Cylindrical PVC pipe: 2D macro light trapper and macroscopic photoprotective tube for fabricating high-concentration brine desalinators?

IF 9.8 1区工程技术 Q1 ENGINEERING, CHEMICAL

Desalination Pub Date : 2025-09-20 DOI:10.1016/j.desal.2025.119427

Sen Ai , Cheng-Yu He , Bao-Hua Liu , Gang Liu , Jun-Shuai Li , Xiang-Hu Gao

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引用次数: 0

Abstract

To date, almost all efforts to develop photothermal materials in the field of photothermal interfacial evaporation have been devoted to exploiting, fabricating and modifying absorbers, which, to some extent, have complex photothermal mechanisms, leading to health risks in fresh water production. This work revealed that a PVC pipe not only can act as a light trapper (2D macro light trapping effect) to almost completely absorb incident solar light by just reabsorbing and multireflecting but can also serve as a macroscopic photoprotective tube to guide light (macroscopic photoprotective tube effect). In terms of the optical guidance effect, photoprotective effect, reflection focusing, geometric constraint and interference of light, a surface that receives an optical power density of 1 kW m⁻² will significantly increase in optical power density when a PVC pipe of a certain diameter and height on it, which is at the bottom of the PVC tube, is standing vertically. Driven by this light mechanism, the optical power density at the solar receiving interface can increase from 1000 to 1651 W m⁻² when the length of pipe 32 in diameter is increased to 7 cm. The fabricated evaporator was bundled with three PVC pipes, as expected, the evaporative interface fully deployed with the macroscopic photoprotective tube (three pipes) performed the best in terms of solar steam generation (2.65 kg m⁻² h⁻¹). On the basis of the trend of salt formation and development, the production of salt and regeneration of evaporators can be easily achieved simultaneously by scraping and wiping. Our proposed photoprotective tubes not only can be exploited in the field of photothermal evaporation but can also be exploited in the field of acupoint photothermal therapy and other fields.

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聚氯乙烯圆柱管：用于制造高浓度盐水脱盐器的二维宏观捕光器和宏观光保护管

迄今为止，在光热界面蒸发领域开发光热材料的所有努力几乎都集中在吸收剂的开发、制造和改性上，这些吸收剂在一定程度上具有复杂的光热机制，导致淡水生产中的健康风险。本研究揭示了聚氯乙烯管不仅可以作为光捕获器（二维宏观光捕获效应），通过重吸收和多反射几乎完全吸收入射太阳光线，还可以作为宏观光保护管引导光线（宏观光保护管效应）。在光引导效应、光保护效应、反射聚焦、光的几何约束和光的干涉方面，当接收光功率密度为1 kW m−2的表面上垂直竖立一定直径和高度的PVC管时，其光功率密度会显著提高。在该光机制的驱动下，当直径32的管道长度增加到7 cm时，太阳能接收界面处的光功率密度可从1000 W m−2增加到1651 W m−2。蒸发器与三根PVC管捆绑在一起，与宏观光保护管（三根管）完全展开的蒸发界面在太阳能蒸汽产生方面表现最佳（2.65 kg m−2 h−1）。根据盐的形成和发展趋势，通过刮擦，可以很容易地同时实现盐的生产和蒸发器的再生。我们提出的光保护管不仅可以应用于光热蒸发领域，还可以应用于穴位光热治疗等领域。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Desalination 工程技术-工程：化工

CiteScore

14.60

自引率

20.20%

发文量

619

审稿时长

41 days

期刊介绍： Desalination is a scholarly journal that focuses on the field of desalination materials, processes, and associated technologies. It encompasses a wide range of disciplines and aims to publish exceptional papers in this area. The journal invites submissions that explicitly revolve around water desalting and its applications to various sources such as seawater, groundwater, and wastewater. It particularly encourages research on diverse desalination methods including thermal, membrane, sorption, and hybrid processes. By providing a platform for innovative studies, Desalination aims to advance the understanding and development of desalination technologies, promoting sustainable solutions for water scarcity challenges.