Modeling and Optimal Operation of Hydraulic, Wind and Photovoltaic Power Generation Systems

doi:10.3390/books978-3-0365-5838-7

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Modeling and Optimal Operation of Hydraulic, Wind and Photovoltaic Power Generation Systems

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November 2022

212 pages

ISBN978-3-0365-5837-0 (Hardback)
ISBN978-3-0365-5838-7 (PDF)

https://doi.org/10.3390/books978-3-0365-5838-7

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This book is a reprint of the Special Issue Modeling and Optimal Operation of Hydraulic, Wind and Photovoltaic Power Generation Systems that was published in

Chemistry & Materials Science

Engineering

Environmental & Earth Sciences

Physical Sciences

Summary

The transition to 100% renewable energy in the future is one of the most important ways of achieving "carbon peaking and carbon neutrality" and of reducing the adverse effects of climate change. In this process, the safe, stable and economical operation of renewable energy generation systems, represented by hydro-, wind and solar power, is particularly important, and has naturally become a key concern for researchers and engineers. Therefore, this book focuses on the fundamental and applied research on the modeling, control, monitoring and diagnosis of renewable energy generation systems, especially hydropower energy systems, and aims to provide some theoretical reference for researchers, power generation departments or government agencies.

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Hardback

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Keywords

doubly-fed variable-speed pumped storage; Hopf bifurcation; stability analysis; parameter sensitivity; pumped storage unit; degradation trend prediction; maximal information coefficient; light gradient boosting machine; variational mode decomposition; gated recurrent unit; high proportional renewable power system; active power; change point detection; maximum information coefficient; cosine similarity; anomaly detection; thermal-hydraulic characteristics; hydraulic oil viscosity; hydraulic PTO; wave energy converter; pumped storage units; pressure pulsation; noise reduction; variational mode decomposition; sparrow search algorithm; hybrid system; facility agriculture; chaotic particle swarms method; operation strategy; stochastic dynamic programming (SDP); power yield; seasonal price; reliability; cascaded reservoirs; doubly-fed variable speed pumped storage power station; nonlinear modeling; Hopf bifurcation; stability analysis; nonlinear pump turbine characteristics; pumped storage units (PSUs); successive start-up; ‘S’ characteristics; low water head conditions; multi-objective optimization; fractional order PID controller (FOPID); hydropower units; degradation trend prediction; comprehensive deterioration index; long and short-term neural network; ensemble empirical mode decomposition; approximate entropy; 1D–3D coupling model; transition stability; sensitivity analysis; pressure pulsation; hydro power