A Review on Solar Thermal Utilization for Industrial Heating and Cooling Processes: Global and Ethiopian Perspective

IF 0.3 Q4 MULTIDISCIPLINARY SCIENCES Momona Ethiopian Journal of Science Pub Date : 2021-05-09 DOI:10.4314/MEJS.V12I2.6
Yacob Gebreyohannes, M. Bayray, J. Lauwaert
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引用次数: 2

Abstract

A substantial share of the total energy in various countries is consumed by industries and manufacturing sectors. Most of the energy is used for low and medium temperature process heating (up to 300 degrees C) as well as low and medium cooling capacity (up to 350kW). To meet the demand, the industrial sector consumes most of its energy in either thermal (heat) or electrical energy forms. The use of fossil fuels accounts for about half of the overall share. This resulted in a necessity to commercialize local and clean renewable energy sources efficiently considering the reduction of economic dependence on fossil fuels and greenhouse gases emission. As such, solar energy has proven potential and resulted in considerable development and deployment of solar heating industrial processes (SHIP) and solar cooling systems in recent times. Thus, an attempt to present a review of the available literature on overall energy intensiveness, process temperature levels, solar technology match, and solar thermal system performance and cost have been made in this paper. The review also includes identifying the potential and relevance of involving solar thermal for industrial heating and cooling demand. As a result, at least 624 SHIP including promising large-scale plants and 1350 solar cooling systems most of them in small and medium capacities in operation are identified. Though limited data is available for solar cooling potential and installation, investigations projected the global SHIP potential to 5.6 EJ for 2050. Consequently, given the presence of many low and medium temperature heating processes and cooling capacities in industries with immense solar energy potential, developing counties such as Ethiopia can take experience and pay attention to the development of sustainable industrial systems.
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太阳能在工业供暖和制冷过程中的热利用:全球和埃塞俄比亚视角
各国工业和制造业消耗了能源总量的很大一部分。大部分能源用于中低温过程加热(可达300℃)以及中低温制冷量(可达350kW)。为了满足需求,工业部门以热能或电能形式消耗大部分能源。化石燃料的使用约占总份额的一半。考虑到减少对化石燃料和温室气体排放的经济依赖,这导致有必要有效地将当地和清洁的可再生能源商业化。因此,太阳能已被证明具有潜力,并导致近年来太阳能加热工业过程(SHIP)和太阳能冷却系统的大量发展和部署。因此,本文试图对现有的关于整体能源强度、工艺温度水平、太阳能技术匹配以及太阳能热系统性能和成本的文献进行综述。审查还包括确定将太阳能热用于工业供暖和制冷需求的潜力和相关性。结果,确定了至少624个SHIP,其中包括有前途的大型工厂和1350个太阳能冷却系统,其中大多数是中小型运行能力。尽管关于太阳能冷却潜力和安装的数据有限,但调查预测,到2050年,全球SHIP潜力将达到5.6 EJ。因此,鉴于在具有巨大太阳能潜力的工业中存在许多低温和中温加热过程和冷却能力,埃塞俄比亚等发展中国家可以吸取经验并注意发展可持续的工业系统。
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来源期刊
Momona Ethiopian Journal of Science
Momona Ethiopian Journal of Science MULTIDISCIPLINARY SCIENCES-
自引率
0.00%
发文量
13
审稿时长
12 weeks
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