Modeling the Behavior of a 50 MW Direct Steam Generation Plant for Southern Libya Based on the Thermodynamic and Thermophysical Properties of Water Substance

Y. Aldali; B. Davison; T. Muneer; D. Henderson

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Modeling the Behavior of a 50 MW Direct Steam Generation Plant for Southern Libya Based on the Thermodynamic and Thermophysical Properties of Water Substance

机译：基于水的热力学和热物理性质对南部利比亚的一个50 MW直接蒸汽发电厂的行为进行建模

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This paper presents arguments for the use of direct steam generation (DSG) in preference to other forms of generation in particular locations according to the prevailing environmental and economic conditions. In addition, the paper describes the development of a software tool based on Microsoft Excel and Visual Basic for Applications (VBA), which draws upon established physical relationships in the heat transfer literature to perform plant capacity calculations in a fast and convenient manner. The results of the VBA program determine the solar fraction of the plant, assuming that the plant is in operation for 10 h per day (07:30-17:30 hours), the solar fraction is shown to be 76% and the DSG plant achieves a 76% reduction in emissions. Construction costs are also estimated based on formulae from previous work.

机译：本文根据现行的环境和经济条件，提出了在特定位置优先使用直接蒸汽发电（DSG）而不是其他形式的发电的论点。此外，本文还介绍了基于Microsoft Excel和Visual Basic for Applications（VBA）的软件工具的开发，该工具利用传热文献中已建立的物理关系来以快速便捷的方式执行工厂产能计算。 VBA计划的结果确定了工厂的太阳能比例，假设工厂每天运行10小时（07：30-17：30小时），太阳能比例显示为76％，而DSG工厂减少了76％的排放。建造费用也根据以前工作的公式估算。

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《Journal of solar energy engineering 》 |2012年第4期| 041001.1-041001.9| 共9页
作者
Y. Aldali; B. Davison; T. Muneer; D. Henderson;
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On leave from Mechanical Engineering Department, Faculty of Engineering, Omar Al-Mukhtar University, Dema, Libya;

On leave from Mechanical Engineering Department, Faculty of Engineering, Omar Al-Mukhtar University, Dema, Libya;

On leave from Mechanical Engineering Department, Faculty of Engineering, Omar Al-Mukhtar University, Dema, Libya;

School of Engineering and Built Environment, Edinburgh Napier University, 10 Colinton Road, Edinburgh EH10 5DT, UK;

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Modeling the Behavior of a 50 MW Direct Steam Generation Plant for Southern Libya Based on the Thermodynamic and Thermophysical Properties of Water Substance

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