BOB 现有燃气轮机发电厂的能源、能效、效经和环境(4E)分析 - PT.Bumi Siak Pusako Pertamina 燃气轮机发电厂

Q2 Mathematics
CFD Letters Pub Date : 2024-05-06 DOI:10.37934/cfdl.16.9.113
Awaludin Martin, Mohammad Barbarosa, Fikri Fahlevi Nasution
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引用次数: 0

摘要

印尼的发电厂主要用于为工业部门(包括上游石油和天然气以及采矿公司)提供能源。在廖内省运营的几家公司为该地区成为印尼最大的石油生产国做出了贡献。这些公司的运营依赖于自产电力,从而对环境造成了影响。因此,本研究对 BOB - PT Bumi Siak Pusako - Pertamina Hulu 运营的 6 兆瓦发电厂的能量流、放能、放经济和环境进行了分析。热力学第二定律被用来评估能源效率,即可实现的最大努力。这进一步与经济学原理相结合,通过努力经济学的概念来评估与热动力系统相关的有用成本和浪费成本。结果表明,燃气轮机发电厂的热效率为 42.85%,放能效率为 33.22%,燃烧室内因振动、摩擦或部件膨胀造成的最大损失为 3.091 兆瓦。研究还发现,每个组件的放能效率都高于 75%,这表明燃气轮机发电厂组件的状态良好。此外,最大的放能破坏成本为 2349.16 美元/小时,放能成本为 3778.05 美元/千瓦时。燃气轮机发电厂产生的废气排放量为 0.21 kg/s,相当于 0.1425 kg/kWh,需要 11.63 公顷的森林面积。结果表明,所使用的分析方法可以全面开发并应用于印度尼西亚的其他发电厂。该方法还可用于了解系统性能、确定能源损失、优化能源效率以及将经济方面与能源使用联系起来。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Energy, Exergy, Exergoeconomic, and Environmental (4E) Analysis of the Existing Gas Turbine Power Plants in BOB - PT. Bumi Siak Pusako Pertamina
The power plants in Indonesia are mostly used to supply energy for the industrial sector, including the upstream oil and gas as well as mining companies. Several companies operating in Riau contribute to the status of the region as the largest oil producer in Indonesia. These companies rely on self-generated electricity for their operations with subsequent impact on the environment. Therefore, this research was conducted to analyze the flow of energy, exergy, exergoeconomic, and environment at the 6 MW power plant operated by BOB - PT Bumi Siak Pusako - Pertamina Hulu. The second law of thermodynamics was used to evaluate energy efficiency as the maximum achievable effort. This was further integrated with economic principles to appraise the useful and wasted costs associated with thermodynamic systems through the concept of exergoeconomics. The results showed that the thermal efficiency of the gas turbine power plant was 42.85% and the exergy efficiency was 33.22% with the largest loss recorded in the combustion chamber to be 3.091 MW in the form of vibration, friction, or expansion of the components. It was also discovered that the exergy efficiency of each component was above 75%, thereby indicating the components of the gas turbine power plant components were in good condition. Moreover, the largest exergy destruction cost was 2349.16 USD/h and the exergy cost was 3,778.05 USD/kWh. The exhaust emission generated by the gas turbine power plant was 0.21 kg/s or equivalent to 0.1425 kg/kWh requiring a forest area of 11.63 ha. The results showed that the analytical method used could be comprehensively developed and applied to other power plants in Indonesia. It could also be used to understand system performance, identify energy losses, optimize energy efficiency, and link economic aspects with energy use.
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来源期刊
CFD Letters
CFD Letters Chemical Engineering-Fluid Flow and Transfer Processes
CiteScore
3.40
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发文量
76
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