聚光菲涅耳透镜技术用于热脱盐

SOLARPACES 2018: International Conference on Concentrating Solar Power and Chemical Energy Systems Pub Date : 2019-07-26 DOI:10.1063/1.5117767

C. Sansom, X. Tonnellier, P. King, H. Almond

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引用次数: 1

摘要

我们描述了一种小型热脱盐装置的设计，用于难民营或自然灾害后可能发现的紧急情况。为了提高效率，热蒸发和冷凝器阶段是分开的，该过程由低成本的PMMA浓缩菲涅耳透镜提供动力。阐述了系统的总体概念，并给出了具体设计。讨论了PMMA镜片的耐久性。该设计被计算为在中东和北非地区每天生产100升淡水，DNI>700 W/m2，持续8小时，假设效率为50%。两个制造的原型将在以色列建造，并部署在巴勒斯坦和约旦进行实地测试。我们描述了一种小型热脱盐装置的设计，用于难民营或自然灾害后可能发现的紧急情况。为了提高效率，热蒸发和冷凝器阶段是分开的，该过程由低成本的PMMA浓缩菲涅耳透镜提供动力。阐述了系统的总体概念，并给出了具体设计。讨论了PMMA镜片的耐久性。该设计被计算为在中东和北非地区每天生产100升淡水，DNI>700 W/m2，持续8小时，假设效率为50%。两个制造的原型将在以色列建造，并部署在巴勒斯坦和约旦进行实地测试。

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Concentrating Fresnel lens technology for thermal desalination

We describe the design of a small thermal desalination unit for use in refugee camps or in emergency situations that might be found after natural disasters. The thermal evaporation and condenser stages are separated for higher efficiency and the process is powered by low-cost PMMA concentrating Fresnel lenses. The overall concept is explained, and the detailed design is presented. The durability of the PMMA lenses is discussed. The design is calculated to produce up to 100 litres of fresh water per day in MENA regions with DNI>700 W/m2 over 8 hours, assuming 50% efficiency. Two manufactured prototypes are to be built in Israel and deployed in Palestine and Jordan for field testing.We describe the design of a small thermal desalination unit for use in refugee camps or in emergency situations that might be found after natural disasters. The thermal evaporation and condenser stages are separated for higher efficiency and the process is powered by low-cost PMMA concentrating Fresnel lenses. The overall concept is explained, and the detailed design is presented. The durability of the PMMA lenses is discussed. The design is calculated to produce up to 100 litres of fresh water per day in MENA regions with DNI>700 W/m2 over 8 hours, assuming 50% efficiency. Two manufactured prototypes are to be built in Israel and deployed in Palestine and Jordan for field testing.

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来源期刊

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

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