基于参数的太阳能光热-光伏一体化多商品储存设施技术经济评价

Energy Storage Pub Date : 2024-09-02 DOI:10.1002/est2.70022
Malik Shahzaib, Abdul Moeez, Abdul Ghafoor Memon, Laveet Kumar
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摘要

对于热带国家来说,农产品收获后的损失和变质是一个重大问题,而对于巴基斯坦等电力短缺的国家来说,这一问题则更具挑战性。因此,本研究重点关注冷库的能源和经济分析,根据季节和全年的储存跨度来储存三种产品(马铃薯、石榴和土豆)。冷库的制冷负荷由 LiBr-H2O 蒸汽吸收和蒸汽压缩制冷系统提供支持,以在冷藏期间保持每种产品所需的温度。冷库制冷系统的运行安装了太阳能光电系统。通过利用巴基斯坦拉合尔的环境条件开发集成系统的热模型,对冷库性能进行了分析。此外,还进行了参数研究,以分析各种工作参数对集成系统性能的影响。研究发现,由于石榴装载月份的环境条件较高,冷库内的最大峰值制冷负荷为 91 千瓦。产品装载率对冷库的冷却负荷有很大影响,并与之直接相关,产品装载率从 0 公斤/天增加到 50 000 公斤/天,冷却负荷也从 34 千瓦增加到 87 千瓦。为满足蒸汽吸收系统发电机的热需求,安装了抛物面槽来运行冷库,结果发现至少需要四个抛物面槽来支持最大产品装载率和最小 DNI 值下的峰值冷却负荷。为满足冷库电气设备和蒸汽压缩系统压缩机的电力需求,安装了太阳能光伏板,结果发现在最小倾斜辐射值下至少需要 618 块太阳能光伏板。为了验证拟议设计系统的可行性,还进行了经济分析,结果显示金诺和马铃薯的投资回收期为 12 年,石榴的投资回收期为 16 年。
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Parametric Based Techno-Economic Evaluation for a Solar Thermal-PV Integrated Multi-Commodity Storage Facility

Postharvest losses and spoilage of agricultural products are a major problem for tropical countries, and it is even more challenging for countries encountering fluctuating power shortages, such as Pakistan. Therefore, this study focused on the energy and economic analysis of cold storage to store three products (potatoes, pomegranates, and potatoes) according to the season and storage span throughout the year. The cooling load of the cold store was supported by a LiBr-H2O vapor absorption and vapor compression refrigeration system to maintain the desired temperature for each product during cold storage. A solar thermal PV system is installed to operate cold storage refrigeration systems. Cold storage performance was analyzed by developing thermal models of integrated systems using the ambient conditions of Lahore, Pakistan. A parametric study was also conducted to analyze the impact of various working parameters on integrated system performance, and it was found that the maximum peak cooling load of 91 kW inside cold storage is attributed to pomegranates owing to high ambient conditions during its loading month. The product loading rate significantly affects the cooling load of cold storage and varies directly with it, as observed for an increase in the product loading rate from 0 to 50 000 kg/day cooling load also increases from 34 to 87 kW. To meet the thermal demand of the generator of the vapor absorption system, parabolic troughs were installed to operate cold storage, and it was found that a minimum of four PTC were needed to support the peak cooling load at the maximum product loading rate and minimum DNI value. To meet the electrical demand of cold storage electrical equipment and the compressor of the vapor compression system, solar photovoltaic panels were installed, and it was found that a minimum of 618 panels was required at a minimum tilted radiation value. To validate the viability of proposed design system economic analysis was also conducted which revealed a payback period of 12 years for Kinnow and potatoes and 16 years for pomegranates.

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