现有地热发电厂的建模与仿真——以达拉加特地热发电厂为例

Pub Date : 2023-04-04 DOI:10.5541/ijot.1118778
K. F. A. Sukra, D. Permana, W. Adriansyah
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引用次数: 0

摘要

电力需求每年都在增长,人们对可再生能源的认识和使用也在提高。地热发电厂(GPP)甚至被视为一种在全球范围内具有巨大潜力的可再生能源。GPP技术不断发展。然而,用于分析GPP系统的工具仍然不足。在本研究中,设计了一个简单的分析工具。该分析工具的有用之处在于能够了解GPP工作的状态。该工具将有助于模拟电厂系统中可能出现的情况。模拟结果也将是可能发生的已知操作条件,因此操作员可以确定如果发生情况应该做什么。建模开始使用微软Excel,它已经配备了热力学特性。建模包括涡轮机、冷凝器、冷却塔和抽取系统的不凝气体。在验证后,该模型在可能发生的变化中运行模拟,例如冷凝器和冷却塔的条件以及以相对湿度表示的环境条件的下降。随着条件的变化,模拟将使涡轮机产生的功率降低3-5%。
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Modelling and Simulation of Existing Geothermal Power Plant: A Case Study of Darajat Geothermal Power Plant
The electrical energy needs grow every year, increasing awareness and use of renewable energy even higher. Geothermal power plants (GPP) are even ogled as a renewable energy source that has a lot of potential worldwide. Technology for GPP continues to evolve. However, tools for analyzing a system of GPP are still inadequate. In this study, a simple analysis tool was designed. The usefulness of this analysis tool is to be able to know the state of the GPP works. This tool will help simulate the conditions that may occur in the plant system. The simulation results will also be known operating conditions that may occur, so the operator can determine what should be done if things happen. Modeling started using Microsoft Excel, which has been equipped with thermodynamic properties. Modeling includes turbine, condenser, cooling tower, and extraction systems non-condensable gas. After validated, the model run simulation in variations that may occur such as decline in the condition of the condenser and cooling tower and environmental conditions, represented by relative humidity. The simulation with variation of condition will decrease the power generated from turbine 3 – 5%.
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