Effect of energy conservation by adopted PV/SC system in subtropical regions

2010 5th IEEE Conference on Industrial Electronics and Applications Pub Date : 2010-06-15 DOI:10.1109/ICIEA.2010.5515061

K. Uchida, T. Senjyu, A. Yona, N. Urasaki

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引用次数: 1

Abstract

At present, large amounts of CO2 are emitted from residential households which are increasing rapidly. Thus, it is expected that renewable energy system, e.g., photovoltaic (PV) system, and solar collector (SC) system will be adopted in those houses. However, the initial cost of PV system is very high and it is difficult for house owners to recover the initial cost within the life time of PV and SC system. Therefore, Japanese government proposed Renewable Portfolio Standard (RPS), Feed-in tariff and etc, to support the house owners. This paper evaluates the reduction of energy, CO2 and cost by comparison of performances with the proposed PV, SC and hybrid (PV/SC) systems included economic effect of Feed-in tariff. The performances were evaluated from the adoption effect of the proposed system by testing electric houses with electrical water heater system or heat pump system (HP). As a result, energy reduction rate of all-electric house with adopted PV/SC electrical water heater system is 94.1%. Furthermore, cost reduction rate and applied Feed-in tariff of all-electric house with adopted PV/SC electrical water heater system is 176.5%. Cost reduction rate and applied Feed-in tariff of all-electric house with HP adopted PV/SC system is 195.9%. Empirical results indicate that this adoption of PV/SC system can reduce energy consumption, CO2 and cost efficiently.

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亚热带地区采用光伏/SC系统的节能效果

目前，大量的二氧化碳排放是由居民家庭，并迅速增加。因此，预计这些住宅将采用可再生能源系统，例如光伏系统和太阳能集热器系统。然而，光伏系统的初始成本非常高，业主很难在光伏和SC系统的生命周期内收回初始成本。因此，日本政府提出了可再生能源投资组合标准(RPS)、上网电价等措施来支持房主。本文通过比较拟议的光伏、SC和混合(PV/SC)系统的性能，包括上网电价的经济影响，来评估能源、二氧化碳和成本的减少。通过对有电热水器系统或热泵系统的家庭进行测试，从系统的采用效果来评价系统的性能。结果表明，采用光伏/SC电热水器系统的全电住宅节能率为94.1%。采用光伏/SC电热水器系统的全电住宅的成本降低率和应用上网电价为176.5%。采用光伏/SC系统的HP全电动住宅的成本降低率和应用上网电价为195.9%。实证结果表明，采用光伏/SC系统可以有效地降低能源消耗、二氧化碳排放和成本。

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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2010 5th IEEE Conference on Industrial Electronics and Applications

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