Stable and environmentally benign nanofluids for direct absorption solar collectors based on natural deep eutectic solvents

IF 2.8 4区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC Journal of Materials Science: Materials in Electronics Pub Date : 2024-11-12 DOI:10.1007/s10854-024-13821-9

Mingming Pan, Lingling Wang, Nannan Dong, Huaqing Xie, Wei Yu

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Abstract

Direct absorption solar collectors (DASCs) are a new generation of collectors that using nanofluids for directly converting solar radiation into thermal energy, which exist inevitable drawbacks such as unstable working fluid, complex preparation process, high cost etc. A simple, non-toxic, environmentally benign nanofluid with high photothermal conversion efficiency and high stability is requirable for DASCs. In this work, a novel deep eutectic solvent composed of glycerol and betaine is used as working fluids, which exhibit excellent stability and repeatable performance at the working temperature. The highest photothermal conversion efficiency can reach 96.59% for 50 ppm nanofluids, which is 39.57% higher than the pure working fluids. An outdoor experiment is conducted utilizing a heat exchanger to extract warm water (50 ℃) from the nanofluids under flowing conditions, which can fully meet people's daily hot water needs. This study paves a new avenue for seeking for stable and environmentally benign nanofluids in the solar thermal conversion technique.

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基于天然深共晶溶剂的用于直接吸收太阳能集热器的稳定且对环境无害的纳米流体

直接吸收式太阳能集热器（DASCs）是利用纳米流体将太阳辐射直接转化为热能的新一代集热器，存在工作流体不稳定、制备工艺复杂、成本高等不可避免的缺点。DASC 需要一种简单、无毒、环保、光热转换效率高且稳定性好的纳米流体。本研究采用了一种由甘油和甜菜碱组成的新型深共晶溶剂作为工作流体，这种工作流体在工作温度下具有优异的稳定性和可重复性能。50 ppm 纳米流体的最高光热转换效率可达 96.59%，比纯工作流体高出 39.57%。室外实验利用热交换器从纳米流体中提取流动条件下的温水（50 ℃），完全可以满足人们的日常热水需求。这项研究为在太阳能热转换技术中寻求稳定且对环境无害的纳米流体开辟了一条新途径。

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来源期刊

Journal of Materials Science: Materials in Electronics 工程技术-材料科学：综合

CiteScore

5.00

自引率

7.10%

发文量

1931

审稿时长

2 months

期刊介绍： The Journal of Materials Science: Materials in Electronics is an established refereed companion to the Journal of Materials Science. It publishes papers on materials and their applications in modern electronics, covering the ground between fundamental science, such as semiconductor physics, and work concerned specifically with applications. It explores the growth and preparation of new materials, as well as their processing, fabrication, bonding and encapsulation, together with the reliability, failure analysis, quality assurance and characterization related to the whole range of applications in electronics. The Journal presents papers in newly developing fields such as low dimensional structures and devices, optoelectronics including III-V compounds, glasses and linear/non-linear crystal materials and lasers, high Tc superconductors, conducting polymers, thick film materials and new contact technologies, as well as the established electronics device and circuit materials.