燃气轮机价格预测为第n厂设备成本

IF 1 4区经济学 Q4 BUSINESS

Engineering Economist Pub Date : 2022-03-17 DOI:10.1080/0013791X.2022.2048330

Fabian Rosner, D. Yang, Ashok Rao, S. Samuelsen

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引用次数: 3

摘要

从历史上看，燃气轮机(gt)一直是为天然气应用而设计的，其成本通常以每千瓦美元为基础进行估算。然而，在研究先进的电力系统，如固体氧化物燃料电池-燃气轮机混合动力系统或其他非常规应用时，这种常用的成本基础无法准确预测这些新型运行条件下的燃气轮机成本，最终导致对整个电力系统的经济评估不准确。在本研究中，采用参数化成本估算方法，根据GT的设计运行状态确定主要成本驱动因素:1)GT空气质量流量，2)GT压缩比和3)GT涡轮入口温度。在此基础上，推导出了预测发电机组价格的成本关联模型，其预测精度R2 = 97.5%。

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Gas turbine price projection for n-th plant equipment cost

Abstract Historically, gas turbines (GTs) have been engineered for natural gas applications and costs are commonly estimated on a $/kW basis. However, when studying advanced power systems such as solid oxide fuel cell-GT hybrids or other unconventional applications, this commonly used cost basis cannot accurately predict the GT cost under these novel operating conditions, which ultimately leads to inaccurate economic evaluations of the entire power system. In this study, a parametric cost estimation approach has been utilized to identify the main cost drivers based upon the GT’s on-design operating condition: I) GT air mass flow rate, II) GT compression ratio and III) GT turbine inlet temperature. Based on these characteristics, a GT cost correlation has been derived which is able to predict the GT genset price with an accuracy level of R2 = 97.5%.

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来源期刊

Engineering Economist ENGINEERING, INDUSTRIAL-OPERATIONS RESEARCH & MANAGEMENT SCIENCE

CiteScore

2.00

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： The Engineering Economist is a refereed journal published jointly by the Engineering Economy Division of the American Society of Engineering Education (ASEE) and the Institute of Industrial and Systems Engineers (IISE). The journal publishes articles, case studies, surveys, and book and software reviews that represent original research, current practice, and teaching involving problems of capital investment. The journal seeks submissions in a number of areas, including, but not limited to: capital investment analysis, financial risk management, cost estimation and accounting, cost of capital, design economics, economic decision analysis, engineering economy education, research and development, and the analysis of public policy when it is relevant to the economic investment decisions made by engineers and technology managers.