Energy, Economic and Environmental (3E) Assessments on Hybrid Renewable Energy Technology Applied in Poultry Farming

Yuanlong Cui, S. Riffat, E. Theo, Tugba Gurler, X.-W. Xue, Z. Soleimani
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引用次数: 2

Abstract

This chapter aims to design, construct and test a new and renewable heating system for fulfilling the energy demand and ameliorating the interior environment of poultry farming in the UK. This system consists of a photovoltaic/thermal module attached to the polyethylene heat exchanger integrated with a geothermal copper pipe array and heat pump. The thermal and electrical energy performance of the hybrid renewable heating system is investigated based on a numerical model and experimental test. Moreover, the economic analysis (and environmental assessment are conducted. It is concluded that the electrical energy production from the photovoltaic array could reach 11867 kWh per annum whereas the heat pump thermal output is about 30210 kWh per annum. Meanwhile, the overall gas and electrical cost of the hybrid renewable heating system are £320 and £129, which are much less than that of the gas burners system and could save £763 and £750, respectively, resulting in less than 6-year of payback period. The energy consumption of the hybrid renewable heating system could decrease about 28873 kWh, resulting in a reduction in total CO2 emission of approximately 8.3 tons, in comparison with the gas burners system.
混合可再生能源技术在家禽养殖中的应用的能源、经济和环境(3E)评价
本章旨在设计、建造和测试一种新的可再生供暖系统,以满足能源需求并改善英国家禽养殖的室内环境。该系统由附在聚乙烯热交换器上的光伏/热模块组成,该热交换器集成了地热铜管阵列和热泵。基于数值模型和实验测试,对可再生混合供热系统的热能和电能性能进行了研究。并进行了经济分析和环境评价。得出的结论是,光伏阵列的年发电量可达11867千瓦时,而热泵的年发电量约为30210千瓦时。同时,混合可再生供暖系统的整体燃气和电力成本分别为320英镑和129英镑,远低于燃气燃烧器系统,可分别节省763英镑和750英镑,投资回收期不到6年。与燃气燃烧器系统相比,混合可再生供暖系统的能耗可减少约28873千瓦时,导致二氧化碳总排放量减少约8.3吨。
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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