Special Sessions

In order to further promote the development of the theory and technology of protection, control, and key equipments for the novel power systems, the special issue entitled “Protection and Control of Novel Electric Power Systems” is organized. The interesting topics of this special issue include, but are not limited to, the following research topics and technologies 为进一步推动新型电力系统保护控制理论和关键装备技术的发展，组织“新型电力系统保护控制关键技术”专题，本专题的讨论主题包括但不限于以下方向：:

1. Typical form, scene, and topology of the future electric power systems.新型电力系统的典型形态、场景和拓扑结构；
2. Fault analysis of the power systems with high proportion of renewable power generation, energy storage, and other power electronic devices.新能源电源、储能等电力电子设备高比例接入下的电力系统故障分析；
3. Stability and harmonic characteristic analysis of the power systems with high proportion of renewable power generation, energy storage, and other power electronic devices.新能源电源、储能和其他电力电子设备高比例接入下的电力系统稳定性与谐波特性分析；
4. Adaptability analysis of traditional protection, novel protection theory, protection setting calculation and verification technologies, for the future power systems.传统保护原理在新型电力系统中的适用性分析以及新原理研究；
5. Grid-forming control strategy of renewable power generation, converter, energy storage PCS, et al.新能源电源、变流器、储能PCS等的并网控制策略；
6. Coordination technology between protection and control with high proportion power electronic devices access.高比例电力电子设备接入下的保护与控制协调技术；
7. Key techniques for fault handling in future power systems, such as the circuit breaker, fault current limiter, dc energy dissipation device, et al.新型电力系统故障处理的关键技术，如断路器、故障限流器、直流耗能装置等。

---

The frequency of extreme events such as hurricanes, earthquakes, floods, and artificial attacks like cyber and physical attacks has risen significantly in recent years. These events have had a severe impact on power systems, causing prolonged outages and major equipment damage. It is crucial to develop highly resilient power systems to minimize the economic and social repercussions of power failures. There is an urgent need to advance research on power system resilience, encompassing modeling, analysis, evaluation, disaster response, and exploring technologies for enhancing power system resilience. The special session will cover various intriguing topics including, but not limited to, research and technologies in this area.近年来，飓风、地震、洪水等极端事件以及网络和物理攻击等人为攻击的频率显著上升。这些事件对电力系统造成了严重影响，造成了长时间的停电和重大设备损坏。开发高弹性电力系统以最大限度地减少电力故障的经济和社会影响至关重要。电力系统弹性的建模、分析、评估、灾害响应以及提高电力系统弹性的技术探索是当前电力系统弹性研究的迫切需要。特别会议将涵盖各种有趣的话题，包括但不限于该领域的研究和技术。

1. Methods for enhancing power system resilience 提高电力系统弹性的方法;
2. Framework for quantifying power system resilience电力系统弹性量化框架;
3. Control strategies for building resilient power systems建设弹性电力系统的控制策略;
4. Developing resilient structures within the power system context在电力系统环境下发展弹性结构;
5. Creating cyber-resilient power systems创建具有网络弹性的电力系统;
6. Approaches for resilient power system restoration电力系统弹性恢复方法研究;
7. Structure for a resilient energy market弹性能源市场的结构;
8. Modeling the fragility of power systems电力系统脆弱性建模;
9. Application of artificial intelligence in power system resilience人工智能在电力系统弹性中的应用;
10. Role of IoT and communication technologies in power system resilience物联网和通信技术在电力系统弹性中的作用。

---

The consumption of new energy is the main support for achieving the dual-carbon national strategic goal. However, with the continuous increase in the penetration rate of new energy, conventional generation units as the main flexibility regulation resources in power grids are gradually being phased out, which results in the inability to guarantee the secure operations for power systems and greatly restricting the consumption of new energy. Flexible regulation resources including energy storage and virtual power plants can play an important role in power grid operations, and reasonable application them can help better ensure the secure, high-quality, economical, and low-carbon operations for power systems. However, the participation of the flexible resources in the regulation and operation and related market mechanisms require research and exploration to adapt to the construction and development of new power systems. This subject is to conduct extensive solicitation for key technologies related to the participation of flexible resources such as energy storage and virtual power plants in the operations and regulation of power systems, as well as commercial mechanisms, to promote the full utilization of flexible regulation resources and solve theoretical problems for flexible resources in new power systems. 新能源消纳是实现“双碳”国家战略目标的主力支撑。然而，随着新能源渗透率的不断提升，作为电网灵活性调节资源主要来源的常规火电机组逐步退出，导致系统安全运行无法保障，且极大制约了新能源消纳。储能与虚拟电厂等灵活性调节资源在电网运行控制中可发挥重要作用，合理应用有助于更好地保障电力系统的安全、优质、经济与低碳运行。然而，上述灵活性资源参与电力系统调控运行方案及相关市场机制需要深入研究与探索，以适应新型电力系统建设与发展。本专题面向储能及虚拟电厂等灵活资源参与电力系统运行调控及商业机制关键技术开展广泛征稿，旨在促进灵活性调节资源充分发挥运行优势，解决新型电力系统对灵活性资源的迫切需要等诸多理论问题。

Topics (Including but not limited to)专题征稿主题（包括但不限于）:

1. Planning, configuration, dispatch, and control strategies for energy storage and virtual power plants participating in power system operations. 储能与虚拟电厂参与电力系统运行的规划、配置、调度、控制策略；
2. Business modes and trading mechanisms of energy storage and virtual power plants in power systems.电力系统中储能与虚拟电厂的商业模式及交易机制；
3. Dispatchable capacities and control strategies for distributed flexible resource aggregation.分布式灵活资源聚合后可信容量分析与控制方案；
4. Aggregation, trading, dispatch, and control strategies for distributed energy storage resources and virtual power plants.分布式储能资源与虚拟电厂的聚合、交易、调度、控制策略； 5. Collaborative control of the main-distribution network to support the flexible role of distributed resources.支撑分布式资源发挥灵活作用的主配网协同调控；
6. Integration application and technical effectiveness of big data and artificial intelligence technology with energy storage and virtual power plants.大数据和人工智能技术与储能及虚拟电厂的融合应用与技术成效；
7. Analysis and optimization control of frequency security and stability mechanisms in new power systems.新型电力系统频率安全稳定机理分析与优化控制；
8. Inertia support technology and frequency regulation capability evaluation for new power systems.新型电力系统惯量支撑技术与调频能力评估；
9. Coordination control for multi-type regulation resources with flexibility support in new power systems.新型电力系统提供灵活性支撑的多类型调节资源协调控制；
10. Modeling establishment and predictive evaluation theories of user energy consumption characteristics for dual-carbon goals.“双碳”背景下的用户用能特性建模与预测评估理论；
11. Classification and design of load forecasting application scenarios under the influence of multiple factors.多要素影响下负荷预测应用场景分类与设计；
12. Coordination optimization and control of multiple resources for conventional power sources, new energy, energy storage, and virtual power plants.常规电源、新能源、储能、虚拟电厂等多类资源协调优化与控制；
13. Theory and key technologies of distributed resource participation in the electricity retail market.分布式资源参与的电力零售市场理论与关键技术

---

Scope of Session(Including but not limited to)专题征稿主题（包括但不限于）:
The integration of advanced control systems with artificial intelligence stands as a pivotal strategy to enhance the robustness, adaptability, and recovery capabilities of power infrastructures. This special session is dedicated to the exploration of the nexus between control and artificial intelligence, with a focus on their combined potential to fortify the resilience of power systems. The scope of session is as follows先进控制系统与人工智能的集成是提高电力基础设施鲁棒性、适应性和恢复能力的关键策略。本次专题会议致力于探索控制和人工智能之间的联系，重点关注它们在加强电力系统弹性方面的综合潜力。会议主题范围如下:
1、Signal detection and processing technology based on deep learning in transmission system 传输系统中基于深度学习的信号检测与处理技术
2、Power equipment fault location and diagnosis based on machine vision 基于机器视觉的电力设备故障定位与诊断
3、Research on fault-tolerant control algorithm based on deep learning in transmission system 基于深度学习的传输系统容错控制算法研究
4、State perception and prediction of power equipment in new power system 新型电力系统中电力设备状态感知与预测
5、Research on deep learning algorithm for 3D reconstruction of power system informatization 电力系统信息化三维重建的深度学习算法研究
6、Power system load prediction algorithm based on machine learning in transmission system 基于机器学习的输电系统负荷预测算法
7、Research on intelligent control algorithm in new power system 新型电力系统智能控制算法研究

---

The advanced system state sensing technology of electrical equipment, including motors, transformers, grid-connected converters, etc., plays an increasingly important role in ensuring the safe and stable grid-connected operation of renewable energy. Accurate prediction and online control of possible faults of electrical equipment will contribute to the realization of "Carbon Neutral" under the "Dual Carbon" background. 电机、变压器、并网变流器等电气设备的先进系统状态传感技术，在保证可再生能源安全稳定并网运行方面发挥着越来越重要的作用。对电气设备可能出现的故障进行准确预测和在线控制，将有助于在“双碳”背景下实现“碳中和”。为此，组织“面向可再生能源的电工装备先进状态感知技术”专题，本专题的讨论主题包括但不限于以下方向：

Track 1: Electrical and Power Engineering
电气工程、电力系统及其自动化、电机与电器、电工学、高电压技术、继电保护等相关主题

Track 2: Smart Grid and Operations
智能电网技术、云系统、能源互联网、先进设备及控制方法、交互技术、安全与可靠性管理、需求响应与市场运营、战略&规划&标准等相关主题

Track 3: Sustainable Energy
绿色技术、绿色能源、生物能源、节能减排、能源科学、风光水电可再生能源、净零能源制造和供应链、海上通电、航空电气化、电池系统的可靠性与退化分析等相关主题

The special sessions are keep updating……

---

Call for Paper-CFP flyer downloading

The topics of CEECT 2024 conference are included, but not limited to: