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2023 | Book

Smart Power Distribution Network

Situation Awareness, Planning, and Operation

Authors: Leijiao Ge, Yuanzheng Li

Publisher: Springer Nature Singapore

Book Series : Power Systems

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About this book

The surge in renewable and distributed energy sources has posed significant challenges for smart power distribution network (SPDN). These challenges fall into two main categories: the unpredictability of renewable energy sources and the complexities introduced by numerous electrical devices and their interdependencies, affecting forecasting and operational performance. As the emphasis on SPDN's economic and environmental aspects grows, this book focuses on the vital themes of sustainability and cost-efficiency in SPDN forecasting, planning, and operation. It is structured into three key parts:

1. SPDN Situation Awareness: This section assesses prior research methods, analyzes their shortcomings while dissecting SPDN's unique situation awareness characteristics. Then, some forecast and virtual collection methods are presented.

2. Boosting SPDN Planning: Addressing optimal planning challenges in SPDN, this part introduces advanced modelling and algorithm solving techniques, tailored to mitigate SPDN's inherent uncertainty.

3. Enhancing SPDN Operation: Considering a variety of equipment types and controllable loads, this section explores strategies to boost SPDN operational performance. It covers control methodologies for electric vehicles, flexible loads, energy storage, and related equipments, etc.

Tailored for university researchers, engineers, and graduate students in electrical engineering and computer science, this book is a valuable resource for comprehending SPDN's situation awareness, planning, and operation intricacies in the context of sustainability and economic efficiency.

Table of Contents

Frontmatter
Chapter 1. System Overview
Abstract
With the increasing penetration of renewable energy and distributed energy resources, smart power distribution network (SPDN) is facing great challenges, which could be divided into two categories. On the one hand, the endogenous uncertainties of renewable energy and multi-energy load lead to great difficulties in SPDN forecast. On the other hand, massive electric devices as well as their complex constraint relationships bring about significant difficulties in SPDN operation and maintenance.
Leijiao Ge, Yuanzheng Li
Chapter 2. Smart Power Distribution Network Situation Awareness
Abstract
The concept of Situation Awareness (SA) in the smart power distribution network (SPDN) is derived from human psychology involving sensory, perception, and behavioral habits.
Leijiao Ge, Yuanzheng Li
Chapter 3. Photovoltaic Prediction and Virtual Collection
Abstract
The output of photovoltaic (PV) power generation is random and intermittent, which has a strong impact on the safe and stable operation of power grids.
Leijiao Ge, Yuanzheng Li
Chapter 4. Multi-energy Load Forecasting of Integrated Energy System
Abstract
Integrated energy system (IES) is a kind of integrated energy supply platform based on “multi-energy complementation, energy cascade utilization”, which realizes the conversion of various energy sources, such as combined cooling, heating and power (CCHP).
Leijiao Ge, Yuanzheng Li
Chapter 5. Optimal Planning of Energy Storage Considering Uncertainty of Load and Wind Generation
Abstract
The high penetration of wind generations (WG) raises the risks of the secure and economical operation of distribution networks (DN) due to the intermittent wind speed and unexpected turbulence. To solve this problem, energy storage systems (ESS) have received increasing attention for their advantages in smoothing power fluctuations induced by the wind power while reducing the impact of uncertain load demands in DNs through proper demand response (DR) designs.
Leijiao Ge, Yuanzheng Li
Chapter 6. Coupled Multi-network Constrained Planning of Energy Supplying Facilities for Hybrid Hydrogen-Electric Vehicles
Abstract
To achieve sustainable development of our society, electric vehicles (EVs) have been widely deployed throughout the world.
Leijiao Ge, Yuanzheng Li
Chapter 7. Multiple Equipment Planning for Integrated Energy System
Abstract
With the growth of energy demand and concerns of environmental pollution, integrated energy system, as one of the latest energy technologies, has attracted increasing attention, because it can not only couple various energy sources for better energy efficiency, but also effectively accommodate distributed generation and reduce the utilization of conventional energy (CSEE J Power Energy 4:155–167;2.IEEE Trans. Sustain. Energy 10:1139–1147; IEEE Trans. Sustain. Energy 8:846–854).
Leijiao Ge, Yuanzheng Li
Chapter 8. Collaborative Operation Between Power Network and Hydrogen Fueling Stations with Peer-to-Peer Energy Trading
Abstract
As a highly promising alternative to traditional vehicles within urban transportation systems, electric vehicles (EVs) have experienced rapid development primarily due to their minimal environmental impact.
Leijiao Ge, Yuanzheng Li
Chapter 9. Coordinated Operation Between Electric Vehicle Charging Stations and Distribution Power Network Considering Energy and Reserve
Abstract
As an important technology for saving energy and reducing emissions in transportation systems, electric vehicles (EVs) and their charging stations have drawn much attention in recent years (Ding et al. in IEEE Trans Ind Appl 56:6238–6249, 2020;Infante and Ma in IEEE Trans Ind Appl 56:5955–5962, 2020; Y. Li, Z. Ni, T. Zhao, Y. Liu, L. Wu and Y. Zhao, “Coordinated Operation Between Electric Vehicle Charging Stations and Distribution Power Network Considering Shared Energy and Reserve,” 2021 IEEE/IAS 57th Industrial and Commercial Power Systems Technical Conference (I&CPS), 2021, pp. 1–10.;Wang et al. in IEEE Trans Industr Inf 14:866–876, March 2018;Wang et al. in IEEE Trans Industr Inf 14:321–331, 2018).
Leijiao Ge, Yuanzheng Li
Chapter 10. Interactive Energy Management Between Electric Vehicle Charging Stations and Electricity Distribution System
Abstract
Electric vehicles (EVs) have rapidly gained significant traction and sparked widespread interest in recent years (Wang et al. in IEEE Trans Industr Inf 14:321–331, 2018;Delgado et al. in Transp Res Part D: Transp Environ 62:372–385, 2018;).
Leijiao Ge, Yuanzheng Li
Metadata
Title
Smart Power Distribution Network
Authors
Leijiao Ge
Yuanzheng Li
Copyright Year
2023
Publisher
Springer Nature Singapore
Electronic ISBN
978-981-9967-58-2
Print ISBN
978-981-9967-57-5
DOI
https://doi.org/10.1007/978-981-99-6758-2