Автор: Eugene Chaikovskaya
Издательство: Nova Science Publishers
Год: 2023
Страниц: 196
Язык: английский
Формат: pdf (true)
Размер: 11.6 MB
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. Advancing decisions to support the functioning of electrical systems is based on a mathematical description of the architecture of technological systems, methodology of mathematical description of the dynamics of energy systems, causal graph method, mathematical description Smart Grid of maintaining the functioning of electric systems. 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.
The mathematical substantiation of maintenance of the operation of the technological system Smart Grid based on the architecture and mathematical description of the architecture of the technological system, methodology of the mathematical description of dynamics of power systems, the method of the graph of cause-effect relations is proposed. The mathematical substantiation is based on a systematic approach to complex mathematical and logical modeling in the technological system as a dynamic system. Decision-making to support the functioning of energy systems is based on a mathematical description of the architecture of technological systems, the methodology of mathematical description of the dynamics of energy systems, the method of the graph of causation. Coordination of energy production and consumption is based on forecasting changes in the parameters of technological processes.
A real energy system is a dynamic system, the mathematical model of which reflects the properties of the transformation of influences, that is, its dynamic properties. The maintenance of the functioning of energy systems takes place in the composition of such technological systems, the basis of which is the dynamic system. When designing a technological system, we lay its foundation — an integrated dynamic subsystem for evaluating changes in both production and energy consumption Based on the system-structural and mathematical substantiation of the architecture of the technological system, we consider the relation category as organizing interactions not only within the elements of the technological system, but also within the elements of the integrated dynamic subsystem, which makes it possible to perform workability control and identify the state of the energy system based on the developed method of the graph of cause and effect relations.
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