Cover Image
Market Research Report

Global Energy Infrastructure Resilience Market Forecast 2020-2030: Forecasts & Analysis by Infrastructure Type, by Power Infrastructure, by Generation Type, Forecasts by Major Developed and Developing Countries, Profiles of Leading Companies

Published by Visiongain Ltd Product code 934306
Published Content info 348 Pages
Delivery time: 1-2 business days
Price
Back to Top
Global Energy Infrastructure Resilience Market Forecast 2020-2030: Forecasts & Analysis by Infrastructure Type, by Power Infrastructure, by Generation Type, Forecasts by Major Developed and Developing Countries, Profiles of Leading Companies
Published: March 24, 2020 Content info: 348 Pages
Description

Are you aware that global energy infrastructure resilience market spending reached $8,901.8 million in 2019?

Read on to explore how you can maximise your gains from this dynamic sector.

The report discusses:

  • What are the key drivers and restraints for each regional market during the 2020-2030 and how these will shape the Energy Infrastructure Resilience market.
  • How will each submarket grow in the Energy Infrastructure Resilience Market, what type of power infrastructure is going to receive the largest share of investment and what type of generation is dominant in the 2020-2030 period.
  • The leading players of the Energy Infrastructure resilience market and what are their prospects over the forecast period

What will you learn from this energy infrastructure resilience report?

You will discover the Energy Infrastructure resilience global and regional outlook over a 10-year horizon including:

  • US
  • Canada
  • UK
  • Germany
  • France
  • Italy
  • Spain
  • China
  • Japan
  • Australia
  • Saudi Arabia
  • South Korea
  • Brazil
  • Russia
  • India
  • Mexico
  • Indonesia
  • Malaysia
  • South Africa
  • Iran
  • Iraq

Understand the energy infrastructure resilience competitive landscape

View a succinct analysis of the Energy Infrastructure Resilience industry outlook with an examination and analysis of some of the top companies operating within the Energy Infrastructure Resilience market space, including:

  • NRG Energy
  • Centrica Plc.
  • Siemens AG
  • EDF Group
  • AECOM
  • TetraTech Inc.
  • BLUWAVE AI
  • Black & Veatch Holding Company
  • ICF International
  • ARUP Group Limited
  • Guidehouse

See detailed energy infrastructure resilience submarket forecasts & analysis 2020-2030

  • By Infrastructure Type
  • By Power Infrastructure
  • By Generation Type

Read forward looking energy infrastructure resilience market analysis

Visiongain is an independent business intelligence consultancy with years of Electricity and Power Generation Infrastructure industry experience.

Get instant energy infrastructure resilience market insight

Find 216 tables & figures over 329 pages, illustrating the Energy Infrastructure resilience market outlook

Buy our report today Global Energy Infrastructure Resilience Market Report Forecasts 2020-2030: Forecasts & Analysis by Infrastructure Type (Petroleum, Natural Gas, Power, Renewable, Mining), by Power Infrastructure (Generation, Transmission, Distribution, Consumption), by Generation Type (Thermal, Nuclear, Hydropower, Solar, Wind, Other), Including Forecasts by Major Developed Countries and Developing Countries, Plus Profiles of Leading Companies in the Market. Avoid missing out by staying informed - order our report now.

Visiongain is a trading partner with the US Federal Government.

Table of Contents
Product Code: ENE0396

Table of Contents

1.Report Overview

  • 1.1 Global Energy Infrastructure Resilience Market Overview
  • 1.2 What Are the Climate Risks We Face?
    • 1.2.1 Climate Change and Demand for Electricity
  • 1.3 Global Energy Infrastructure Resilience Market Segmentation
  • 1.4 Market Definition
    • 1.4.1 What Is Climate-Resilient Infrastructure
  • 1.5 How This Report Delivers
  • 1.6 Key Questions Answered by This Analytical Report Include:
  • 1.7 Why You Should Read This Report?
  • 1.8 Who is This Report for?
  • 1.9 Methodology
  • 1.10 Frequently Asked Questions (FAQ)
  • 1.11 Associated Visiongain Reports
  • 1.12 About Visiongain

2. Introduction to Energy Infrastructure Resilience

  • 2.1 Infrastructure Disruptions Due to Climate Change Cause Economic Losses to the Nation
  • 2.2 Resilience of Infrastructure Assets
  • 2.3 Resilience of Infrastructure Users
  • 2.4 How Much Would It Cost To Implement Resilient Technologies And Solutions
  • 2.5 What Are the Returns On Investments for Making Exposed Infrastructure More Resilient to Natural Disasters?
  • 2.6 From Resilient Infrastructure Assets to Resilient Infrastructure Services
  • 2.7 From Resilient Infrastructure Services to Resilient Users And Economies

3. Climate Change Impact on Global Energy Sector

  • 3.1 Temperature, Energy Demand, and Energy Supply
  • 3.2 Water Availability and Energy
  • 3.3 Sea Level Rise, Storm Surge, and Extreme Events
  • 3.4 Wind Speed, Cloud Cover, and Renewable Energy
  • 3.5 The Intergovernmental Panel on Climate Change (IPCC)

4. Importance of Resilience in Global Energy Sector

  • 4.1 Valuing Resilience in Electricity Systems
    • 4.1.1 Reliability versus Resilience
    • 4.1.2 Value of Lost Load (VoLL)
    • 4.1.3 Valuing Resilience
  • 4.2 Monetizing Resilience
  • 4.3 Levels of Rigor in Resilience Analysis

5. Global Energy Infrastructure Resilience Market: What are the Factors Affecting Global Market?

  • 5.1 Resilience Is Central to Achieving Many International Objectives
  • 5.2 More Resilient Infrastructure Assets Are Cost-Effective
  • 5.3 The Additional Up-Front Cost of More Resilient Assets Depends On the Asset and The Hazard
  • 5.4 The Additional Up-Front Cost of More Resilient Assets Could Be Offset by Lower Maintenance and Repair Costs
  • 5.5 Improving Maintenance and Operations Is an Option for Boosting Resilience and Reducing Costs
  • 5.6 How Would Those Costs Increase to Make Power Systems More Resilient?
  • 5.7 From Resilient Assets to Resilient Infrastructure Services
  • 5.8 Diversifying Assets To Increase Network Resilience
  • 5.9 Decentralizing And Using New Technologies
  • 5.10 Working Across Systems To Capture Synergies
  • 5.11 Protecting Infrastructure Systems with Dikes in Dense Areas
  • 5.12 Combining Infrastructure with Nature-Based Solutions to Reduce Investment Needs
  • 5.13 Opportunities in the Global Market
    • 5.13.1 Funding opportunities
    • 5.13.2 Opportunities to Enhance Climate Adaptation Practice

6. Financial Aspects of Energy Sector Resilience

  • 6.1 Green Banks
    • 6.1.1 Public International Climate and Environmental Funds
    • 6.1.2 Multilateral Development Banks and Bilateral Development Assistance
  • 6.2 Resilience Finance
    • 6.2.1 Internal Organizational Budgets
    • 6.2.2 Public-Private Partnerships
    • 6.2.3 Insurance
    • 6.2.4 Catastrophe and Resilience Bonds
    • 6.2.5 Bond Financing and Green Bonds
    • 6.2.6 Green Bonds
    • 6.2.7 Insurance-linked Loan Packages
    • 6.2.8 Resilience Impact Bond
    • 6.2.9 Resilience Bond
    • 6.2.10 Resilience Service Company

7. Energy Resilience Infrastructure Market in Developed Countries

  • 7.1 U.S. Energy Profile
    • 7.1.1 Energy Sector Overview
    • 7.1.2 U.S. Climate Change Risk to Energy Infrastructure
    • 7.1.3 U.S. Energy Infrastructure Resilience Market
  • 7.2 Canada Energy Profile
    • 7.2.1 Canada Energy Sector Overview
    • 7.2.3 Canada Climate Change Risk to Energy Infrastructure
    • 7.2.4 Canada Energy Infrastructure Resilience Market
  • 7.3 U.K. Energy Profile
    • 7.3.1 U.K. Energy Sector Overview
    • 7.3.2 U.K. Climate Change Risk to Energy Infrastructure
    • 7.3.3 U.K. Energy Infrastructure Resilience Market
  • 7.4 Germany Energy Profile
    • 7.4.1 Energy Sector Overview
    • 7.4.2 Germany Climate Change Risk to Energy Infrastructure
    • 7.4.3 Germany Energy Infrastructure Resilience Market
  • 7.5 France Energy Profile
    • 7.5.1 Energy Sector Overview
    • 7.5.2 France Climate Change Risk to Energy Infrastructure
    • 7.5.3 France Energy Infrastructure Resilience Market
  • 7.6 Italy Energy Profile
    • 7.6.1 Energy Sector Overview
    • 7.6.2 Italy Climate Change Risk to Energy Infrastructure
    • 7.6.3 Italy Energy Infrastructure Resilience Market
  • 7.7 Spain Energy Profile
    • 7.7.1 Energy Sector Overview
    • 7.7.2 Spain Climate Change Risk to Energy Infrastructure
    • 7.7.3 Spain Energy Infrastructure Resilience Market
  • 7.8 China Energy Profile
    • 7.8.1 Energy Sector Overview
    • 7.8.2 China Climate Change Risk to Energy Infrastructure
    • 7.8.3 China Energy Infrastructure Resilience Market
  • 7.9 Japan Energy Profile
    • 7.9.1 Energy Sector Overview
    • 7.9.2 Japan Climate Change Risk to Energy Infrastructure
    • 7.9.3 Japan Energy Infrastructure Resilience Market
  • 7.10 Australia Energy Profile
    • 7.10.1 Energy Sector Overview
    • 7.10.2 Australia Climate Change Risk to Energy Infrastructure
    • 7.10.3 Australia Energy Infrastructure Resilience Market
  • 7.11 Saudi Arabia Energy Profile
    • 7.11.1 Energy Sector Overview
    • 7.11.2 Saudi Arabia Climate Change Risk to Energy Infrastructure
    • 7.11.3 Saudi Arabia Energy Infrastructure Resilience Market
  • 7.12 South Korea Energy Profile
    • 7.12.1 Energy Sector Overview
    • 7.12.2 South Korea Climate Change Risk to Energy Infrastructure
    • 7.12.3 South Korea Energy Infrastructure Resilience Market
  • 7.13 Brazil Energy Profile
    • 7.13.1 Brazil Energy Sector Overview
    • 7.13.2 Brazil Climate Change Risk to Energy Infrastructure
    • 7.13.3 Brazil Energy Infrastructure Resilience Market
  • 7.14 Russia Energy Profile
    • 7.14.1 Russia Energy Sector Overview
    • 7.14.2 Russia Climate Change Risk to Energy Infrastructure
    • 7.14.3 Russia Energy Infrastructure Resilience Market

8. Energy Resilience Infrastructure Market in Developing Countries

  • 8.1 India Energy Profile
    • 8.1.1 India Energy Sector Overview
    • 8.1.2 Investment Scenario
    • 8.1.3 Government Initiatives
    • 8.1.4 India Climate Change Risk to Energy Infrastructure
    • 8.1.5 India Energy Infrastructure Resilience Market
  • 8.2 Mexico Energy Profile
    • 8.2.1 Energy Sector Overview
    • 8.2.2 Mexico Climate Change Risk to Energy Infrastructure
    • 8.2.3 Mexico Energy Infrastructure Resilience Market
  • 8.3 Indonesia Energy Profile
    • 8.3.1 Energy Sector Overview
    • 8.3.2 Indonesia Climate Change Risk to Energy Infrastructure
    • 8.3.3 Indonesia Energy Infrastructure Resilience Market
  • 8.4 Malaysia Energy Profile
    • 8.4.1 Malaysia Energy Sector Overview
    • 8.4.2 Malaysia Climate Change Risk to Energy Infrastructure
    • 8.4.3 Malaysia Energy Infrastructure Resilience Market
  • 8.5 South Africa Energy Profile
    • 8.5.1 Energy Sector Overview
    • 8.5.2 South Africa Climate Change Risk to Energy Infrastructure
    • 8.5.3 South Africa Energy Infrastructure Resilience Market
  • 8.6 Iran Energy Profile
    • 8.6.1 Iran Energy Sector Overview
    • 8.6.2 Iran Climate Change Risk to Energy Infrastructure
    • 8.6.3 Iran Energy Infrastructure Resilience Market
  • 8.7 Iraq Energy Profile
    • 8.7.1 Iraq Energy Sector Overview
    • 8.7.2 Iraq Climate Change Risk to Energy Infrastructure
    • 8.7.3 Iraq Energy Infrastructure Resilience Market

9. Climate-Resilience of Power Plants

  • 9.1 How to Improve Climate-Resilience of Power Plants?
    • 9.1.1 Anticipate
    • 9.1.2 Plan
    • 9.1.3 Inform
    • 9.1.4 Respond
    • 9.1.5 Recover
    • 9.1.6 Longer-Term Adaptation
    • 9.1.7 Adaptation: Renewable generation

10. Projects Integrating Climate-Resilience

  • 10.1 Selected Infrastructure Projects Integrating Climate-Resilience In OECD And G20 Countries
    • 10.1.1 Eyre Peninsula (Australia)
    • 10.1.2 Japanese Railways (JR) (Japan)
    • 10.1.3 Sponge City (Hong Kong, China)
    • 10.1.4 Hurricane Sandy Rebuilding Strategy (USA)
  • 10.2 Modelling The Macro-Economic Impacts Of A Major Flood In Paris
  • 10.3 Stakeholder Engagement for Climate-Resilient Infrastructure
    • 10.3.1 Northwest Territories, Canada
    • 10.3.2 Indore, India
    • 10.3.3 Semarang, Indonesia
  • 10.4 Initiatives for Communicating Climate Risks And Supporting Decision-Making
    • 10.4.1 Argentina's Climate Risks Map System (SIMARCC)
    • 10.4.2 Brazil's AdaptaClima Platform
    • 10.4.3 Copernicus Climate Data Store
    • 10.4.4 European Climate-Adapt Platform
    • 10.4.5 United States Climate Change Adaptation Resource Center (ARC-X)
  • 10.5 Promoting Ecosystem-Based Adaptation In South Africa
    • 10.5.1 Copenhagen: Working With Ecosystems To Cost-Effectively Build Resilience
  • 10.6 Examples of Infrastructure Pathways
    • 10.6.1 Delta Programme (Netherlands)
    • 10.6.2 Colorado River Basin (United States)
    • 10.6.3 National Infrastructure Commission (United Kingdom)
  • 10.7 Integrating Climate Risks Into Public Infrastructure Planning
    • 10.7.1 Queensland and Tasmania (Australia)
    • 10.7.2 COAG (Australia)
    • 10.7.3 West Coast Infrastructure Exchange (Canada and USA)
  • 10.8 Mobilising Finance for Climate-Resilient Infrastructure
    • 10.8.1 Land Development Taxes (Morocco)
    • 10.8.2 The Reef and Beach Resilience and Insurance (Mexico)
    • 10.8.3 Environmental Impact Bond (US)

11. Company Profiles

  • 11.1 NRG Energy, Inc.
    • 11.1.1 Company Overview
    • 11.1.2 Company Financial Performance
    • 11.1.3 Company Products and Services
    • 11.1.4 Company Recent Developments
  • 11.2 Centrica plc
    • 11.2.1 Company Overview
    • 11.2.2 Centrica Business Solutions
    • 11.2.3 SmartWatt
    • 11.2.4 Company Financial Performance
    • 11.2.5 Company Product and Service Offerings
    • 11.2.6 Company Recent Developments
  • 11.3 Siemens
    • 11.3.1 Company Overview
    • 11.3.2 Siemens Corporation
    • 11.3.3 Company Financial Performance
    • 11.3.4 Company Recent Developments
  • 11.4 The EDF Group
    • 11.4.1 Company Overview
    • 11.4.2 Company Financial Performance
    • 11.4.3 Company Recent Developments
  • 11.5 Black & Veatch Holding Company
    • 11.5.1 Company Overview
    • 11.5.2 Company Recent Developments
    • 11.5.3 Company Projects
  • 11.6 BLUWAVE-AI
    • 11.6.1 Company Overview
    • 11.6.2 Company Product and Services
    • 11.6.3 Company Recent Developments
  • 11.7 Tetra Tech, Inc
    • 11.7.1 Company Overview
    • 11.7.2 Company Financial Performance
    • 11.7.3 Company Recent Developments
    • 11.7.4 Company Projects
  • 11.8 AECOM
    • 11.8.1 Company Overview
    • 11.8.2 Company Operations
    • 11.8.3 Geographic Reach
    • 11.8.4 Sales and Marketing
    • 11.8.5 Company's Financial Performance
    • 11.8.6 Business Strategy
    • 11.8.7 Company Recent Developments
  • 11.9 ICF International Inc.
    • 11.9.1 Company Overview
    • 11.9.2 Key Competitors in the Market
    • 11.9.3 Company Financial Performance
    • 11.9.4 Company Product & Service Offerings
    • 11.9.5 Company Recent Developments
  • 11.10 Guidehouse
    • 11.10.1 Company Overview
    • 11.10.2 Company Recent Development
  • 11.11 ARUP GROUP LIMITED
    • 11.11.1 Company Overview
    • 11.11.2 Company's Operations
    • 11.11.3 Company Sales and Marketing
    • 11.11.4 Company Financial Performance
    • 11.11.5 Business Strategy
    • 11.11.6 Company's Financial Performance
    • 11.11.7 Company Recent Development
  • 11.12 List of Other Companies
    • 11.12.1 Law Firms and Climate Change Practices
    • 11.12.2 Management Consultant for Resilient Infrastructure
    • 11.12.3 Oil & Gas Resilient Infrastructure Consulting Companies
    • 11.12.4 Climate Change Consulting Companies

12. Conclusion and Recommendations

  • 12.1 Conclusion
  • 12.2 Recommendations
    • 12.2.1 Recommendations for Policy Makers
    • 12.2.2 Recommendations for Insurance Industry
    • 12.2.3 Recommendations at the Project Conceptual Stage

13. Glossary

  • 13.1 Organizations to Consider in Exploring Resilience Finance
    • Associated Visiongain Reports
    • Visiongain Report Sales Order Form
    • Appendix A
      • About Visiongain
    • Appendix B
      • Visiongain report evaluation form

List of Tables

  • Table 1.1 Disrupted Infrastructure Services Have Multiple Impacts on Firms
  • Table 4.1 Costs Associated With Electric Grid Outages
  • Table 7.1 U.S. Energy Production & Consumption, 2016-2019
  • Table 7.2 U.S. Energy Infrastructure Resilience Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.3 U.S. Power Generation Infrastructure Investment, by Type, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.4 U.S. Power Resilient Infrastructure Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.5 Canada Energy Production & Consumption, 2016-2019
  • Table 7.6 Canada Energy Infrastructure Resilience Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.7 Canada Power Generation Infrastructure Investment, by Type, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.8 Canada Power Resilient Infrastructure Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.9 U.K. Energy Production & Consumption, 2016-2019
  • Table 7.10 U.K. Energy Infrastructure Resilience Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.11 U.K. Power Generation Infrastructure Investment, by Type, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.12 U.K. Power Resilient Infrastructure Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.13 Germany Energy Production & Consumption, 2016-2019
  • Table 7.14 Assessment of Climate Impacts in the German Energy Sector
  • Table 7.15 Germany Energy Infrastructure Resilience Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.16 Germany Power Generation Infrastructure Investment, by Type, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.17 Germany Power Resilient Infrastructure Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.18 France Energy Production & Consumption, 2016-2019
  • Table 7.19 France Energy Infrastructure Resilience Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.20 France Power Generation Infrastructure Investment, by Type, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.21 France Power Resilient Infrastructure Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.22 Italy Energy Production & Consumption, 2016-2019
  • Table 7.23 Italy Energy Infrastructure Resilience Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.24 Italy Power Generation Infrastructure Investment, by Type, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.25 Italy Power Resilient Infrastructure Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.26 Spain Energy Production & Consumption, 2016-2019
  • Table 7.27 Spain Energy Infrastructure Resilience Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.28 Spain Power Generation Infrastructure Investment, by Type, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.29 Spain Power Resilient Infrastructure Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.30 China Energy Production & Consumption, 2016-2019
  • Table 7.31 China Energy Infrastructure Resilience Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.32 China Power Generation Infrastructure Investment, by Type, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.33 China Power Resilient Infrastructure Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.34 Japan Energy Production & Consumption, 2016-2019
  • Table 7.35 Japan Energy Infrastructure Resilience Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.36 Japan Power Generation Infrastructure Investment, by Type, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.37 Japan Power Resilient Infrastructure Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.38 Australia Energy Production & Consumption, 2016-2019
  • Table 7.39 Australia Energy Infrastructure Resilience Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.40 Australia Power Generation Infrastructure Investment, by Type, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.41 Australia Power Resilient Infrastructure Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.42 Saudi Arabia Energy Production & Consumption, 2016-2019
  • Table 7.43 Saudi Arabia Energy Infrastructure Resilience Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.44 Saudi Arabia Power Generation Infrastructure Investment, by Type, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.45 Saudi Arabia Power Resilient Infrastructure Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.46 South Korea Energy Production & Consumption, 2016-2019
  • Table 7.47 South Korea Energy Infrastructure Resilience Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.48 South Korea Power Generation Infrastructure Investment, by Type, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.49 South Korea Power Resilient Infrastructure Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.50 Brazil Energy Production & Consumption, 2016-2019
  • Table 7.51 Brazil Energy Infrastructure Resilience Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.52 Brazil Power Generation Infrastructure Investment, by Type, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.53 Brazil Power Resilient Infrastructure Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.54 Russia Energy Production & Consumption, 2016-2019
  • Table 7.55 Russia Energy Infrastructure Resilience Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.56 Russia Power Generation Infrastructure Investment, by Type, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.57 Russia Power Resilient Infrastructure Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 7.58 India Energy Production & Consumption, 2016-2019
  • Table 8.1 India Energy Infrastructure Resilience Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 8.2 India Power Generation Infrastructure Investment, by Type, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 8.3 India Power Resilient Infrastructure Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 8.4 Mexico Energy Production & Consumption, 2016-2019
  • Table 8.5 Mexico Energy Infrastructure Resilience Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 8.6 Mexico Power Generation Infrastructure Investment, by Type, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 8.7 Mexico Power Resilient Infrastructure Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 8.8 Indonesia Energy Production & Consumption, 2016-2019
  • Table 8.9 Indonesia Energy Infrastructure Resilience Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 8.10 Indonesia Power Generation Infrastructure Investment, by Type, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 8.11 Indonesia Power Resilient Infrastructure Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 8.12 Malaysia Energy Production & Consumption, 2016-2019
  • Table 8.13 Malaysia Energy Infrastructure Resilience Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 8.14 Malaysia Power Generation Infrastructure Investment, by Type, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 8.15 Malaysia Power Resilient Infrastructure Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 8.16 South Africa Energy Production & Consumption, 2016-2019
  • Table 8.17 South Africa Energy Infrastructure Resilience Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 8.18 South Africa Power Generation Infrastructure Investment, by Type, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 8.18 South Africa Power Resilient Infrastructure Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 8.19 Iran Energy Production & Consumption, 2016-2019
  • Table 8.20 Iran Energy Infrastructure Resilience Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 8.21 Iran Power Generation Infrastructure Investment, by Type, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 8.22 Iran Power Resilient Infrastructure Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 8.23 Iraq Energy Infrastructure Resilience Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 8.24 Iraq Power Generation Infrastructure Investment, by Type, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 8.25 Iraq Power Resilient Infrastructure Investment, 2019-2030, (USD Million, AGR%, CAGR %)
  • Table 9.1 Impact of Natural Catastrophes on Power Plants
  • Table 9.2 Planning for Supply Interruptions
  • Table 9.3 Adaptation: Thermal Generation
  • Table 9.4 Adaptation: Hydropower
  • Table 9.5 Adaptation: Wind
  • Table 9.6 Adaptation: Solar
  • Table 9.7 Adaptation: Biomass
  • Table 9.8 Adaptation: Transmission and Distribution
  • Table 11.1 NRG Energy, Inc. Profile 2020 (CEO, Parent Company Sales US$m, Sales in the Market US$m, HQ, Founded, No. of Employees, Website)
  • Table 11.2 Total Revenue, 2014-2018, USD Million, AGR %
  • Table 11.3 NRG Energy Company Recent Developments till Feb,2020
  • Table 11.4 Centrica plc Profile 2020 (CEO, Parent Company Sales US$m, Sales in the Market US$m, HQ, Founded, No. of Employees, Website)
  • Table 11.5 Centrica plc Total Revenue, 2015-2019, USD Million, AGR %
  • Table 11.6 Centrica plc: Company Product & Service Offerings
  • Table 11.7 Centrica plc: Recent Developments, till Feb-2020
  • Table 11.8 Siemens AG Profile 2020 (CEO, Parent Company Sales US$m, Sales in the Market US$m, HQ, Founded, No. of Employees, Website)
  • Table 11.9 Siemens AG Total Revenue, 2015-2019, USD Million, AGR %
  • Table 11.10 Siemens AG: Recent Developments, till Feb-2020
  • Table 11.11 EDF Group Profile 2020 (CEO, Parent Company Sales US$m, Sales in the Market US$m, HQ, Founded, No. of Employees, Website)
  • Table 11.12 EDF Group Total Revenue, 2014-2018, USD Million, AGR %
  • Table 11.13 EDF Group: Recent Developments, till Feb-2020
  • Table 11.14 Black & Veatch Holding Company Profile 2020 (CEO, Parent Company Sales US$m, Sales in the Market US$m, HQ, Founded, No. of Employees, Website)
  • Table 11.15 Black & Veatch Holding: Company Product & Service Offerings
  • Table 11.16 Black & Veatch Holding: Recent Developments, till Feb-2020
  • Table 11.17 Black & Veatch Holding: List of Projects
  • Table 11.18 BLUEWAVE-AI Profile 2020 (CEO, Parent Company Sales US$m, Sales in the Market US$m, HQ, Founded, No. of Employees, Website)
  • Table 11.19 BluWave-AI Recent Developments, till Feb-2020
  • Table 11.20 Tetra Tech, Inc. Profile 2020 (CEO, Parent Company Sales US$m, Sales in the Market US$m, HQ, Founded, No. of Employees, Website)
  • Table 11.21 Tetra Tech, Inc. Total Revenue, 2015-2019, USD Million, AGR %
  • Table 11.23 Tetra Tech, Inc. Recent Developments, till Feb-2020
  • Table 11.24 Tetra Tech, Inc. : List of Projects
  • Table 11.25 AECOM Profile 2020 (CEO, Parent Company Sales US$m, Sales in the Market US$m, HQ, Founded, No. of Employees, Website)
  • Table 11.26 AECOM Total Revenue, 2015-2019, USD Million, AGR %
  • Table 11.27 AECOM: Recent Developments, till Feb-2020
  • Table 11.28 ICF International Inc. Profile 2020 (CEO, Parent Company Sales US$m, Sales in the Market US$m, HQ, Founded, No. of Employees, Website)
  • Table 11.29 ICF International, Inc. Total Revenue, 2014-2018, USD Million, AGR %
  • Table 11.30 ICF International, Inc: Company Product & Service Offerings
  • Table 11.31 Recent Developments, till Feb-2020
  • Table 11.32 Guidehouse LLP Profile 2020 (CEO, Parent Company Sales US$m, Sales in the Market US$m, HQ, Founded, No. of Employees, Website)
  • Table 11.33 Recent Developments, till Feb-2020
  • Table 11.34 ARUP Group Limited Profile 2020 (CEO, Parent Company Sales US$m, Sales in the Market US$m, HQ, Founded, No. of Employees, Website)
  • Table 11.35 ARUP Group Limited Total Revenue, 2015-2018, USD Million, AGR %
  • Table 11.36 ARUP Group Limited Recent Developments, till Feb-2020
  • Table 12.1 Engineering Options to Improve Energy Infrastructure Resilience
  • Table 12.2 Recommendations to Develop Resilient Infrastructures

List of Figures

  • Figure 1.1 Overview of Climate Change on Various Infrastructures
  • Figure 1.2 Key Factors of Pre-Disaster Preparedness
  • Figure 1.3 Global Energy Infrastructure Resilience Market, 2019-2030, USD Million
  • Figure 1.4 How Should We Respond to Climate Change Risks
  • Figure 1.5 Potential Climate Impact Per Asset Class
  • Figure 1.6 Global Energy Infrastructure Resilience Market Segmentation
  • Figure 4.1 Evaluating a Resilience Investment Requires Quantifying, Valuing, and Monetizing Its Impact on System Resilience
  • Figure 4.2 The Metric Of Days Of Survivability Is Used To Quantify The Resilience Benefit Of Adding Solar And Storage To Existing Diesel Generators In A Micro Grid.
  • Figure 4.3 Comparison of Valuing Resilience v/s Non- Valuing Resilience
  • Figure 7.1 U.S. Energy Infrastructure, Power Plants by Type, 2020
  • Figure 7.2 U.S. Climate Change Risk to Energy Infrastructures
  • Figure 7.3 Canada Energy Infrastructure, Power Plants by Type, 2020
  • Figure 7.4 Canada Climate Change Risk to Energy Infrastructures
  • Figure 7.5 U.K. Energy Infrastructure, Power Plants by Type, 2020
  • Figure 7.6 U.K. Climate Change Risk to Energy Infrastructures
  • Figure 7.7 Germany Energy Infrastructure, Power Plants by Type, 2020
  • Figure 7.8 Germany Climate Change Risk to Energy Infrastructures
  • Figure 7.9 France Energy Infrastructure, Power Plants by Type, 2020
  • Figure 7.10 France Climate Change Risk to Energy Infrastructures
  • Figure 7.11 Italy Energy Infrastructure, Power Plants by Type, 2020
  • Figure 7.12 Italy Climate Change Risk to Energy Infrastructures
  • Figure 7.13 Spain Energy Infrastructure, Power Plants by Type, 2020
  • Figure 7.14 Spain Climate Change Risk to Energy Infrastructures
  • Figure 7.15 China Energy Infrastructure, Power Plants by Type, 2020
  • Figure 7.16 China Climate Change Risk to Energy Infrastructures
  • Figure 7.17 Japan Energy Infrastructure, Power Plants by Type, 2020
  • Figure 7.18 Japan Climate Change Risk to Energy Infrastructures
  • Figure 7.19 Australia Energy Infrastructure, Power Plants by Type, 2020
  • Figure 7.20 Australia Climate Change Risk to Energy Infrastructures
  • Figure 7.21 Saudi Arabia Energy Infrastructure, Power Plants by Type, 2020
  • Figure 7.22 Saudi Arabia Climate Change Risk to Energy Infrastructures
  • Figure 7.23 South Korea Energy Infrastructure, Power Plants by Type, 2020
  • Figure 7.24 South Korea Climate Change Risk to Energy Infrastructures
  • Figure 7.25 Brazil Energy Infrastructure, Power Plants by Type, 2020
  • Figure 7.26 Brazil Climate Change Risk to Energy Infrastructures
  • Figure 7.27 Russia Energy Infrastructure, Power Plants by Type, 2020
  • Figure 7.28 Russia Climate Change Risk to Energy Infrastructures
  • Figure 7.28 India Energy Infrastructure, Power Plants by Type, 2020
  • Figure 8.1 India Climate Change Risk to Energy Infrastructures
  • Figure 8.2 Mexico Energy Infrastructure, Power Plants by Type, 2020
  • Figure 8.3 Mexico Climate Change Risk to Energy Infrastructures
  • Figure 8.4 Indonesia Energy Infrastructure, Power Plants by Type, 2020
  • Figure 8.5 Indonesia Climate Change Risk to Energy Infrastructures
  • Figure 8.6 Malaysia Energy Infrastructure, Power Plants by Type, 2020
  • Figure 8.7 Malaysia Climate Change Risk to Energy Infrastructures
  • Figure 8.8 South Africa Energy Infrastructure, Power Plants by Type, 2020
  • Figure 8.9 South Africa Climate Change Risk to Energy Infrastructures
  • Figure 8.10 Iran Energy Infrastructure, Power Plants by Type, 2020
  • Figure 8.11 Iran Climate Change Risk to Energy Infrastructures
  • Figure 8.12 Iraq Energy Infrastructure, Power Plants by Type, 2020
  • Figure 8.13 Iraq Climate Change Risk to Energy Infrastructures
  • Figure 11.1 NRG Energy, Inc. Total Revenue, 2014-2018, USD Million, AGR %
  • Figure 11.3 NRG Energy, Inc. Operating Income, 2014-2018, USD Million
  • Figure 11.4 NRG Energy, Inc. Net Income, 2014-2018, USD Million
  • Figure 11.5 NRG Energy, Inc. EBITDA, 2014-2018, USD Million
  • Figure 11.6 Centrica plc Total Revenue, 2015-2019, USD Million, AGR %
  • Figure 11.7 Centrica plc Gross Profit, 2015-2019, USD Million
  • Figure 11.8 Centrica plc Operating Income, 2015-2019, USD Million
  • Figure 11.9 Siemens AG Total Revenue, 2015-2019, USD Million, AGR %
  • Figure 11.10 Siemens AG Operating Income, 2015-2019, USD Million
  • Figure 11.11 Siemens AG Net Income, 2015-2019, USD Million
  • Figure 11.12 Siemens AG EBITDA, 2015-2019, USD Million
  • Figure 11.13 EDF Group Total Revenue, 2014-2018, USD Million, AGR %
  • Figure 11.14 EDF Group Operating Income, 2014-2018, USD Million
  • Figure 11.15 EDF Group Net Income, 2014-2018, USD Million
  • Figure 11.16 EDF Group EBITDA, 2014-2018, USD Million
  • Figure 11.17 Significant Economic And Environmental Returns On Their Investments
  • Figure 11.18 BluWave-AI: Company Product & Service Offerings Overview
  • Figure 11.19 BluWave-AI: Micro-Grids in Distributions
  • Figure 11.20 BluWave-AI: Application Overview
  • Figure 11.20 Tetra Tech, Inc. Total Revenue, 2015-2019, USD Million, AGR %
  • Figure 11.21 Tetra Tech, Inc. Operating Income, 2015-2019, USD Million
  • Figure 11.22 Tetra Tech, Inc. Net Income, 2015-2019, USD Million
  • Figure 11.23 Tetra Tech, Inc. EBITDA, 2014-2018, USD Million
  • Figure 11.24 AECOM Total Revenue, 2015-2019, USD Million, AGR %
  • Figure 11.25 AECOM Operating Income, 2015-2019, USD Million
  • Figure 11.26 AECOM Net Income, 2015-2019, USD Million
  • Figure 11.27 AECOM EBITDA, 2015-2019, USD Million
  • Figure 11.28 ICF International, Inc. Total Revenue, 2014-2018, USD Million, AGR %
  • Figure 11.29 ICF International, Inc. Operating Income, 2015-2018, USD Million
  • Figure 11.30 ICF International, Inc. Net Income, 2015-2018, USD Million
  • Figure 11.31 ICF International, Inc. EBITDA, 2014-2018, USD Million
  • Figure 11.32 ARUP Group Limited Total Revenue, 2015-2018, USD Million, AGR %
  • Figure 11.33 ARUP Group Limited Net Profit, 2015-2018, USD Million
  • Figure 11.34 ARUP Group Limited EBITDA, 2015-2018, USD Million
Back to Top