SUSTAINABLE RESILIENCE OF ENERGY SYSTEMS -- SUSTAINABLE RESILIENCE OF ENERGY SYSTEMS -- Library of Congress Cataloging-in-Publication Data -- Contents -- Preface -- Chapter 1: 1. Resilience Concept -- 1.1. Introduction -- 1.2. Environment Resilience -- 1.3. Social Resilience -- 1.4. Economic Resilience -- 1.5. Resilience Engineering -- 1.5.1. System Failure in the View of Resilience Engineering -- 1.5.2. Method -- 1.5.3. Measurement of Organizational Resilience -- 1.5.4. Engineering Organizational Resilience -- Reference -- Chapter 2: 2. Energy System Resilience -- 2.1. Introduction -- 2.1.1. Sustainability Paradigm -- 2. 2. Sustainability Metrics -- 2.3. Resilience Metrics -- 2.4. Mathematical Formulation -- of Sustainability Index -- 2.5. Resilience Index for Energy System -- 2.6. Demonstration of the Resilience Index for Energy Systems -- 2.6.1. Options -- 2.6.1.1. Option A - Economic Change -- 2.6.1.2. Option B - Environnemental Change -- 2.6.1.3. Option C - Technological Indicator Change -- 2.6.1.4 . Option D - Social Change -- 2.6.2. Indicators Change -- 2.6.2.1. Economic Indicator Change - EcIC -- 2.6.2.2. Environmental Indicators Change - EnIC -- 2.6.2.3. Technological Indicator Change - TIC -- 2.6.2.4. Social Indicator Change - SIC -- 2.7. Evaluation of Resilience Index -- 2.8. Discussion -- 2.9. Conclusions -- References -- Chapter 3: 3. Resilience Method Application -- 3.1. The Resilience of Global Warming -- 3.1.1. Introduction -- 3.1.2. Fluctuation -- 3.1.3. Resilience of the System -- 3.1.4. Sustainability Index Definition -- 3.1.5. Resilience Index for Global Warming -- 1.5.1. Demonstration of Global Warming Resilience Index -- CASE 1 -- CASE 2 -- CASE 3 -- CASE 4 -- CASE 5 -- CASE 6 -- 3.1.6. Discussion of the Results -- 1.5.2. Conclusions -- References -- 3.2. Wind Power Plant Resilience -- 3.2.1. Introduction.

3.2.2. Wind Energy and Power -- 3.2.3. Indicators -- 3.2.4. Monitoring Scheme -- 3.2.5. Data Monitoring and Processing -- 3.2.6. Demonstration of Resilience Index Monitoring -- Reference -- 3.3. Photo Voltaic Power Plant Resilence -- 3.3.1. Introduction -- 3.3.2. Photo-Voltaic Power Plant -- 3.3.2.1. Photo-Modules -- 3.3.2.2. Invertors -- 3.3 3. Resilience of Photo-Voltaic Power Plant -- 3.3.3.1. Resilience Definition -- 3.3.3.2. Resilience Metric for Photo-Voltaic Power plant -- 3.3.3. Demonstration of Resilience Index -- Monitoring for Photo-Voltaic Power Plant -- 3.3.4. Conclusions -- Reference -- 3.4. Resilience of High Voltage Transmission System -- 3.4.1. Introduction -- 3.4.2. Sustainability of High Voltage Transmission System -- 3.4.3. Resilience Index for High Voltage Transmission System -- 3.4.4. Resilience Indicators -- 3.4.3.1. Economic Indicator -- 3.4.4 1.1. Electricity Cost -- 3.4.4.1.2. Investment Cost -- 3.4.4.2. Environment Indicator -- 3.4.4.2.1. Ice Agglomeration on the High Voltage Wiring -- 3.4.4.3. Social Indicators -- 3.4.4.3.1. Blackout -- 3.4.4.3.2.Human Behaviours -- 3.4.3. Demonstration of the Resilience High Voltage Transmission Cases -- 3.4.4.1. Options under Consideration -- 3.4.4. Conclusions -- Reference -- 3.5. Resilience Assessment of Natural -- Gas Power Plant -- 3.5.1. Introduction -- 3.5.2. Energy System Resilience -- 3.5.3. Resilience Metrics -- 3.5.4 . Resilience Index for Energy System -- 3.5.5. Resilience Index for the Gas Power Plant System -- 3.5.5.1. Options -- 3.5.5.1.1. Option A - Consumption Change -- 3.5.5.1.2. Option B - Environmental Change -- 3.5.5.1.3. Option C - Maintenance Cost Change -- 3.5.5.1.4. Option D - Period between Maintenance Change -- 3.5.5.2. Indicators Change -- 3.5.5.2.1. Economic Indicator Change - EcIC -- 3.5.5.2.2. Environmental Indicators Change - EnIC.

3.5.5.2.3. Technological Indicator Change - TIC -- 3.5.5.2.4. Social Indicator Change - SIC -- 3.5.5. Evaluation of Resilience Index -- 3.5.6. Discussion -- 3.5.7. Conclusions -- References -- 3.6. Nuclear Power Plant Resilience -- 3.6.1. Introduction -- 3.6.2. Sustainable Nuclear Energy -- 3.6.3. Resilience of Nuclear Power Plant -- 3.6.2. Resilience Indicators -- 3.6.2.1. Single Indicator Change -- 3.6.2.1.1. Change of the Average Neutron Flux -- 3.6.2.2.2. Change of the Pressure in Primary Cycle -- 3.6.2.2.3.Change of the Energy Cost -- 3.6.2.2.4. Change of the CO2 Compensation -- 3.6.2.2.5. Change of the Public Acceptance -- 3.6.2.2. Multi-Indicator Changes -- 3.6.3. Resilience Index Monitoring and Processing -- 3.6.4. Conclusion -- Reference -- 3.7. Resilience of Company Management System -- 3.7.1. Introduction -- 3.7.2. Organization of Management Knowledge -- 3.7.3. Resilience of Management System -- 3.7.4. Definition of Resilience Index -- 3.7.4. Demonstration of Resilience Index Monitoring -- 3.7.4.1. Resilience Options of Management System -- 3.7.4.1.1. Change of the Company Profit -- 3.7.4.1.2.Change of Total Income of the Company -- 3.7.4.1.3.Change of the Product Cost -- 3.7.4.1.4.Change of the Company Manpower -- 3.7.4.2. Management Resilience Cases -- 3.7.5. Resilience Assessment of Management System -- under Specific Changes -- References -- Index.