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风光氢储综合能源系统优化配置 被引量:8

Optimized Configuration of Wind-Solar Hydrogen Storage Integrated Energy System
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摘要 由于能源危机和大量使用化石能源造成的环境污染,可再生能源技术在近几年中得到迅速发展。但风电、光伏等发电设备出力的波动性及其大规模并网带来的扰动也逐渐成为限制可再生能源更大规模应用的严峻问题。氢能源具有来源众多、清洁无污染、能量密度大、可再生、易存储、用途广泛等特性,适宜作为可再生能源的二次载体,因此,含可再生能源发电和氢储能设备的综合能源系统将成为未来能源系统的主要发展方向。本文立足于风光氢储综合能源系统,通过建立运行模型,研究其以经济效益为目标的优化配置方法,为综合能源系统的建设和氢能源的应用提供有效参考。 Due to the energy crisis and the environmental pollution caused by the massive use of fossil energy,renewable energy technologies have developed rapidly in recent years.However,the volatility of wind power,photovoltaic and other power generation equipment and the disturbance caused by large-scale grid connection have gradually become a serious problem restricting the larger-scale application of renewable energy.Hydrogen energy has the characteristics of many sources,clean and pollution-free,large energy density,renewable,easy to store,and a wide range of uses.It is suitable as a secondary carrier of renewable energy.The system will become the major development direction of the future energy system.This article is based on the wind-solar hydrogen storage integrated energy system,through the establishment of the operation model to study its optimal allocation method with economic benefits as the goal to provide an effective reference for the construction of integrated energy systems and the application of hydrogen energy.
作者 吴锋棒 Wu Fengbang(Sinopec Research Institute of Safety Engineering,Qingdao 266000,China)
机构地区 中国石油化工股份有限公司青岛安全工程研究院
出处 《山东化工》 CAS 2020年第16期135-136,138,共3页 Shandong Chemical Industry
关键词 综合能源系统 氢储能 优化配置 integrated energy system hydrogen storage optimal configuration
分类号 TM614 [电气工程—电力系统及自动化]
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参考文献10

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  • 1张新敬,陈海生,刘金超,李文,谭春青.压缩空气储能技术研究进展[J].储能科学与技术,2012,1(1):26-40. 被引量:146
  • 2倪萌,M.K.H.Leung,K.Sumathy.电解水制氢技术进展[J].能源环境保护,2004,18(5):5-9. 被引量:59
  • 3肖云汉,张士杰.煤炭多联产技术和氢能技术[J].华北电力大学学报(自然科学版),2004,31(6):5-9. 被引量:14
  • 4Wind turbines generates more than 1% of the global electricity[EB/OL].http://www.wwindea.org.
  • 5Sherif S A,Barbir F,Veziroglu T N.Wind energy and the hydrogen economy review of the technology[J].Solar Energy,2005,78(3):647-660.
  • 6Anderson D,Leach M.Harvesting and redistributing renewable energy-on the role of gas and electricity grids to overcome intermittoncy through the generation and storage of hydrogen[J].Energy Policy,2004,32:1603-1614.
  • 7Silva E P D,Nero A J M,Ferreira P F P,et al.Analysis of hydrogen production from combined photovoltaics,wind energy and secondary hydroelectricity supply in Brazil[J].Solar Energy,2005,78(1):647-660.
  • 8Leighty B.Electrolysis production of hydrogen from wind and hydropower[R].DOE-NREL,9-10 Sept.03,Washington DC.
  • 9Agbossou K,Chahine R,Hamelin J,et al.Renewable energy systems based on hydrogen for remote applications[J].Journal of Power Sources,2001,96:168-172.
  • 10Isherwood W,Smith J R.Remote power systems with advanced storage technologies for Alaskan villages[J].Energy,2000,25:1005-1020.

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山东化工
2020年 第16期

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