Examining the efficacy of cooling pad technology to address increasing building cooling demand in Latvia

IF 2.2 Q2 CONSTRUCTION & BUILDING TECHNOLOGY Frontiers in Built Environment Pub Date : 2023-09-01 DOI:10.3389/fbuil.2023.1258625
A. Prozuments, A. Borodinecs, Kristina Lebedeva, Arturs Palcikovskis
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Abstract

Over the past decades there has been a strong evidence of a temperature rise across the world that has led to a growing concern of more extreme weather patterns and regular seasonal heat waves globally. As such, building occupants are at a continuously growing risk to overheating exposure inside the premises throughout the warm season of the year. This study investigates the utilization of cooling pad technology as a potential solution to enhance cooling efficiency. Compared to traditional cooling methods, the implementation of cooling pads leads to significant reductions in temperature and enhanced humidity control, while consuming relatively lower amounts of energy. The study contains a comprehensive analysis of the climatic conditions in Latvia, focusing on temperature and humidity variations throughout the year over the last decade in three cities–Riga, Daugavpils and Liepaja, that extensively represent the scope of climatic variations across Latvia, featuring coastal and continental climate patterns. This study aims to evaluate the effectiveness and suitability of cooling pad technology in Nordic climate, focusing on three Latvian cities. The novelty of the study lies in its analysis of cooling pad technology’s effectiveness in Nordic climatic conditions in addressing the increasing cooling demand. The paper examines the fundamental principles behind cooling pad technology, its impact on chiller performance, and its ability to optimize the cooling process. The utilization of cooling pad technology as an effective means to enhance cooling efficiency across the building stock to improve occupant comfort level and IEQ is highlighted. The results demonstrate 5.47% COP increase during average summer temperature conditions, and 17.78% COP increase in peak summer temperature conditions after implementation of cooling pads. This study contributes to the existing knowledge on cooling technologies, offering practical recommendations for the implementation of cooling pad systems use in Latvia and across the wider Nordic region, which is experiencing the gradual rise in summer temperature and humidity level.
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检查冷却垫技术的有效性,以满足拉脱维亚日益增长的建筑冷却需求
在过去的几十年里,有强有力的证据表明,世界各地的气温上升,导致人们越来越担心全球出现更极端的天气模式和规律的季节性热浪。因此,在一年中的整个温暖季节,建筑物内的居住者暴露在过热环境中的风险不断增加。本研究探讨了利用冷却垫技术作为提高冷却效率的潜在解决方案。与传统的冷却方法相比,冷却垫的实施显著降低了温度并增强了湿度控制,同时消耗了相对较低的能量。该研究对拉脱维亚的气候条件进行了全面分析,重点关注里加、道加夫皮尔斯和利帕贾三个城市在过去十年中全年的温度和湿度变化,这些城市广泛代表了拉脱维亚各地的气候变化范围,具有沿海和大陆气候模式。本研究旨在评估冷却垫技术在北欧气候下的有效性和适用性,重点关注拉脱维亚的三个城市。这项研究的新颖之处在于它分析了冷却垫技术在北欧气候条件下解决日益增长的冷却需求的有效性。本文探讨了冷却垫技术背后的基本原理,它对冷水机组性能的影响,以及它优化冷却过程的能力。强调了利用冷却垫技术作为提高整个建筑存量冷却效率的有效手段,以提高居住者的舒适度和IEQ。结果表明,在夏季平均温度条件下,COP增加5.47%,在夏季高峰温度条件下实施冷却垫后,COP增长17.78%。这项研究为现有的冷却技术知识做出了贡献,为拉脱维亚和整个北欧地区使用冷却垫系统提供了实用建议,该地区正经历着夏季温度和湿度水平的逐渐上升。
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
Frontiers in Built Environment
Frontiers in Built Environment Social Sciences-Urban Studies
CiteScore
4.80
自引率
6.70%
发文量
266
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