C. Popovici, G. Filipescu, N. Cherecheș, S. Hudișteanu, E. Țurcanu, Ana-Diana Ancaş, M. Verdeș, P. V. Rosu
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引用次数: 0
摘要
随着绿色能源生产技术的发展,不可避免地需要优化光伏组件的运行。为了实现良好的技术产量、耐用性和生产效率,需要不断进行研究和创新。本研究的重点是模拟水冷和非水冷光伏组件的运行,以了解温度对光伏运行的影响。该冷却模块第一阶段由一个铜线圈组成,水在铜线圈中循环;第二阶段由一个冷却剂分配器/收集系统组成。该模块分别连接到光伏面板的下表面和碲化镉箔层上。在模拟过程中,我们使用了 Ansys 软件包(Discovery、Fluent 和 Space Claim)。
Numerical Simulation of Improving the Efficienty of Photovoltaic Thermal Panels
The need to optimize the operation of photovoltaic modules inevitably arises with the development of green energy production technology. In order to achieve a good technological yield, durability and efficiency in production, continuous studies and innovations are required. This study focuses on simulating the operation of water-cooled and uncooled PV modules in order to understand the temperature-dependent PV operation. This cooling module consists, in the first phase, of a copper coil through which water circulates, and in the second phase, of a coolant distributor/collector system. The module is attached to the lower surface of the photovoltaic panel, respectively to the teller foil layer. For this simulation we used the Ansys software package (Discovery, Fluent and Space Claim).
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