Resource Misallocation Theorem
Applications to Sustainable Energy Transition
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Beschreibung
This book introduces the theory of resource misallocation and its applications in the context of energy transition. Technological advancement is often regarded as the primary driver of energy transition and, ultimately, the achievement of net-zero emissions. However, technological progress is inherently long-term and highly uncertain. Additionally, there is an ongoing debate regarding the trade-offs between reducing carbon emissions and fostering economic growth. Resource reallocation presents a potential solution, as it can enhance efficiency, boost productivity, and effectively reduce carbon emissions. The authors offer insightful arguments supported by both theoretical and empirical analyses. This book is suitable for undergraduate and advanced-level readers and serves as a valuable resource for academic researchers and policymakers alike.
This book introduces the theory of resource misallocation and its applications in the context of energy transition. Technological advancement is often regarded as the primary driver of energy transition and, ultimately, the achievement of net-zero emissions. However, technological progress is inherently long-term and highly uncertain. Additionally, there is an ongoing debate regarding the trade-offs between reducing carbon emissions and fostering economic growth. Resource reallocation presents a potential solution, as it can enhance efficiency, boost productivity, and effectively reduce carbon emissions. The authors offer insightful arguments supported by both theoretical and empirical analyses. This book is suitable for undergraduate and advanced-level readers and serves as a valuable resource for academic researchers and policymakers alike.
Analyzes energy transition using macroeconomic theoretical framework Introduces the frontier of macroeconomic theory Provides a comprehensive theoretical framework of resource misallocation
Autor*in
Chin-Hsien Yu
Themen in »Resource Misallocation Theorem«
Energy Transition Sustainability Renewable Energy Power Plants Production Efficiency Economic Growth Resource Misallocation Carbon Neutrality Input Distortion Total Factor Productivity