Power Infrastructure Technologies of the Future

  • ID: 4412621
  • Report
  • Region: Global
  • 47 Pages
  • Frost & Sullivan
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Innovations and Technologies Transforming the Power Grid Infrastructure

The power infrastructure is divided into isolated subsystems to facilitate reliable power supply to auxiliaries, consumers and isolated power systems. The complication and unpredictability of operating conditions in the electrical networks are influenced by renewable energy sources and market factors which drives the importance for the enlargement and sophistication of the existing power infrastructure. The lookout for decrease in the probability of severe blackouts which are characterized by cascade development of emergency processes further embrace the requirement of an efficient power infrastructure. This research service briefs on the present and upcoming developments in the power infrastructure especially on the transmission and distribution network.

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1.0 Executive Summary
1.1 Research Objectives and Scope
1.2 Research Process and Methodology
1.3 Key Findings

2.0 Overview: Power Infrastructure Technologies
2.1 The Influence of Infrastructure Technologies on Power Networks
2.2 Topology of Power Infrastructure Technology
2.3 Power Infrastructure Innovations Depend on the Funding Scenario
2.4 Research Centers and Technology Partnerships Are a Big Platform to Enhance the Existing Power Infrastructure
2.5 Power Infrastructure Landscape Chiefly Driven by Urbanization and Industrialization
2.6 Aging Infrastructure and Increasing DER Penetration Are Primary Drivers for Development in Power Infrastructure Technologies
2.7 Drivers Explained
2.8 Unstable Energy Markets and Acute Volatile Prices Hinder Investments on and Development of New Technologies
2.9 Restraints Explained
2.10 The Need for Technology Enhancement and Innovations in Power Infrastructure

3.0 Emerging Developments in Power Infrastructure Technologies
3.1 Instantaneous Power Injection through Superconducting Magnetic Energy Storage for Maintaining Grid Reliability
3.2 Medium Voltage Direct Current Transmission Link for Enhanced Thermal Capability
3.3 Power Infrastructure Solution Using Hydrogen Fuel Cells to Support Outage Disruptions
3.4 Eco-Friendly and Low Noise Phase Shifting Transformer with High Overload Rating
3.5 Doubling the Power Carrying Capacity in HVDC Using Light® Technology
3.6 Offshore Wind Cost Reduction through Higher Voltage EPR Cables
3.7 Lightweight Temperature Sensor for Low and Medium Voltage Distribution Cables
3.8 Extra High Voltage Mobile Transformers with Ether Insulation for Grid Resiliency
3.9 Dynamic IoT Connectivity and Analytics Platform for Smart Grid Networks
3.10 New Dispatch Platform with Electricity Load Patterns and Algorithm for Microgrid Modeling
3.11 Utilizing Energy Storage Devices for Stable Decentralized Power Supply with Increased Scalability Options

4.0 Future Trends & Insights
4.1 Emerging Trends Ahead
4.2 Utilities Are Expected to Increase their Market Share Owing to their Focus on Energy Efficiency and Grid Infrastructure
4.3 Global Market Ecosystem for Power Infrastructure Technologies
4.4 Higher Power Infrastructure Technology Adoption Trend Projected in Asia-Pacific Market
4.5 Technology Emergence Roadmap
4.6 Strategic Insights
4.7 Legal Disclaimer

5.0 Appendix
5.1 Key Patents Covering Power Infrastructure Technologies
5.2 Key Contacts

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