太阳能Issue(2):72-81,10.DOI:10.19911/j.1003-0417.tyn20240112.01
天然气净化厂分布式光伏发电系统的应用研究
RESEARCH ON APPLICATION OF DISTRIBUTED PV POWER GENERATION SYSTEM IN NATURAL GAS PURIFICATION PLANTS
张明月 1李桃 1陈远祥 1朱伟 1王啸1
作者信息
- 1. 中国石油西南油气田公司川西北气矿,江油 621700
- 折叠
摘要
Abstract
This paper takes a natural gas purification plant in Guangyuan City,Sichuan Province as an example to study and analyze the application of distributed PV power generation systems in such plants.Using PVsyst software to model and simulate the distributed PV power generation system in the shift apartment building,analyze its power generation efficiency and power generation losses,and evaluate the completed distributed PV power generation system in natural gas purification plant from multiple aspects,analyzing its potential in improving power generation efficiency,reducing greenhouse gas emissions,and improving economic benefits.Finally,the challenges faced in the practical application of distributed PV power generation systems in natural gas purification plants are analyzed,and solutions are proposed.The research results show that this distributed PV power generation system in natural gas purification plant has significant CO2 emission reduction,which has a positive significance in reducing greenhouse gas emissions and can create a good ecological operating environment.In practical applications,the grid connection strategy,system layout,and maintenance strategy should be optimized according to the actual situation.This study has important practical significance and industrial application potential for promoting sustainable application of distributed power generation in the energy field and improving the operational efficiency of natural gas purification plants in terms of economic and environmental protection.关键词
天然气净化厂/分布式光伏发电/PVsyst仿真/温室气体排放/经济效益/环境效益Key words
natural gas purification plants/distributed PV power generation/PVsyst simulation/greenhouse gas emissions/economic benefit/environmental benefit分类
信息技术与安全科学引用本文复制引用
张明月,李桃,陈远祥,朱伟,王啸..天然气净化厂分布式光伏发电系统的应用研究[J].太阳能,2025,(2):72-81,10.
