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Global High Voltage Fault Current Limiter Market Size By Technology Type, By End-User Industry, By Geographic Scope And Forecast


Published on: 2024-08-08 | No of Pages : 320 | Industry : latest updates trending Report

Publisher : MIR | Format : PDF&Excel

Global High Voltage Fault Current Limiter Market Size By Technology Type, By End-User Industry, By Geographic Scope And Forecast

High Voltage Fault Current Limiter Market Size And Forecast

High Voltage Fault Current Limiter Market size was valued at USD 1.5 Billion in 2023 and is projected to reach USD 7.75 Billion by 2030, growing at a CAGR of 9.26% during the forecast period 2024-2030.

Global High Voltage Fault Current Limiter Market Drivers

The market drivers for the High Voltage Fault Current Limiter Market can be influenced by various factors. These may include

  • Initiatives for Grid ModernizationTo improve the stability, efficiency, and dependability of their electrical systems, many nations are investing in infrastructure upgrades. By minimising fault currents and lessening the strain on already-existing equipment, HV FCLs are essential to the modernization of power grids because they increase system resilience and dependability.
  • Growing Need for Renewable Energy IntegrationBecause renewable energy sources are intermittent, grid operators face issues as renewable energy sources like solar and wind power become more prevalent. By reducing fault currents and permitting the smooth integration of renewable energy into the grid, high-voltage fast-coupling (HV FCLs) contribute to addressing concerns about grid stability and enable higher levels of penetration of renewable energy.
  • Increasing Awareness of Power Quality IssuesAs sensitive electronic equipment and devices proliferate, so does public awareness of the significance of preserving excellent power quality in electrical systems. By restricting fault currents, minimising voltage sags, and lowering the possibility of interruptions and damage to sensitive loads, HV FCLs contribute to improved power quality.
  • Pay attention to grid reliability and resilienceGrid operators are placing a higher priority on grid resilience and dependability due to the frequency and severity of extreme weather events and other disruptions increasing. Through the reduction of fault currents, isolation of faults, and prevention of cascading failures, HV FCLs improve grid resilience, reducing downtime and enhancing overall grid reliability.
  • Regulations and StandardsThe adoption of HV FCLs is influenced by regulations and standards that are designed to improve grid performance, dependability, and safety. HV FCL deployment is encouraged by regulatory compliance, including equipment protection and fault current limits, which utilities and grid operators must adhere to in order to modernise their infrastructure.
  • Upgrades are Required for Ageing Grid InfrastructureAn increasing number of nations are dealing with ageing grid infrastructure that is more prone to malfunctions and breakdowns. Because HV FCLs strengthen grid resilience against faults and disturbances and eliminate the need for expensive equipment replacements, they provide an affordable option for updating existing infrastructure.
  • Technological DevelopmentsSuperconducting, resistive, and hybrid FCLs are just a few of the high-voltage FCL technologies that are continuing to evolve, allowing for more uses and possibilities for these devices. Wider usage of HV FCLs in several electrical power industry areas can be attributed to their enhanced performance, dependability, and affordability.
  • Trends in Electrification and Energy TransitionThe need for more durable and resilient electrical grids is being driven by the world’s shift to greener energy sources, as well as the electrification of industrial processes and transportation. By making it possible to integrate distributed energy resources, electric cars, and other electrified technologies into the grid, HV FCLs are essential to this energy transformation.

Global High Voltage Fault Current Limiter Market Restraints

Several factors can act as restraints or challenges for the High Voltage Fault Current Limiter Market. These may include

  • High Initial Investment expensesThe creation, production, installation, and research and development of HV FCLs can include significant upfront expenses. Adoption may be hampered by the high capital costs associated with implementing HV FCLs, especially for utilities and grid operators with tight budgets or limited funding sources.
  • Technical Difficulties and Performance LimitationsAlthough HV FCL technology has advanced, there may still be difficulties including limited fault current limiting capability, problems with thermal management, and transient response characteristics. HV FCLs’ performance issues or technical constraints may prevent utilities and grid operators from widely implementing and accepting them.
  • Compatibility and Complexity of IntegrationIncluding HV FCLs into the current grid architecture may be difficult and need careful coordination with other control and protection devices. Delays in deployment and higher implementation costs might result from incompatibilities with current equipment, communication protocols, and protection mechanisms that present difficulties during installation and commissioning.
  • Regulatory and Standards ComplianceManufacturers and suppliers of HV FCL may face entry-level obstacles due to their compliance with industry standards and regulatory regulations. Particularly in areas with strict regulatory regimes, the lack of standardised certification procedures, testing techniques, and performance benchmarks may breed confusion and impede market expansion.
  • Risk Aversion and Reliability ConcernsWhen it comes to implementing new technologies that may have an influence on the safety and reliability of the grid, utilities and grid operators are frequently risk-averse. HV FCLs may be cautiously adopted or expensively purchased because to concerns about their dependability, longevity, and long-term performance, particularly in mission-critical applications.
  • Lack of Education and AwarenessKey stakeholders, like as utility executives, grid operators, and system planners, may not be fully informed about or aware of HV FCL technology, which could limit market expansion. To dispel misconceptions and scepticism regarding the efficacy of HV FCLs and to illustrate how they improve grid resilience, efficiency, and dependability, education and outreach initiatives are required.
  • Rival Technologies and AlternativesIn some situations, HV FCLs may be replaced by more practical methods of fault current limiting, such as dynamic brake resistors, superconducting fault current limiters (SFCLs), and grid reinforcement techniques. Adoption of HV FCLs in the market may be impacted by competition from these other technologies, as well as their own benefits and cons.
  • Economic Uncertainty and Market VolatilityInvestment decisions and project funding for HV FCL deployments can be influenced by economic factors such as changes in energy prices, regulatory policies, and geopolitical conflicts. The short- to medium-term demand for HV FCLs may be impacted by grid modernization project delays or cancellations brought on by economic uncertainty and market volatility.

Global High Voltage Fault Current Limiter Market Segmentation Analysis

The Global High Voltage Fault Current Limiter Market is Segmented on the basis of Technology Type, End-User Industry, Geography

By Technology Type

  • Superconducting Fault Current Limiters (SFCLs)SFCLs efficiently restrict fault currents in electrical power systems by employing superconducting materials.
  • Resistive fault current limiters RFCLs, use resistive materials to dissipate energy in order to limit fault currents.

By End-User Industry

  • UtilitiesIn order to improve the stability and dependability of electrical grids, utilities and grid operators frequently employ HV FCLs. They lessen equipment damage, stop cascade failures, and shorten outages when fault circumstances arise.
  • Industrial SectorTo safeguard vital equipment, preserve process continuity, and guarantee operational safety, industrial facilities—such as manufacturing plants, petrochemical complexes, and mining operations—use HV FCLs.
  • Renewable EnergyTo manage the variability and intermittency of renewable generation and improve grid stability, the integration of renewable energy sources, such as wind and solar, into the grid necessitates the use of HV FCLs.

By Geography

  • North AmericaUnited StatesA major market for HV FCLs, the U.S. contains a sizable component of the largest interconnected electrical grid in the world.
  • EuropeGermanyA significant market for HV FCLs, Germany is a pioneer in the implementation of renewable energy and system upgrading.
  • Asia-Pacific RegionChinaOne of the biggest markets for HV FCLs is China, with its vast electrical infrastructure and quickly growing economy.

Key Players

The major players in the High Voltage Fault Current Limiter Market are

  • ABB Ltd.
  • Siemens AG
  • General Electric Company
  • Mitsubishi Electric Corporation
  • SuperGrid Institute
  • Nexans SA
  • Applied Materials, Inc.
  • AMSC (American Superconductor Corporation)
  • Zenergy Power plc
  • Hitachi, Ltd.

Report Scope

REPORT ATTRIBUTESDETAILS
STUDY PERIOD

2020-2030

BASE YEAR

2023

FORECAST PERIOD

2024-2030

HISTORICAL PERIOD

2020-2022

UNIT

Value (USD Billion)

KEY COMPANIES PROFILED

ABB Ltd., Siemens AG, General Electric Company, Mitsubishi Electric Corporation, SuperGrid Institute, Nexans SA, Applied Materials, Inc., AMSC (American Superconductor Corporation), Zenergy Power plc, Hitachi, Ltd

SEGMENTS COVERED
  • Technology Type
  • End-User Industry
  • Geography
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