Water saving potential of CSP-PV hybrid plants

SOLARPACES 2018: International Conference on Concentrating Solar Power and Chemical Energy Systems Pub Date : 2019-07-26 DOI:10.1063/1.5117762

Lukas Haack, M. Schlecht

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Abstract

Within the consideration of the potential benefits of a CSP-PV hybrid over a CSP stand-alone plant, the usage of water has been analyzed. Specifically at arid locations, which are typically preferred for CSP due to the high irradiance, water is a scarce resource, and options to save water are worth consideration. The conservation of water is an important factor in the further development of CSP sites in these areas. In an effort to identify water saving potential of CSP-PV hybrid plants compared with CSP plants, a case study has been performed on the basis of a fictive project in an arid region with an air-cooled condenser (ACC) cooling system. Besides the required make-up water for the CSP steam cycle, the water consumption for cleaning the solar field has been identified as one of the main driver for the total water consumption and has been analyzed in more detail. Provided that PV performance is less affected by soiling when compared to CSP, less cleaning cycles are required for PV modules. The results of this case study show that a CSP-PV hybrid has the potential to reduce the total water consumption of a plant by approximately 43% compared with a CSP only plant configuration. Moreover, the results indicate that the water consumption can further be reduced by almost 60% if dry cleaning is used for the PV modules.Within the consideration of the potential benefits of a CSP-PV hybrid over a CSP stand-alone plant, the usage of water has been analyzed. Specifically at arid locations, which are typically preferred for CSP due to the high irradiance, water is a scarce resource, and options to save water are worth consideration. The conservation of water is an important factor in the further development of CSP sites in these areas. In an effort to identify water saving potential of CSP-PV hybrid plants compared with CSP plants, a case study has been performed on the basis of a fictive project in an arid region with an air-cooled condenser (ACC) cooling system. Besides the required make-up water for the CSP steam cycle, the water consumption for cleaning the solar field has been identified as one of the main driver for the total water consumption and has been analyzed in more detail. Provided that PV performance is less affected by soiling when compared to CSP, less cleaning cycles are required for PV modules. The results...

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CSP-PV混合电站的节水潜力

考虑到CSP- pv混合电厂相对于CSP独立电厂的潜在优势，对水的使用进行了分析。特别是在干旱地区，由于高辐照度，通常首选CSP，水是稀缺资源，节约用水的选择值得考虑。节约用水是这些地区进一步发展光热电站的一个重要因素。为了确定CSP- pv混合电厂与CSP电厂的节水潜力，在干旱地区的一个具有风冷冷凝器(ACC)冷却系统的实际项目的基础上进行了案例研究。除了CSP蒸汽循环所需的补充水外，清洁太阳能场的用水量已被确定为总用水量的主要驱动因素之一，并已进行了更详细的分析。与CSP相比，PV的性能受污染的影响较小，因此PV组件所需的清洁周期更少。本案例研究的结果表明，与仅采用CSP的工厂配置相比，CSP- pv混合系统有可能将工厂的总用水量减少约43%。此外，结果表明，如果光伏组件使用干洗，用水量可以进一步减少近60%。考虑到CSP- pv混合电厂相对于CSP独立电厂的潜在优势，对水的使用进行了分析。特别是在干旱地区，由于高辐照度，通常首选CSP，水是稀缺资源，节约用水的选择值得考虑。节约用水是这些地区进一步发展光热电站的一个重要因素。为了确定CSP- pv混合电厂与CSP电厂的节水潜力，在干旱地区的一个具有风冷冷凝器(ACC)冷却系统的实际项目的基础上进行了案例研究。除了CSP蒸汽循环所需的补充水外，清洁太阳能场的用水量已被确定为总用水量的主要驱动因素之一，并已进行了更详细的分析。与CSP相比，PV的性能受污染的影响较小，因此PV组件所需的清洁周期更少。结果……

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SOLARPACES 2018: International Conference on Concentrating Solar Power and Chemical Energy Systems

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