一种新型太阳能热电联产系统的性能分析

IF 1.4 Q2 ENGINEERING, MULTIDISCIPLINARY

World Journal of Engineering Pub Date : 2022-12-30 DOI:10.1108/wje-05-2022-0185

Subbarama Kousik Suraparaju, A. K, Vijesh Jayan, S. Natarajan

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引用次数: 4

摘要

目的利用可再生能源发电和提供饮用水是目前最可持续的方法之一。因此，目前的研究旨在设计和开发一种新型的热电联产系统，以解决农村地区的电力和饮用水需求。设计/方法/方法热电联产系统主要由太阳能抛物盘聚光器(SPDC)系统组成，在接收器处有一个集中的光伏模块用于发电。它还与用于生产饮用水的低温热脱盐(ltd)系统相结合。此外，还引入了一种新型玉米芯过滤系统进行预处理，以降低海水中的含盐量，然后再将其循环进入SPDC系统的接收器。设计的新型热电联产系统已经在印度普都切里大学Karaikal进行了数值和实验测试，以分析其性能。研究结果:由于采用玉米芯预处理，SPDC系统管道中的结垢明显减少，提高了系统的效率。经玉米芯过滤系统预处理后，海水的电导率、pH和TDS均显著降低。此外，该综合系统每天能够产生6-8升的饮用水。独创性/价值与软管中水的一般循环相比，玉米芯过滤系统的集成减少了结垢的形成。此外，集成的SPDC和ltd系统相对经济，可以产生比太阳能蒸馏器更高的清洁水产量。

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Performance analysis of a novel solar cogeneration system for generating potable water and electricity

Purpose The utilisation of renewable energy sources for generating electricity and potable water is one of the most sustainable approaches in the current scenario. Therefore, the current research aims to design and develop a novel co-generation system to address the electricity and potable water needs of rural areas. Design/methodology/approach The cogeneration system mainly consists of a solar parabolic dish concentrator (SPDC) system with a concentrated photo-voltaic module at the receiver for electricity generation. It is further integrated with a low-temperature thermal desalination (LTTD) system for generating potable water. Also, a novel corn cob filtration system is introduced for the pre-treatment to reduce the salt content in seawater before circulating it into the receiver of the SPDC system. The designed novel co-generation system has been numerically and experimentally tested to analyse the performance at Karaikal, U.T. of Puducherry, India. Findings Because of the pre-treatment with a corn cob, the scale formation in the pipes of the SPDC system is significantly reduced, which enhances the efficiency of the system. It is observed that the conductivity, pH and TDS of seawater are reduced significantly after the pre-treatment by the corncob filtration system. Also, the integrated system is capable of generating 6–8 litres of potable water per day. Originality/value The integration of the corncob filtration system reduced the scaling formation compared to the general circulation of water in the hoses. Also, the integrated SPDC and LTTD systems are comparatively economical to generate higher yields of clean water than solar stills.

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来源期刊

World Journal of Engineering ENGINEERING, MULTIDISCIPLINARY-

CiteScore

4.20

自引率

10.50%

发文量

期刊介绍： The main focus of the World Journal of Engineering (WJE) is on, but not limited to; Civil Engineering, Material and Mechanical Engineering, Electrical and Electronic Engineering, Geotechnical and Mining Engineering, Nanoengineering and Nanoscience The journal bridges the gap between materials science and materials engineering, and between nano-engineering and nano-science. A distinguished editorial board assists the Editor-in-Chief, Professor Sun. All papers undergo a double-blind peer review process. For a full list of the journal''s esteemed review board, please see below.