The book includes six chapters in which represented integrated Smart Grid systems for coordination of production and consumption of the electric power on the basis of forecasting of change of parameters of technological processes are developed. Chapter One provides a mathematical and methodological substantiation of smart grid technologies for maintaining the function of electrical systems. Chapter Two discusses the uses of a smart grid system in maintaining a biogas cogeneration system. Chapter Three gives similar insight into use of these systems in maintaining a biodiesel cogeneration system. Chapter Four explores the uses of smart grid technologies for the maintenance of the function of a drying plant as part of a cogeneration system. Chapter Five reviews smart grid technologies for maintaining wind-solar electric systems, and the final chapter, Chapter Six, similarly reviews technologies for maintaining photoelectric charging stations.
Author(s): Eugene Chaikovskaya
Series: Energy Science, Engineering and Technology
Publisher: Nova Science Publishers
Year: 2022
Language: English
Pages: 193
City: New York
Contents
Introduction
Chapter 1
Methodological and Mathematical Substantiation of Smart Grid Technologies for Maintaining the Functioning of Electric Systems
Abstract
Introduction
Methodological and Mathematical Substantiation of the Architecture of Electric Systems
The Methodology of Mathematical Description of the Dynamics of Electric Systems
Cause-and-Effect Graph Method
Mathematical and Logical Substantiation of the Smart Grid Technologies to Maintain the Operation of Electric Systems
Results and Discussion
Chapter 2
Smart Grid Technology for Maintaining the Functioning of a Biogas Cogeneration System
Abstract
Introduction
Methodological and Mathematical Substantiation
Smart System to Support the Operation of the Biogas Plant at the Decision-Making Level
Integrated Smart Grid Fermentation Temperature Support System Using Heat Pump Power Supply
Smart Grid System to Support the Operation of the Cogeneration System at the Decision-Making Level
Smart Grid System of Maintaining the Operation of the Cogeneration System at the Decision-Making Level
Coordination of Electricity and Heat Production Based on Forecasting Changes in Power Factor and Local Water Temperature with Changes in Consumption
Discussion of Results of Studying the Smart Grid Technology for Maintaining the Functioning of the Cogeneration Biogas System
Chapter 3
Smart Grid Technology for Maintaining the Functioning of a Biodiesel Cogeneration System
Abstract
Introduction
Methodological and Mathematical Substantiation
Complex Mathematical and Logical Modeling of the Biodiesel Cogeneration System Smart Grid
Smart Grid System of Maintaining the Operation of the Cogeneration Biodiesel System at the Decision-Making Level
Results and Discussion
Chapter 4
Integrated Smart Grid System for Maintaining the Functioning of a Drying Plant as a Part of a Cogeneration System
Abstract
Introduction
Methodological and Mathematical Substantiation
Complex Mathematical and Logical Modeling of the Pellet Cogeneration System Smart Grid
Smart Grid System of Maintaining the Operation of the Cogeneration Pellet System at the Decision-Making Level
Results and Discussion
Chapter 5
Smart Grid Technology for Maintaining the Functioning of a Wind-Solar Electric System
Abstract
Introduction
Methodological and Mathematical Substantiation
Complex Mathematical Modeling of Heat Pump Power Supply and Hot Water Supply Using Hybrid Solar Collectors
Maintaining of Voltage in the Distribution System Based on Coordination of Production and Consumption of Energy
Results and Discussion
Harmonization of Production and Consumption of Electric Power of the Heat Pump Power Supply
Harmonization of Production and Consumption of Electric Power of the Hot Water Power Supply
Chapter 6
Smart Grid Technology for Maintaining the Functioning of Photoelectric Charging Stations
Abstract
Introduction
Methodological and Mathematical Substantiation
Maintaining of Voltage in the Distribution System Based on a Prediction of Changes in the Battery Capacity
Results and Discussion
The Smart Grid System of Maintaining the Operation of the Photoelectric Charging Station at the Decision-Making Level
Coordination of Electric Power Production and Consumption Based on Voltage Maintenance in the Distribution System
Conclusion
References
About the Author
Index
Blank Page