Design and Development of a Conceptual Solar Energy Laboratory for District Heating Applications

IF 0.9 Q4 GEOCHEMISTRY & GEOPHYSICS
Jaewook Chung, Sreenath Sukumaran, Aleksandr Hlebnikov, Anna Volkova
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Abstract

The decarbonization of the district heating (DH) sector is receiving attention worldwide. Solar energy and heat pump technologies are widely considered in existing and new DH networks. There is a need to understand the influence of solar energy on district heating experimentally. However, only a few university laboratories are focused on district heating aspects. Further, the concept of such laboratories is not adequately disseminated in the scientific literature. The main objective of this paper is to develop a conceptual design of a solar energy laboratory with a focus on district heating systems. The proposed concept forms part of the preliminary study carried out by a research group at the Tallinn University of Technology. First, a brief literature review on solar energy laboratory development is provided. Then, the conceptual design of such a laboratory is presented, along with a case study. Regardless of project size, the main components of a district heating-based solar energy laboratory are solar collectors, thermal energy storage (TES) tanks, and a control system. The proposed laboratory is expected to serve multiple roles, such as a practical laboratory to provide interdisciplinary courses for students, a research and experimental platform for researchers, and a cradle to achieve the campus green initiative. It is roughly estimated that the thermal energy output from the proposed laboratory would meet around 25% of the heat demand of the institutional building during the summer season (May, June, July, and August). It is expected that the present study will be a reference material for the development of innovative energy laboratories in educational institutions.
区域供热应用概念性太阳能实验室的设计与开发
区域供热(DH)部门的脱碳正在受到全世界的关注。太阳能和热泵技术在现有和新的DH网络中被广泛考虑。有必要通过实验了解太阳能对区域供热的影响。然而,只有少数大学实验室专注于区域供热方面。此外,这种实验室的概念在科学文献中没有得到充分传播。本文的主要目的是开发一个太阳能实验室的概念设计,重点是区域供热系统。提出的概念是塔林理工大学一个研究小组进行的初步研究的一部分。首先,对太阳能实验室的发展进行了简要的文献综述。然后,提出了这样一个实验室的概念设计,以及一个案例研究。无论项目规模如何,基于区域供热的太阳能实验室的主要组成部分是太阳能集热器、热能储存(TES)罐和控制系统。拟建的实验室有望发挥多种作用,如为学生提供跨学科课程的实用实验室,为研究人员提供研究和实验平台,以及实现校园绿色倡议的摇篮。粗略估计,拟建实验室的热能输出可满足该机构建筑夏季(5月、6月、7月和8月)25%左右的热需求。预期本研究将成为教育机构发展创新能源实验室的参考材料。
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
Solar-Terrestrial Physics
Solar-Terrestrial Physics GEOCHEMISTRY & GEOPHYSICS-
CiteScore
1.50
自引率
9.10%
发文量
38
审稿时长
12 weeks
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