1 Insights into Scaling Virtual Power Plants Real-World Findings for Successful Deployment January 2025 Angela Long (Rockcress Consulting) Ryan Long (Rockcress Consulting) Insights into Scaling Virtual Power Plants Executive Summary Introduction Leadership Investments Planning Case Studies Appendices 1 Executive Summary Virtual Power Plants (VPPs) are a distributed Downing, J. N. Johnson, M. McNicholas, et al. Sept. 2023. Pathways to Commercial Liftoff: Virtual Power Plants. Strong Leadership is Essential for VPP Success: Effective leadership from both utilities

HUAWEI DIGITAL POWER 2024 SUSTAINABILITY REPORT Contents 01 03 05 04 02 Sustainable Development Management Empowering with Digitalization One-Mind Growth Zero-Carbon Enablement Responsible Responsible Operations About Huawei Digital Power About This Report Key Awards and Honors Sustainable Development Strategy Sustainable Development Management System Communication with Stakeholders Promoting 14 15 17 Huawei Digital Power 2024 Sustainability Report About Huawei Digital Power 01 About Huawei Digital Power Huawei Digital Power is a world leader in digital power products and solutions. We

关键词：新型电力系统；输变电；数字化转型；数字孪生；异常预警 Digitalization Transformation of Power Transmission and Transformation Under the Back- ground of New Power System JIANG Xiuchen, XU Yongpeng, LI Yaocheng, DI Lingfang, LIU areas and high load areas.Power grid enterprises can effectively alleviate the contradiction between sup- ply and demand by increasing the construction of high-voltage power transmission and transformation transformation projects and transmitting clean power generated by new energy to high load areas. Therefore, in order to ensure the reliable operation of the new power system with new energy as the main body and

force. We forecast that solar (both with and without storage) and wind will be 32% of the global power mix by 2030. We expect a resurgence in offshore wind by 2030, such that variable renewables will ‘gridlock’, solar capacity could be 16% higher by 2035, and wind capacity 8% higher. Soaring power demand from AI data centres is placing additional strain on already congested grids, particularly non-fossil over fossil sources in the long run. That includes a resurgence of investment in nuclear power, which we predict will grow 150% from today’s levels by 2060. On the fossil side of the mix, policy

MEI Shengwei2,3 (1. Guangdong Key Laboratory of Clean Energy Technology, Institute of Electric Power, South China University of Technology, Guangzhou 510640, China; 2. Qinghai Key Lab of Efficient Energy, Qinghai University, Xining 810016, China; 3. State Key Lab of Control and Simulation of Power Systems and Generation Equipments, Department of Electrical Engineering, Tsinghua University, Beijing 设备 等[13]；(2)以天然气作为一次能源的设备，如燃气锅 炉、燃气轮机、热电联产(combined heating and power units, CHP)[14]、冷热电三联产(combined cooling, heating and power units, CCHP)[8]等。尽管能源转换 设备建模已得到较多研究，但已有研究在建模过程 朱建全，刘海欣，叶汉芳，等：园区综合能源系统优化运行研究综述

中国区域内虚拟电厂发展现状 Virtual Power Plant in China ： State of the Art 中国电力科学研究院 “ 双碳” 目标推动系统电源结构与负荷特性加速转变 ，电网尖峰负荷屡创新高、峰谷差持续拉大 ，给电网平衡、电力保供 和 带来巨大挑战 ，据测算 到 2025 年电力系统调节资源将达 5.6 亿千瓦。分布式资源以聚合虚拟电厂形式参与电网互动调节是发展新型电力系统的必然选择 transformation in the power supply structure and load characteristics of the system, leading to frequent peaks in electricity demand and a widening gap between peak and off-peak periods in the power grid. This reliable power supply. According to estimates, the regulatory resources of the power system will reach 560 GW by 2025. Involving distributed resources in the form of aggregated virtual power plants

华北电力大学 控制与计算机工程学院，北京 102206；2. 电站能量传递转化与系统教育部重点实验室，北京 102206) 摘要 摘要：热电联产虚拟电厂(combined heat and power virtual power plant, CHP-VPP)聚合了各类电热出 力单元，可兼顾风光出力不确定性、动态电价、用户热舒适度等影响，实现整体出力的优化调度。 提出了两阶段分布鲁棒优化调度方法，第一阶 Combined Heat and Power Virtual Power Plant[J]. Journal of System Simulation, 2023, 35(5): 1046-1058. Two-Stage Distributed Robust Optimal Dispatching for a Combined Heat and Power Virtual Power Plant Fan School of Control and Computer Engineering, North China Electric Power University, Beijing 102206, China; 2. Key Laboratory of Power Station Energy Transfer Conversion and System, Ministry of Education

Towards Net-Zero Electronics Unlocking the power of energy efficiency in manufacturing facilities Report / April 2025 About RMI RMI is an independent nonprofit, founded in 1982 as Rocky Mountain Institute Copyrights and Citation Wei Li, Guangxu Wang, and Meng Wang, Towards Net-Zero Electronics: Unlocking the power of energy efficiency in manufacturing facilities, RMI, 2025, https://rmi.org/insight/towards-net-zero-electronics/ from iStock.com unless otherwise noted. rmi.org / 4 Towards Net-Zero Electronics: Unlocking the power of energy efficiency in manufacturing facilities Table of Contents 1. Why Supply Chain Energy Management

在增加。自然语言交互将直接提升体验。 微软Azure和Power Platform持续提升组件化能力，最终通过AI能 力实现自然语言交互，进一步提升组件易用度 12 来源：互联网公开资料、弘则研究整理 微软产品演进 培养C端用户习惯 ADD YOUR TEXT ADD YOUR TEXT 云计算 Azure平台 Power Platform 低代码平台 AI Copilot 2014年推出Power Platform，低代 码构建API、微服务等 今年推出Power Platform Copilot， 通过自然语言交互实现对于组件 的调用和自动化流程的创建 构建Azure PaaS平台和Power Platform平台，后台组件化，提升低 代码/零代码开发能力，有利于未来AI能力的嵌入和调用 13 来源：互联网公开资料、弘则研究整理 微软Azure和Power Platform平台发展路径 开发工具发展，最后构建应用 Power Automate是专为编码人员和非编码人员设计的单一智能自 动化平台，提供易用界面，大规模优化业务流程和工作流 14 来源：互联网公开资料、弘则研究整理 微软Power Automate 假设要创建一个采购系统，让员工提 交采购申请，审批后生成订单。 • 首先，需要在Power Apps中创建一 个画布应用，用于设计采购申请的 界面。可以使用Power Apps的拖放

第 48 卷 第 5 期 电 网 技 术 Vol. 48 No. 5 2024 年 5 月 Power System Technology May 2024 文章编号：1000-3673（2024）05-1821-15 中图分类号：TM 721 文献标志码：A 学科代码：470·40 面向零碳园区的综合能源系统优化运行技术综述 葛磊蛟，李京京，李昌禄，刘航旭 模型 热电联产系统(combined heat and power，CHP) 组合和优化调度方法可从成本、可靠性和环境角度 有效降低波动性新能源对系统运行的影响[34]并提 高 IES 的低碳水平[36]。同时，基于电/热负荷跟踪策 略的冷热电联产系统(combined cooling heating and power，CCHP)的稳健优化方法，可减少间歇性能 源和负荷不确定性的干扰[35]。但是，上述调度方法 转换为热能和天然气，使能量存储便捷且价格低 廉，还可获得更多的可再生能源。 目前关于储能系统的研究大多为将储能作为 耦合的一环，对原能源系统进行改进。如文献[60] 将蓄电池、蓄热电锅炉和电转气(power to gas， P2G)技术应用于微网系统中，建立电-气-热混合储 能的 IES，但其缺乏对储氢 IES 的研究和分析。氢 气相比天然气具有更高的能源密度，在相同体积下 可以储存更多的能量。在此基础上，文献[61]从储