The economics of energy and fuels plays a major role in the social and economic development of all countries, as the way to the cheapest energy resources lies in the adequate economy of energy carriers. This conclusion has gained international acceptance, mainly due to the 1973 energy crisis, the consequences of which were reflected in many national economies. Although the energy crisis has shaken energy-industrial systems on the socio-economic plane, it has also led to reconsideration of the development strategies of human society on the basis of new ideas. This book presents many new ideas developed by the numerous forecasting studies carried out in various countries. It seeks to give solutions for the quantitative and qualitative use of available resources on the basis of time-point and long-range energy balances. Thus, after a presentation of the world energy situation and a discussion of the directions for future evolution of the Earth's socio-economic systems, this book enlarges on the mathematical basis of engineering methods for solving the correlation between energy generation and consumption under the environmental constraints imposed on power systems.
The economics of energy and fuels plays a major role in the social and economic development of all countries, as the way to the cheapest energy resources lies in the adequate economy of energy carriers. This conclusion has gained international acceptance, mainly due to the 1973 energy crisis, the consequences of which were reflected in many national economies. Although the energy crisis has shaken energy-industrial systems on the socio-economic plane, it has also led to reconsideration of the development strategies of human society on the basis of new ideas. This book presents many new ideas developed by the numerous forecasting studies carried out in various countries. It seeks to give solutions for the quantitative and qualitative use of available resources on the basis of time-point and long-range energy balances. Thus, after a presentation of the world energy situation and a discussion of the directions for future evolution of the Earth's socio-economic systems, this book enlarges on the mathematical basis of engineering methods for solving the correlation between energy generation and consumption under the environmental constraints imposed on power systems.
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Sprache
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Elsevier Science & Technology
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Für höhere Schule und Studium
Für Beruf und Forschung
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ISBN-13
978-0-444-98861-4 (9780444988614)
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Schweitzer Klassifikation
1. Requirements for an Optimum Use of Energy Resources. Future trends of the global energy balance. Strategy for an energy and fuel saving policy. 2. Theory of Optimisation of Balances. General theory of optimization of power systems. Theory of operational research applied to optimization of power systems. Peculiarities of the process of optimization in power engineering. 3. Optimization of Time Point Energy Balances. Optimization of general energy balances. Optimization of electric energy balances. Optimization of thermal-energy balances. 4. Optimization of Long-term Energy Balances. The concept of the development of energy-industrial systems. Mathematical forecasting models for the structure of energy systems. Mathematical forecasting models for the flow of energy resources. 5. Computer-Assisted Design of Energy Balances. Information science applied to energy systems. The concept of the development of energy balances aided by process-control computer. The structure and flow of the energy decision-making network in a computerized system. 6. The Theory of Cases Applied to the Development of Optimum Energy Balances. The application of the theory of cases to the optimization of time-point energy balances. The application of the theory of cases to the optimization of longterm energy balances. 7. The Economic Conception of the Development and Application of Balances Within Energy Systems. The structure of economic indicators and methods of application. Models for determining economic indicators. Determination of the economy of energy balances. The economic indicators of the organization of energy systems. Application of the theory of cases to the determination of the costs involved in the optimization of energy balances. Optimum decision making on the expansion of the flow and structure of computerized energy systems. Bibliography. Index.
