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首页> 外文期刊>Energy Conversion & Management >Design and implementation of a robotic active solar distiller based on a Fresnel concentrator and a photovoltaic system
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Design and implementation of a robotic active solar distiller based on a Fresnel concentrator and a photovoltaic system

机译:基于菲涅尔聚光器和光伏系统的机器人主动式太阳能蒸馏器的设计与实现

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摘要

In this article, an active solar distiller is designed and implemented. The distiller consists of a Fresnel lens concentrator with an auxiliary photovoltaic energy collector, which supplies an electrical water preheating process. The light concentrator and the photovoltaic system are oriented through a three-degree-of-freedom robotic system, achieving the sun tracking and focus tasks of the concentration process. The design uses concurrent engineering tools to improve the general behavior of the system for energy collection and water distillation. This approach demands some different analyses such as optical, structural, thermal, and dynamic, modeling, which yield to the main design. The system is validated through different tests concerning the energy collection process and the resulting water quality, leading to an energetically autonomous effective system that can provide an alternative distillation process.
机译:在本文中,设计并实现了一种主动式太阳能蒸馏器。蒸馏器由带有辅助光伏能量收集器的菲涅耳透镜聚光器组成,该聚光器提供电水预热过程。聚光器和光伏系统通过三自由度机器人系统定向,从而实现了聚光过程中的太阳跟踪和聚焦任务。该设计使用并行工程工具来改善系统的总体性能,以进行能量收集和水蒸馏。这种方法需要进行一些不同的分析,例如光学,结构,热和动态建模,这些都可以转化为主要设计。该系统已通过有关能量收集过程和所产生水质的不同测试进行了验证,从而形成了一种具有能源自主性的有效系统,该系统可提供替代的蒸馏过程。

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