Integracija toplotnih pumpi u postojeći energetski sistem u malim i srednjim preduzećima

Energija, ekonomija, ekologija Pub Date : 1900-01-01 DOI:10.46793/eee22-3.32z

D. Živković, D. Končalović, V. Vukašinović, M. Josijević, D. Gordić

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Abstract

Industry processes are characterized by large amounts of energy losses dissipated as waste heat to the ambient. In industry sectors analysed in the US, China and EU28 lowtemperature waste heat below 230ºC makes up from 33% up to 60% of waste heat. The recovery of low-temperature waste heat is usually complex, affected by the user demand, mismatches between the waste heat source and the user demand, limited space for heat recovery facilities, the heat-power conversion is not efficient for low-temperature waste heat, payback period, etc. The purpose of this paper is to present a methodology for technical and economic analysis of waste heat recovery. To address the issue of sensible criterion, methodology appropriate for small and medium enterprises is developed and in this paper, the user-friendly optimization integrating the heat exchange, energy conversion and heat storage is presented. A case study of waste heat recovery from an induction machine cooling system is used to demonstrate the applicability of the proposed methodology. The introduced methodology can simplify the heat pump integration process, and the proposed method can be further extended to other industrial processes for low-grade waste heat recovery.

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工业过程的特点是大量的能量损失作为废热散发到环境中。在美国、中国和欧盟28国所分析的工业部门中，230ºC以下的低温废热占废热的33%至60%。低温余热的回收通常比较复杂，受用户需求、余热源与用户需求不匹配、热回收设施空间有限、低温余热热电转换效率不高、回收期等因素的影响。本文的目的是提出一种废热回收的技术和经济分析方法。为了解决合理准则的问题，本文开发了适合中小企业的方法，并提出了集热交换、能量转换和蓄热于一体的用户友好优化方法。一个案例研究的余热回收从感应电机冷却系统是用来证明提出的方法的适用性。该方法可以简化热泵集成过程，并可进一步推广到其他工业低品位废热回收过程中。

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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Energija, ekonomija, ekologija

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