印度尼西亚东部欠发达农村地区与生产活动相结合的混合可再生能源系统的技术经济分析

IF 2.9 4区 环境科学与生态学 Q3 ENERGY & FUELS
Clean Energy Pub Date : 2023-11-17 DOI:10.1093/ce/zkad068
Alya Nurul Shafira, Subhan Petrana, R. Muthia, W. Purwanto
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引用次数: 0

摘要

印度尼西亚东部的马鲁古西南地区被认为是一个边疆、最外围和欠发达地区。该地区的居民生活在与世隔绝的岛屿上,其中包括马哈雷塔村的居民,该村只有 9.4% 的居民用上了有限的电力。本研究旨在设计一个经济上可行的可再生能源(RE)混合系统,该系统以太阳能和风能为基础,与该村的生产活动相结合。研究制定了概念方案,以满足该村住宅、社区、商业和生产部门的用电需求。分析采用了技术经济方法。使用 HOMER Pro 优化功能设计了混合系统,并设计了冷藏和干燥系统,以支持相关的生产活动。混合可再生能源系统的优化设计包括 271.62 千瓦的太阳能光伏发电、80 千瓦的风力涡轮机和 1 兆瓦时的铅酸电池。我们发现,只有在全额赠款激励和 0.0808 美元/千瓦时的电价条件下,混合可再生能源系统才具有经济可行性。然而,生产活动方案在经济上都是可行的,冷藏成本为 0.035 美元/千克,干燥成本为 0.082 美元/千克。将混合可再生能源系统与生产活动相结合,可以提高能源系统的经济可行性,并为当地社区创造更多就业机会和增加收入。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Techno-economic analysis of a hybrid renewable energy system integrated with productive activities in an underdeveloped rural region of eastern Indonesia
The Southwest Maluku region in eastern Indonesia is considered a frontier, outermost and underdeveloped region. Its inhabitants live on isolated islands, including the residents of Mahaleta Village, where only 9.4% of the community have limited access to electricity. This study aimed to design an economically feasible hybrid renewable energy (RE) system based on solar and wind energy to integrate with the productive activities of the village. The study developed conceptual schemes to meet the demand for electricity from the residential, community, commercial and productive sectors of the village. The analysis was performed using a techno-economic approach. The hybrid system was designed using the HOMER Pro optimization function, and cold-storage and dryer systems were designed to support related productive activities. The optimized design of the hybrid RE system comprised 271.62 kW of solar photovoltaics, 80 kW of wind turbines and a 1-MWh lead–acid battery. We found that the hybrid RE system would only be economically feasible with a full-grant incentive and an electricity tariff of $0.0808/kWh. However, the productive activity schemes were all economically feasible, with a cold-storage cost of $0.035/kg and a drying cost of $0.082/kg. Integrating the hybrid RE system with productive activities can improve the economic feasibility of the energy system and create more jobs as well as increase income for the local community.
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来源期刊
Clean Energy
Clean Energy Environmental Science-Management, Monitoring, Policy and Law
CiteScore
4.00
自引率
13.00%
发文量
55
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