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1.采用通俗易懂的主题问答式手法,深入浅出地介绍了能源互联网的相关专业知识和应用场景,既可以作为关注能源电力发展的大众科普读物,也可以作为去企业和大专院校的教学和培训参考用书。
2.作者为教授级高级工程师,中国电力科学研究院技术战略研究中心研究员,长期从事电力系统自动化领域科研工作。主要研究领域:能源互联网、智能电网、需求侧管理、用电自动化等。学术兼职:IECPC118 WG1/WG2工作组成员,全国智能电网用户接口标准化技术委员会副秘书长,海峡两岸智慧电网共通标准智能用电与需求响应专家小组组长,中国电机工程学会高级会员。文章发表与专著出版:在国内外专业期刊及国际学术会议上发表论文40余篇,主编了《电力负荷管理系统技术及应用》、《智能电网:用电信息采集系统技术及应用》等专著,参编数十部著作。
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| 內容簡介: |
能源互联网,是以可再生能源为优先,电力能源为基础,各种能源协同、供给与消费协同、集中式与分布式协同、大众参与的新型生态化能源系统。能源互联网是智能电网的演进和升级,是能源电力系统发展的更高阶段。利用能源互联网,可提高可再生能源比重,促进互联网与能源系统的深度融合,实现多能源的有效互补和高效利用。
《能源互联网基础》分为七章,第一章阐述了能源互联网发展背景、基本概念、基本架构、意义及效益等;第二章分析了能源互联网的驱动力和发展战略,解读了相关政策和规划;第三章介绍了能源互联网相关标准机构、标准体系和重要标准;第四章从六个方向论述了能源互联网关键技术;第五章描述了能源互联网系统与设备;第六描绘了能源互联网和智慧生态的应用场景;第七章介绍了能源互联网相关的示范应用工程。
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| 關於作者: |
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教授级高级工程师,中国电力科学研究院技术战略研究中心研究员,长期从事电力系统自动化领域科研工作。主要研究领域:能源互联网、智能电网、需求侧管理、用电自动化等。学术兼职:IECPC118 WG1/WG2工作组成员,全国智能电网用户接口标准化技术委员会副秘书长,海峡两岸智慧电网共通标准智能用电与需求响应专家小组组长,中国电机工程学会高级会员。
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| 目錄:
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前言
章 能源互联网概述 ······································································································· 1
1.1 能源互联网发展背景······························································································· 1
1.2 能源互联网基本概念······························································································· 2
1.3 能源互联网的主要特征··························································································· 4
1.4 能源互联网的基本架构··························································································· 5
1.5 能源互联网的发展意义··························································································· 6
1.6 能源互联网的效益分析··························································································· 7
第二章 能源互联网发展战略与规划 ···················································································· 9
2.1 能源互联网发展驱动力··························································································· 9
2.2 能源互联网战略分析····························································································· 10
2.3 能源互联网相关政策······························································································11
2.4 能源互联网相关规划····························································································· 14
第三章 能源互联网技术标准······························································································ 20
3.1 标准组织和机构 ···································································································· 20
3.2 标准体系及标准化工作························································································· 34
3.3 重要技术标准 ········································································································ 48
第四章 能源互联网关键技术······························································································ 56
4.1 新能源发电与并网································································································· 56
4.2 能源电力网架 ········································································································ 73
4.3 负荷与用电 ···········································································································129
4.4 储能·······················································································································147
4.5 网络与信息 ···········································································································159
4.6 共性与集成技术 ···································································································181
第五章 能源互联网设备与系统·························································································205
5.1 设备·······················································································································205
5.2 系统·······················································································································240
5.3 设施·······················································································································267
第六章 能源互联网与智慧生态·························································································285
6.1 行业应用场景 ·······································································································285
6.2 综合应用场景 ·······································································································299
第七章 能源互联网示范应用·····························································································309
7.1 综合示范工程 ·······································································································309
7.2 专业示范工程 ·······································································································318
参考文献 ·······························································································································333
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| 內容試閱:
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能源是经济社会发展的重要物质基础。中国经济经过 30 年高速增长,能源生产量及消耗量已跃居世界,仅煤炭消费量就占全球的 50%。2020 年 9 月 22 日,习近平主席在第七十五届联合国大会一般性辩论上郑重宣布,“中国将提高国家自主贡献力度,采取更加有力的政策和措施,二氧化碳排放力争 2030 年前达到峰值,努力争取 2060年前实现碳中和。”为响应习近平主席号召,积极应对碳排放带来的全球气候变化问题,国家电网有限公司于 2021 年 3 月发布其“碳达峰、碳中和”行动方案,提出电网是连接电力生产和消费的重要网络平台,是能源转型的中心,是电力系统碳减排的核心枢纽,并计划进一步推动电网向能源互联网升级,到 2025 年,初步建成国际领先的能源互联网。
早在 2015 年,习近平总书记在联合国发展峰会上倡导探讨构建全球能源互联网,推动以清洁和绿色方式满足全球电力需求。能源互联网的持续发展,集成能源传输、资源配置、信息交互、智能服务、市场交易于一体,既是未来能源系统发展的重要趋
势,也是通过推动多能协调互补进而推动清洁能源消纳、实现能源行业碳减排的重要手段。能源互联网是智能电网的扩展和延伸,是以智能电网为基础,以消纳新能源为目标,采用先进的信息及通信技术及电力电子技术,通过分布式动态能量管理系统对
分布式能源设备实施广域优化协调控制,实现冷、热、气、水、电等多种能源互补,提高用能效率的新型生态化能源系统。未来,能源互联网的发展将以“双碳”达标为方向,以绿色、低碳、互联、价值为目标,完善能源互联网顶层设计,研究基于“大
云物移智链”的能源互联网关键技术,构建实现电、热、气多类型能源的源–网–荷–储多环节互联互通、互济互动。依托能源互联网,探索商业模式创新,开展网、源、荷一体化运营示范。
本书共分为七章,章阐述了能源互联网发展背景、基本概念、基本架构、意义及效益分析等;第二章分析了能源互联网的驱动力和发展战略,解读了相关政策和规划;第三章介绍了能源互联网相关标准机构、标准体系和重要标准;第四章从六个方向阐述了能源互联网关键技术;第五章阐述了能源互联网系统与设备;第六描述了能源与智慧生活的方方面面;第七章介绍了能源互联网相关的示范应用工程。
本书的编写目的主要是为能源互联网建设提供参考与服务。力求做到内容新颖、知识全面、概念准确、通俗易懂、实用性强、适应面广。本书编写过程中,参考了国内外大量的技术文献,并结合作者开展的相关科研成果和工程实践,为广大读者开阔视野、了解学习能源互联网知识提供了一本快速入门的专业级技术读本。
在本书的大纲框架制定、专题选题和初稿讨论阶段,得到中国能源研究会副会长王凡、东南大学教授汤奕、中国电科院新能源中心张占奎等专家的指导,在本书专题的编写过程中,得到了华北电力大学通信技术研究所师生的热心帮助,本书的专题讨论、资料收集和编辑校对,得到了吴泽志、胡纯瑾、李含嵩、杨雪莹、李启明、朱睿、田珂、白雪峰、张崇崇、潘雨情、刘宇轩、王京菊、李志超、李悦欣等同学的大力协助,在此一并表示感谢!
由于编著者水平有限,书中疏漏之处在所难免,敬请广大读者批评指正。
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