燃气轮机分布式能源系统主设备选型软件开发
|
摘要
为推进天然气分布式能源项目开发,开展燃气轮机分布式能源项目规划和前期方案研究,自主开发了国内首套燃气轮机分布式能源系统主设备选型软件,从而快速进行主设备选型、性能计算及技经分析。基于能量梯级利用原则,结合燃气轮机分布式能源系统选型优化的先进技术理念和实际项目反馈经验,采用Matlab软件及其优化算法建立了燃气轮机产品性能数据库及性能修正、燃气轮机联合循环热力性能优化、燃气冷热电三联供技术经济分析等计算模块,实现了主设备选型工作的软件智能化替代。介绍了软件开发思路、功能与主要界面,举例分析了某燃气轮机分布式能源项目的选型计算,并将软件结果和项目可研报告进行了对比,结果表明:软件的热力性能计算结果准确,技经分析接近可研深度。软件功能齐全,操作便捷,满足项目前期方案研究需求,能在诸多方案中优选最适合的方案,提升了项目投资决策效率。
To promote the development of natural gas distributed energy projects, and carry out the planning of distributed energy projects and research on the preliminary scheme based on gas turbine, the software for selecting the main equipment of the gas turbine distributed energy system has been independently developed, which can quickly select the main equipment, calculate the performance and analyze the technical process. Based on the principle of energy cascade utilization, in combination with the advanced technology concept of gas turbine distributed energy system selection optimization and experience in actual project feedback, MATLAB software and its optimization algorithm is adopted to establish the gas turbine product performance database and correct performance, thermal performance optimization of gas turbine combined cycle, gas heat and cold electric trigeneration technical and economic analysis and other calculation modules. The intelligent software replacement of the main equipment selection manual work is realized. This paper introduces the idea, function and main interface of software development. The model selection calculation of a gas turbine distributed energy project is analyzed, and the software results are compared with the project feasibility report. The result of software application shows that the thermodynamic performance calculation is accurate, and the technical analysis is close to the depth of the project feasibility report. The software has complete functions and is easy to operate, meeting the research demand of the project's preliminary scheme, selecting the most suitable scheme among many schemes, and improving the efficiency of the project's investment decision-making.
To promote the development of natural gas distributed energy projects, and carry out the planning of distributed energy projects and research on the preliminary scheme based on gas turbine, the software for selecting the main equipment of the gas turbine distributed energy system has been independently developed, which can quickly select the main equipment, calculate the performance and analyze the technical process. Based on the principle of energy cascade utilization, in combination with the advanced technology concept of gas turbine distributed energy system selection optimization and experience in actual project feedback, MATLAB software and its optimization algorithm is adopted to establish the gas turbine product performance database and correct performance, thermal performance optimization of gas turbine combined cycle, gas heat and cold electric trigeneration technical and economic analysis and other calculation modules. The intelligent software replacement of the main equipment selection manual work is realized. This paper introduces the idea, function and main interface of software development. The model selection calculation of a gas turbine distributed energy project is analyzed, and the software results are compared with the project feasibility report. The result of software application shows that the thermodynamic performance calculation is accurate, and the technical analysis is close to the depth of the project feasibility report. The software has complete functions and is easy to operate, meeting the research demand of the project's preliminary scheme, selecting the most suitable scheme among many schemes, and improving the efficiency of the project's investment decision-making.
引文
[1] 国家发展改革委, 国家能源局. 电力发展“十三五”规划(2016—2020年)[R]. 北京: 国家能源局, 2016.
[2] 国家发展改革委, 天然气发展“十三五”规划[R]北京: 国家发展改革委, 2016.
[3] 杨方得. 热电冷三联供系统综合性能分析[D]. 西安: 长安大学, 2011. YANG Fangde. Comprehensive performance analysis of thermoelectric cooling triplex supply system[D]. Xi’an: Chang’an University, 2011.
[4] 黄妮娜, 李培元, 应炬锋. 燃气分布式系统的经济性[J]. 分布式能源, 2016, 1(2), 61-66. HUANG Nina, LI Peiyuan, YING Jufeng. Economic analysis of distributed system[J]. Distributed Energy, 2016, 1(2), 61-66.
[5] 王涛, 周琬谕, 朱根荣. 分布式能源与燃气轮机选型[C]//中国电机工程学会燃气轮机发电专业委员会2014年学术年会论文集. 深圳: 中国电机工程学会燃气轮机发电专业委员会, 2014: 11.
[6] 中华人民共和国国家发展和改革委员会. 关于发展天然气分布式能源的指导意见, 发改能源[2011]2196号[EB/OL]. (2011-10-09)[2018-12-27]. http://www.ndrc.gov.cn/zcfb/zcfbtz/201110/t20111013_438374.html.
[7] 中华人民共和国国家发展和改革委员会. 热电联产管理办法, 发改能源[2016]617号[EB/OL]. (2016-03-22)[2018-12-27]. http://www.ndrc.gov.cn/zcfb/zcfbtz/201604/t20160418_798342.html.
[8] 电力规划设计总院. DL/T 5508—2015, 燃气分布式供能站设计规范[S]. 北京: 中国计划出版社, 2015.
[9] 王建伟. 燃气分布式能源系统中汽轮机的选型[J]. 华电技术, 2015, 37(5): 30-34.WANG Jianwei. Turbine selection in gas distributed energy system[J]. Huadian Technology, 2015, 37(5): 30-34.
[10] 朱柯丁, 李效臻, 谭忠富, 等. 天然气分布式冷热电联供系统节能减排技术经济分析模型[J].技术经济, 2012, 31(5): 82-86.ZHU Keding, LI Xiaozhen, TAN Zhongfu, et al. Technical and economic analysis model for energy saving and emission reduction of natural gas distributed cold, hot and power supply system[J]. Technical and Economic, 2012, 31(5): 82-86.
[2] 国家发展改革委, 天然气发展“十三五”规划[R]北京: 国家发展改革委, 2016.
[3] 杨方得. 热电冷三联供系统综合性能分析[D]. 西安: 长安大学, 2011. YANG Fangde. Comprehensive performance analysis of thermoelectric cooling triplex supply system[D]. Xi’an: Chang’an University, 2011.
[4] 黄妮娜, 李培元, 应炬锋. 燃气分布式系统的经济性[J]. 分布式能源, 2016, 1(2), 61-66. HUANG Nina, LI Peiyuan, YING Jufeng. Economic analysis of distributed system[J]. Distributed Energy, 2016, 1(2), 61-66.
[5] 王涛, 周琬谕, 朱根荣. 分布式能源与燃气轮机选型[C]//中国电机工程学会燃气轮机发电专业委员会2014年学术年会论文集. 深圳: 中国电机工程学会燃气轮机发电专业委员会, 2014: 11.
[6] 中华人民共和国国家发展和改革委员会. 关于发展天然气分布式能源的指导意见, 发改能源[2011]2196号[EB/OL]. (2011-10-09)[2018-12-27]. http://www.ndrc.gov.cn/zcfb/zcfbtz/201110/t20111013_438374.html.
[7] 中华人民共和国国家发展和改革委员会. 热电联产管理办法, 发改能源[2016]617号[EB/OL]. (2016-03-22)[2018-12-27]. http://www.ndrc.gov.cn/zcfb/zcfbtz/201604/t20160418_798342.html.
[8] 电力规划设计总院. DL/T 5508—2015, 燃气分布式供能站设计规范[S]. 北京: 中国计划出版社, 2015.
[9] 王建伟. 燃气分布式能源系统中汽轮机的选型[J]. 华电技术, 2015, 37(5): 30-34.WANG Jianwei. Turbine selection in gas distributed energy system[J]. Huadian Technology, 2015, 37(5): 30-34.
[10] 朱柯丁, 李效臻, 谭忠富, 等. 天然气分布式冷热电联供系统节能减排技术经济分析模型[J].技术经济, 2012, 31(5): 82-86.ZHU Keding, LI Xiaozhen, TAN Zhongfu, et al. Technical and economic analysis model for energy saving and emission reduction of natural gas distributed cold, hot and power supply system[J]. Technical and Economic, 2012, 31(5): 82-86.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |