巴基斯坦哈塔尔工业园区第七期太阳能-生物质并网混合系统的未来可行性分析和建模

Adeem Zahid , Muhammad Kashif Shahzad , Shah Rukh Jamil , Nadeem Iqbal
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引用次数: 2

摘要

由于能源价格上涨和危机,混合可再生能源系统(HRES)是世界能源部门经常讨论的话题。具有成本效益和不间断的电力供应是能源部门面临的主要挑战,这将在本次评估工作中加以解决。在本研究中,对Hattar工业区第七阶段的太阳能生物质上网HRES进行了评估。哈塔工业区不同行业的历史电力需求被计算在内,以绘制全年负荷曲线。约130000 kW的峰值需求和30%的储备裕度被视为拟议混合系统技术经济分析的基础。该混合系统的能量模型是在电力可再生能源混合优化模型(HOMER)中开发的。对不同组件尺寸的太阳能-生物质并网混合系统进行了分析,以获得具有最小能源成本(COE)、净现值成本(NPC)和初始资本投资(ICI)的最优配置。此外,还针对太阳辐照度和生物质资源可用性等输入资源参数,对优化配置进行了敏感性分析。优化和灵敏度分析表明,70000千瓦太阳能光伏、7000千瓦沼气发电机和开源电网是哈塔工业区第七阶段最可行的混合系统选择。该最佳系统的COE最低,即在所有拟议配置中,14.11卢比/千瓦时(0.092美元/千瓦时),回收期为4.6年,碳排放量显著减少。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Futuristic feasibility analysis and modelling of a solar-biomass on-grid hybrid system for Hattar Industrial Estate Phase (VII), Pakistan

Futuristic feasibility analysis and modelling of a solar-biomass on-grid hybrid system for Hattar Industrial Estate Phase (VII), Pakistan

Hybrid renewable energy systems (HRES) is a frequently discussed topic in the energy sector world due to the rising energy prices and crisis. The cost-effective and uninterrupted power supply is the major challenge of the energy sector which is to be dealt with in this assessment work. In this study, an assessment of a solar-biomass on-grid HRES is carried out for Hattar Industrial Zone phase-VII. Historical electricity demand for different industries in Hattar industrial estate is accounted to develop the year-round load curve. The peak demand of about 130,000 kW with a reserve margin of 30% is considered as the base for techno-economic analysis of the proposed hybrid system. The energy model of this hybrid system is developed in Hybrid Optimization Model for Electric Renewables (HOMER). The solar biomass on-grid hybrid system with different component sizes is analysed to get an optimal configuration having the least cost of energy (COE), net present cost (NPC) and initial capital investment (ICI). Moreover, the sensitivity analysis of the optimized configuration is carried out further against the input resource parameters like solar irradiance and biomass resource availability. Optimization and, sensitivity analysis resulted out that the 70,000 kW solar PV, 7000 kW biogas generator with the open-source grid is the most viable hybrid system option for the Hattar industrial zone phase-VII. This optimal system has the least COE, i.e., Rs 14.11/kWh ($0.092/kWh) amongst all the proposed configurations with a payback period of 4.6 years and there is a significant reduction in carbon emissions.

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