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There is a growing concern among Chinese researchers and
policymakers about China's industrial development being
unsustainable and the irreversible depletion of natural resources
and deterioration of the ecological environment. The relationship
between industrial development, pollution and the environmental
quality is an important issue that deserves careful study.
Environmental considerations play a crucial role in shaping China's
development strategies. Green development of China creates strong
pressures for continuous transforming, upgrading and restructuring
of the Chinese economy. This book explores how China's industrial
development relates to pollution and environmental quality, and how
considerations about such issues associated with the ecological
system affect China's development strategies.
Comprehensive treatment of an aspect of stability constrained
operations and planning, including the latest research and
engineering practices Stability-Constrained Optimization for Modern
Power System Operation and Planning focuses on the subject of power
system stability, addressing a common gap in knowledge by
presenting a series of stability-constrained optimization
methodologies for power system operation and planning with the aim
of power system stability enhancement. Unlike other resources,
which focus mainly on the dynamic modeling, stability analysis, and
controller design of power systems, this book is instead dedicated
to operational and planning methods for power system stability
enhancement, including power system stability preliminaries,
stability-constrained operational dispatch, and
stability-constrained network reinforcement planning. Authored by
experts with established track records in both research and
industry, Stability-Constrained Optimization for Modern Power
System Operation and Planning covers sample topics such as: The
definition, classification, and phenomenon of power system
stability, recent large-scale blackouts in the world, and
mathematical models and analysis tools for power system stability
assessment Transient stability-constrained optimal power flow
(TSC-OPF), hybrid solution methods for TSC-OPF, data-driven
solution methods for TSC-OPF, and transient stability
constrained-unit commitment (TSC-UC) TSC-OPF under wind power
uncertainties, trajectory sensitivity-based preventive dispatch,
preventive-corrective coordinated TSC-OPF, and optimal event-based
load shedding Voltage stability indies, dynamic VAR resources
(STATCOM and SVC), candidate bus selection for dynamic VAR
allocation, and multi-objective dynamic VAR planning
Stability-Constrained Optimization for Modern Power System
Operation and Planning provides the latest research findings to
scholars, researchers, and postgraduate students who are seeking
optimization model formulations and solution methodologies for
stability enhancement. It also provides key practical operational
dispatch and network reinforcement planning methods to power system
operators, planners, and decision-makers in the power utilities and
related industries.
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