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设计了一种板管-铝槽式结构的太阳能光热光电一体化系统(PV/T),通过数值模拟的方法,获得水流量、管间距、保温层厚度以及入口水温对出口水温、电效率和热效率的影响规律,最终得出该PV/T系统的优化设计方案为:水流量20L/h,管间距80mm,入口水温为环境温度(模拟设置为18℃),保温层厚度30mm。并且发现电效率对水流量的敏感度最大,对保温层厚度的敏感度最小,而热效率对保温层厚度的敏感度最大,对入口水温的敏感度最小。该数值模拟优化设计对实际PV/T系统的进一步设计,实验具有重要的参考价值。 相似文献
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文章设计了新型非晶硅太阳能PV/T空气集热器,该空气集热器能够解决传统太阳能PV/T热水器在高温波动情况下,晶硅电池热应力大的问题,同时避免了冬季管道发生霜冻的现象。文章通过实验对比,分析了非晶硅太阳能PV/T空气集热器、单独非晶硅光伏电池和传统太阳能空气集热器的能量效率和[火用]效率的差异。分析结果表明:非晶硅太阳能PV/T空气集热器的平均热效率为45.70%,比传统太阳能空气集热器的平均热效率降低了约25.88%;当空气质量流量增大至0.048 kg/s时,非晶硅太阳能PV/T空气集热器中的非晶硅光伏电池的平均电效率高于单独非晶硅光伏电池,它们的平均电效率分别为4.70%,4.54%;非晶硅太阳能PV/T空气集热器的总[火用]效率高于传统太阳能空气集热器的热[火用]效率和单独非晶硅光伏电池的电[火用]效率,非晶硅太阳能PV/T空气集热器总[火用]效率最大值为7.14%。文章的分析结果为非晶硅太阳能PV/T空气集热器的推广提供了参考。 相似文献
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以无玻璃盖板管板式PV/T组件为研究对象,采用Trnsys软件仿真与实验测试相结合的方法,从发电角度确定吸热板厚度、换热管数量及换热管管径;从成本角度提出适用于不同效率组件、不同光资源区域工况下的最佳设计参数。结果表明:换热管管间距、吸热板厚度和换热管内径对管板式PV/T组件发电性能的影响程度依次减小;以实现PV/T发电性能不低于传统PV组件为目标,换热器结构参数建议为吸热板厚度0.4 mm、换热管管径6 mm及换热管管间距不大于99.2 mm;以全生命周期内总投入最低为目标,Ⅱ类光资源地区最佳管间距为70.86 mm,Ⅲ类和Ⅳ类光资源地区的最佳管间距为82.67 mm;优化后PV/T组件的太阳能利用率达到42.75%~48.69%,发电效率比传统PV高1.17%~2.08%。 相似文献
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利用PV/T太阳能光伏光热系统实验平台针对空气质量流量、太阳辐照强度、环境温度和大气降尘 4种影响系统性能的关键工况参数进行了实验研究。结果表明:在实验设定的流量范围内,PV/T系统的光热和光电效率都随着空气质量流量增大而稳步上升;太阳辐照强度增大时,系统输出电功率随之增大,光热效率变化较小,光电效率有一定程度的降低;环境温度在一定范围内时,系统的输出电功率和集热效率都随着环境温度的增大而增大,而当环境温度超过一定值后,系统的光伏模块受面板温度升高的影响光电转换效率呈下降趋势;随着积尘密度的增大,玻璃盖板的透射率减小,一个月的积尘量会导致系统光电效率和输出电功率分别下降17.84%和18.25%,若以光电效率衰减20%为界限,清洁周期为5周左右。 相似文献
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无盖板PV/T组件相比于盖板式PV/T组件有更高的光电转换效率,在电能输出方面的优势明显。基于此,提出一种无盖板型水冷式PV/T模块,并搭建由光伏对比模块、水冷式PV/T模块以及无冷却水循环的PV/T对比模块构成的实验平台开展对比实验,研究温度、流量对无盖板PV/T模块电、热转换效率的影响。结果表明,在水冷作用下,PV/T模块的光伏组件温度显著降低,与PV/T对比模块相比发电效率提升11.54%;环境平均温度为21.7 ℃、平均辐照度650 W/m2的测试条件下,流量0.12 m3/h时模块的电效率为17.44%,热效率为19.80%,综合效率达到65.69%,考虑到循环泵消耗的电能,表面积1.93 m2的水冷式PV/T模块全天可存储有效能3.72 MJ。 相似文献
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In this paper, an exergetic optimization has been developed to determine the optimal performance and design parameters of a solar photovoltaic thermal (PV/T) air collector. A detailed energy and exergy analysis has been carried out to calculate the thermal and electrical parameters, exergy components, and exergy efficiency of a typical PV/T air collector. The thermal and electrical parameters of a PV/T air collector include solar cell temperature, back surface temperature, outlet air temperature, open‐circuit voltage, short‐circuit current, maximum power point voltage, maximum power point current, etc. An improved electrical model has been used to estimate the electrical parameters of a PV/T air collector. Furthermore, a new equation for the exergy efficiency of a PV/T air collector has been derived in terms of design and climatic parameters. A computer simulation program has been also developed to calculate the thermal and electrical parameters of a PV/T air collector. The results of numerical simulation are in good agreement with the experimental measurements noted in the previous literature. Moreover, the simulation results obtained in this paper are more precise than the one given by the previous literature, and the new exergy efficiency obtained in this paper is in good agreement with the one given by the previous literature. Finally, exergetic optimization has been carried out under given climatic, operating, and design parameters. The optimized values of inlet air velocity, duct length, and the maximum exergy efficiency have been found. Parametric studies have been also carried out. Copyright © 2010 John Wiley & Sons, Ltd. 相似文献
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PV/T电、热联产系统在理想条件下的性能简化分析 总被引:2,自引:0,他引:2
对PV/T电、热联产系统的输出性能作了简化分析,对不带玻璃盖板和带玻璃盖板的PV/T系统在一般风速(2m/s)和较大风速(5m/s)两种情况下的输出性能进行了比较。分析表明,虽然不带玻璃盖板的PV/T系统的光伏转换效率要比带玻璃盖板系统的高出10%左右,但对风速为5m/s的情况,其热能输出已微乎其微。分析结果还表明,在两种风速条件下,带玻璃盖板的PV/T系统的可用能(Exergy)转换效率ηΣ,2nd均高于不带玻璃盖板的PV/T系统。 相似文献
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This article presents an overview on the research and development and application aspects for the hybrid photovoltaic/thermal (PV/T) collector systems. A major research and development work on the photovoltaic/thermal (PVT) hybrid technology has been done since last 30 years. Different types of solar thermal collector and new materials for PV cells have been developed for efficient solar energy utilization. The solar energy conversion into electricity and heat with a single device (called hybrid photovoltaic thermal (PV/T) collector) is a good advancement for future energy demand. This review presents the trend of research and development of technological advancement in photovoltaic thermal (PV/T) solar collectors and its useful applications like as solar heating, water desalination, solar greenhouse, solar still, photovoltaic-thermal solar heat pump/air-conditioning system, building integrated photovoltaic/thermal (BIPVT) and solar power co-generation. 相似文献