利用地热能提高全空气暖通空调系统性能 - 案例研究、热分析和经济见解

Mohamad Darwiche , Jalal Faraj , Samer Ali , Rabih Murr , Rani Taher , Hicham El Hage , Mahmoud Khaled
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摘要

要解决既要达到热舒适度又要减少能源消耗和二氧化碳排放的双重挑战,其背景是相同的。从 COVID-19 大流行的经验教训来看,作为防止污染恶化的保障措施,将地热能与全空气供暖、通风和空调系统(HVAC)结合使用,实现 100% 的新鲜空气吸入,也是至关重要的。因此,本研究建议使用地热能作为运行典型的全空气中央空调系统的备用能源。由此产生的系统从现在起被称为组合系统,其主要目标是降低所需的运行能耗,同时兼顾环保和经济效益。在这种情况下,将建议的地热管道与 All-Air 暖通空调系统相结合的创造性方式具有多种启示,这一点已通过全面的热分析和相关设计得到证明。以黎巴嫩为重点的全面案例研究得出了强有力的结论:增加 100% 的新风进气量每年可节约 67% 的能源,而配置 10% 和 30% 的新风分别可节约 52% 和 36% 的能源。研究还建议并考察了地热多管道系统。研究表明,采用地热多管道系统后,压力为 7000 Pa 的单个地热管道长度从 311 米减少到 210 米,压降降低到 140 Pa。此外,正如计算出的投资回收期所表明的那样,集成系统提供了一个极具吸引力的机会,可在能源消耗期间大幅削减资源使用量,降低二氧化碳排放量,并提供 100% 的新鲜空气循环。
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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Using geothermal energy in enhancing all-air HVAC system performance - Case study, thermal analysis and economic insights
The background is the same for addressing the twin challenges of attaining thermal comfort and concurrently reducing energy use and CO2 emissions. As a safeguard against worsening contamination, combining geothermal energy with an All-Air Heating, Ventilating, and Air Conditioning system (HVAC) with 100 % fresh air intake is also crucial in the context of the lessons learned from the COVID-19 pandemic. As a result, this study suggests using geothermal energy as a backup source to run a typical All-Air centralized HVAC system. The resulting system is referred to as a combined system from now on, and its primary goals are to lower the amount of operating energy needed while being environmentally and financially sound. In this context, the creative way of combining the suggested geothermal duct with the All-Air HVAC system possesses various insights, as demonstrated by the thorough thermal analysis and related design. Strong conclusions were derived from a thorough case study focused on Lebanon: adding 100 % fresh air intake leads to an astounding yearly energy savings of 67 %, whereas configurations with 10 % and 30 % fresh air produced energy savings of 52 % and 36 %, respectively. In the study, a geothermal multi-duct system was also suggested and looked at. The research revealed that the 311-m length of the single geothermal duct connected to a pressure of 7000 Pa was reduced to 210 m and the pressure drop was lowered to 140 Pa when a geothermal multi-duct system was employed. Furthermore, as the computed payback period makes clear, the integrated system presents an appealing chance to drastically cut resource usage during energy consumption, lower CO2 emissions, and provide 100 % fresh air circulation.
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