间距增大而减小.而不同结构参数下混合对流换热热损失,主要受到风流在不同运行方位下由于集热器阻滞所形成的风流压力场及速度场的影响,且随结构参数呈一定趋势变化.在此基础上进一步可研究吸热器复杂耦合传热过程. 相似文献
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30m~2槽式太阳能集热器性能模拟研究 总被引:2,自引:0,他引:2
本文针对30 m~2槽式太阳能集热试验装置,对太阳能集热器的性能进行了模拟。分析了太阳能集热器光热转化过程,建立了太阳能能量转换与传递模型,并开发了模拟计算程序,研究了集热器关键结构参数和运行参数对集热性能的影响规律。具体考察了太阳辐照强度、工质流量、环境风速、吸热管管径等对集热效率的影响。结果表明:太阳能集热器的集热效率随太阳辐照强度的增加而增大,随工质流量的增加而增大,存在最佳的吸热管管径使得集热效率最大。研究结果将为太阳能集热器的设计提供参考依据。 相似文献
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文中建立了带有散热翅片的复合抛物面聚光太阳能PV/T空气集热器内部传热过程的一维稳态数学模型,对传热过程进行了数值模拟,对集热器热、电、(火用)和净电效率进行了计算.分析了空气质量流量、入射光强度、风速对集热器的空气温度及系统各效率的影响.结果表明:随着入射光强度的增加,空气进出口温差、热和(火用)效率是增大的,而电效率则有所降低.随着空气流量的增加,系统的净电效率和进出口温度差是降低的.通过计算可知集热器的(火用)效率在18%~11%,热效率可达65%,净电效率低于2%,并明显受空气质量流速的影响. 相似文献
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Parabolic trough collectors generate thermal energy from solar energy. Especially, they are very convenient for applications in high temperature solar power systems. To determine the design parameters, parabolic trough collectors must be analysed with optical analysis. In addition, thermodynamics (energy and exergy) analysis in the development of an energy efficient system must be achieved. Solar radiation passes through Earth's atmosphere until it reaches on Earth's surface and is focused from the parabolic trough collector to the tube receiver with a transparent insulated envelope. A11 of them constitute a complex mechanism. We investigate the geometry of parabolic trough reflector and characteristics of solar radiation to the reflecting surface through Earth's atmosphere, and calculate the collecting totM energy in the receiver. The parabolic trough collector, of which design parameters are given, is analysed in regard to the energy and exergy analysis considering the meteorological specification in May, June, July and August in 1sparta/TUrkey, and the results are presented. 相似文献
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对Al2O3-合成油纳米流体在槽式太阳能集热管内的传热特性进行流体动力学数值模拟,重点考察纳米流体导热系数模型的影响。通过与管内Nusselt数半经验模型的预测结果对比,表明使用考虑布朗运动的纳米流体导热系数模型可较好地预测集热管内传热特性。研究表明纳米颗粒与流体基液的相对运动具有促进集热管内传热的作用。最后,定量研究纳米颗粒添加量对提高基础流体平均传热系数的影响,显示纳米流体在太阳能集热器中具有巨大应用潜力。 相似文献
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太阳能槽式系统反射镜玻璃厚度对聚光特性的影响 总被引:1,自引:0,他引:1
针对太阳能槽式系统反射镜玻璃厚度对聚光特性的影响进行了理论、模拟和实验研究。研究结果表明,平行光下反射镜玻璃越厚,入射光线距光轴距离越远,ΔX、ΔY越大。对焦距为1200 mm,反射镜玻璃折射率为1.6的槽式系统进行了理论计算,玻璃厚度为1 mm的反射镜,当距光轴距离为200 mm和2000 mm时,ΔX为0.03 mm和1.69 mm,ΔY为0.19 mm和0.31 mm;当距光轴距离仍为2000 mm时,玻璃厚度为5 mm的反射镜,ΔX为8.41 mm,ΔY为1.55 mm。通过TracePro模拟以及实际实验测量,结果与理论计算相符。 相似文献
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Microstructured heat exchangers are well suited for such phase transition processes as evaporation of liquids due to their heat transfer capabilities, being two to three orders of magnitude higher than those of conventional heat transfer devices. Controlling liquid evaporation inside micro-channels to provide full evaporation in a stable way is not trivial. In most cases, such instabilities as slug flow, bubbly flow, or vapor clogging occur, based on cross-talk possibilities between the individual micro-channels of a channel array, normally caused by open void inlet structures. Therefore, fluid inlet distribution is inhomogeneous, which results, in the best case, in a parabolic shape of a stable evaporation frontline. The parabolic shape occurs due to the residence time distribution of the fluid, generated by shorter path length in the array center and longer ones in the outer areas of the micro-channel array. Computational fluid dynamics simulation approves this result. Such a frontline can be kept stable when the process parameters are well controlled. Small deviations of the inlet parameters may lead to strong disturbances of the evaporation process, destabilizing it. When changing the inlet fluid distribution system to provide the most equal flow distribution possible, the span of the parabolic shape of the evaporation frontline can be reduced drastically. Finally, a stable evaporation frontline perpendicular to flow direction can be obtained. This status is no longer very sensitive to process deviations. This article presents an optimized micro-channel device for the optical investigation of phase transition phenomena. The device allows the exchange of integrated micro-channel arrays to investigate different designs for their suitability. It is separated into three independent sections, which can be heated or cooled individually. Therefore, very strict and rapid temperature jumps can be obtained within relatively short distances. The micro-channel array foils used for the experiments have been manufactured by mechanical micro-machining. Thus, the cross-sections of the micro-channels are always rectangular. Hydraulic diameter and length of the micro-channels, as well as the shape of the inlet and outlet voids, can be varied. Using a simple triangular or rectangular open inlet void, a stable evaporation line was generated, showing a parabolic shape. Depending on the mass flow and the size and shape of the inlet void, the span of the parabolic arc was influenceable. 相似文献
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原表面回热器换热阻力特性试验研究 总被引:1,自引:0,他引:1
本文对研制加工的适用于 100 kW 微型燃气轮机的 CW(Cross Wavy) 原表面回热器进行了试验研究,通过对两侧流体进、出口温度、压力等的测量,重点分析了燃气流量、入口温度及空气进口压力变化对换热阻力的影响,得出了在变工况下回热器的流动与换热性能规律,结果表明:所研制的 CW 原表面回热器空、燃气两侧换热均匀,提高了换热效率,两侧压降都有不同程度降低,并得出了有工程应用价值的 Nu-Re 及 f-RE 准则关系式,可为原表面回热器的设计制造提供参考. 相似文献
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