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دانلود کتاب Power systems research and operation : selected problems
دانلود کتاب تحقیق و بهره برداری سیستم های قدرت: مسائل انتخاب شده
مشخصات کتاب
Power systems research and operation : selected problems
ویرایش: [2 ed.] نویسندگان: Ihor Blinov (editor), Oleksandr Butkevych (editor), Andrii Zharkin (editor), Ievgen Zaitsev (editor), Oleksandr Vasylʹovych Kyrylenko (editor), Artur O. Zaporozhets (editor) سری: Studies in systems, decision and control, Volume 388 ISBN (شابک) : 9783030829261, 303082926X ناشر: Springer سال نشر: 2022 تعداد صفحات: [180] زبان: English فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود) حجم فایل: 5 Mb
قیمت کتاب (تومان) : 52,000
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توجه داشته باشید کتاب تحقیق و بهره برداری سیستم های قدرت: مسائل انتخاب شده نسخه زبان اصلی می باشد و کتاب ترجمه شده به فارسی نمی باشد. وبسایت اینترنشنال لایبرری ارائه دهنده کتاب های زبان اصلی می باشد و هیچ گونه کتاب ترجمه شده یا نوشته شده به فارسی را ارائه نمی دهد.
توضیحاتی در مورد کتاب تحقیق و بهره برداری سیستم های قدرت: مسائل انتخاب شده
این کتاب به بررسی مشکلات سیستم های قدرت در زمینه های مربوط به بهینه سازی حالت های عملکرد تاسیسات برق و سیستم های کنترل آنها، سیستم های اطلاعاتی و اندازه گیری و پشتیبانی اندازه شناسی در صنعت برق می پردازد و از عملکرد سیستم قدرت الکتریکی در شرایط بازار رقابتی انرژی الکتریکی این کتاب به مشکلات مدرن برای اطمینان از قابلیت اطمینان عملیاتی و ایمنی اشیاء سیستم قدرت یکپارچه اوکراین اختصاص داده شده است. این یک کار پیچیده است که راه حل آن مربوط به بهینه سازی حالت های عملکرد تاسیسات برق و سیستم های کنترل آنها، ایجاد سیستم های تشخیصی برای صنعت برق، تضمین عملکرد سیستم قدرت الکتریکی در شرایط بازار رقابتی است. برق نتایج تحقیق ارائه شده در کتاب امکان افزایش قابلیت اطمینان و کارایی بهره برداری از تاسیسات انرژی و تضمین پایداری سیستم های برق، معرفی روش ها و ابزارهای موثر برای پیش بینی تامین برق، بهینه سازی سیستم های قدرت، پیشنهاد نقشه راه برای یکپارچه سازی بازارهای برق با در نظر گرفتن محدودیت های شبکه حساب در شرایط مدرن بازار برق کتاب شامل هشت فصل است. این کتاب برای محققان، مهندسان و همچنین مدرسان و فارغ التحصیلان مؤسسات آموزش عالی است که با مشکلات بهره برداری، کنترل، تشخیص و نظارت بر سیستم یکپارچه قدرت، تجهیزات قدرت و غیره سروکار دارند.
توضیحاتی درمورد کتاب به خارجی
This book examines the problems of power systems in fields related to optimization of operating modes of electric power facilities and their control systems, information and measuring systems and metrological support in the electric power industry, ensuring the functioning of the electric power system in the conditions of a competitive market of the electric power. The book is devoted to modern problems ensuring operational reliability and safety of objects integrated power system of Ukraine. It is complex task, solution of which is related to optimization of operating modes of electric power facilities and their control systems, creating diagnostic systems for the electric power industry, ensuring the functioning of the electric power system in the conditions of a competitive market of the electric power. The presented research results in book allow increasing the reliability and efficiency of operation of energy facilities and ensuring the stability of power systems, the introduction of effective methods and tools for forecasting electricity supply, optimize power systems, suggest road map to integrate electricity markets taking into account network constraints in modern conditions of electricity markets. The book includes eight chapters. A book is for researchers, engineers, as well as lecturers and postgraduates of higher education institutions dealing with problems of operation, control, diagnosis and monitoring of integrated power system, power equipment and other.
فهرست مطالب
Preface Contents Decentralized Market Coupling with Taking Account Power Systems Transmission Network Constraints 1 Introduction 2 Network Congestion Management Constraints in the Context of European Electricity Market Coupling 2.1 Flow-Based Market Coupling Mechanism 2.2 Decentralized Market Coupling Concept 3 New Approach to Decentralized Market Coupling Taking into Account Power Systems Network Constraints 3.1 Universal Mathematical Model of Net Export Curves 3.2 Concept of Development of Decentralized Market Coupling and Method of the Optimal Volume Electricity Exchange Determination to Minimize Prices in Coupled Markets 4 Example of Assessing the Feasibility of Integrating a Separate Price Zone of the Ukrainian Power System into the European Electricity Market 5 Conclusions References Improving the Reliability and Power Quality in Distribution Networks with Sources of Dispersed Generation 1 Introduction 2 The Main Ways to Improve the Reliability of Power Supply in Distribution Networks with Dispersed Generators 3 Improving the Efficiency of Distribution Network Operation When Using Dispersed Sources of Generation 4 Formation of “Soft” Points of Disconnection of the Distribution Network Circuits to Ensure Reliable and Efficient Operation of Power Distribution Systems with Dispersed Generation Sources 5 Conclusion References Some Features of Electromechanical Oscillations Modes Identification in Power Systems 1 Introduction 2 Methods’ Testing and Selection to Identify LFO Modes in Real-Time. Identification Results Generalization 3 Two Examples of Electromechanical Oscillations’ Modes Identification Using PMU Data 4 Conclusions References Hybrid Diagnostics Systems for Power Generators Faults: Systems Design Principle and Shaft Run-Out Sensors 1 Introduction 2 Current State of Power Generators in Ukraine 3 Design Principle of Hybrid Faults Diagnosis System in Power Generators 3.1 Hybrid Faults Diagnosis System Architecture 3.2 Microelectronic Components Work Principle 3.3 Power Optoelectronics Components Work Principle 3.4 Software Solution Work Principle 4 Capacitive Shaft Run-Out Sensors for Diagnostics Shaft Faults in Power Generators: Work Principle and Characteristics 4.1 Sensors Located and Construction 4.2 Determination Sensor Response Characteristic 4.3 Sensor Temperature Stability 4.4 Sensor Electromagnetic Stability 4.5 Technological Factors Influence on Capacitive Shaft Run-Out Sensor Characteristics 5 Conclusions References Operating Modes Optimization of Bulk Electrical Power Networks: Structural and Parametrical Methods 1 Introduction 2 Development Technical and Economic Analysis Methods for Comparison Measures and Technical Means of the Bulk Electrical Networks 3 Assessment of the Efficiency Reducing the Active Power Losses in Electric Power Transmission Lines by Structural Means 4 Optimization of Bulk Electrical Networks Operating Modes by Controlled Lateral Compensation Using 5 Analysis and Optimization of Power Systems Operating Modes According to the Minimizing Criterion of Active Power Losses 6 Conclusions References Short Term Renewable Energy Forecasting with Deep Learning Neural Networks 1 Introduction 2 Mathematical Models of Wind and Solar Plants for Generation Forecasting 3 Forecasting Using Deep Neural Networks 4 Model Evaluation 5 Conclusions References Grids Transfer Capacity: Calculation Methodology and Features 1 Introduction to the Grid Transfer Capacity Problem 2 Voltage Stability and Features of Calculation of Total Transfer Capacity of Interfaces 2.1 Methodology for Determining the Limits for Aperiodic Static Stability of Power System Regimes in the Time Frame of Power System Operational Control 2.2 Introduction to Voltage Stability 2.3 Voltage Stability Indicators for TTC Calculation 3 Methodology of Calculation of Grid Transfer Capacity 4 The Sensitivity of Grid Transfer Capacity to Various System Parameters 4.1 The Sensitivity of TTC to Consideration of PQ-Characteristics of Generators 4.2 Different Approaches to Build of Weighing Trajectory for TTC Calculation 4.3 Example of Grid Transfer Capacity Calculation 5 Automated Procedure of Identification of Allowable Transfer Capacity and Other Control Data for TSO References Frequency Stability of the Bulk Isolated Power System with a High Share of Renewables and Nuclear Generation 1 Introduction 2 Frequency Characteristics Identification of the Power System 3 Development of the Local Load–frequency Controller Considering the Impact of the Renewables 4 Frequency Stability Simulation Considering the Operation of the Under-Frequency Load Shedding Relays and Special Protection Automatics of the Nuclear Power Plants References
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