High Voltage Direct Current Transmission Market - Forecast(2025 - 2031)
High Voltage Direct Current Transmission Market Overview:
High Voltage Direct Current Transmission Market Size is valued at $21780 Million by 2030, and is anticipated to grow at a CAGR of 9.20% during the forecast period 2024 -2030. The HVDC transmission market is rapidly expanding due to its critical role in enabling efficient power transfer over long distances. HVDC systems are pivotal for connecting renewable energy sources, supporting inter-regional power exchanges, and ensuring grid stability. These systems minimize energy losses compared to traditional Alternating Current (AC) transmission, making them a preferred choice for bulk power delivery, especially in offshore and remote locations.
The global shift toward renewable energy sources such as wind and solar power has elevated the demand for HVDC transmission systems. Recent innovations in Voltage Source Converter (VSC) technology have revolutionized the HVDC market by enhancing system flexibility, enabling bidirectional power flow, and supporting multi-terminal networks. Improved insulation materials and advancements in cable and converter station designs are reducing costs and increasing system reliability. Additionally, these advancements are paving the way for smart grid development and cross-border electricity interconnections, further driving market growth.
Market Snapshot:
High Voltage Direct Current Transmission Market - Report Coverage:
The “High Voltage Direct Current Transmission Market Report - Forecast (2024-2030)” by IndustryARC, covers an in-depth analysis of the following segments in the High Voltage Direct Current Transmission Market.
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COVID-19 / Ukraine Crisis - Impact Analysis:
• The COVID-19 pandemic had a mixed impact on the growth of the High Voltage Direct Current (HVDC) transmission market. On the one hand, disruptions in global supply chains, delays in infrastructure projects, and constraints on workforce availability slowed the execution of HVDC projects. Many governments and utilities redirected resources toward pandemic response efforts, resulting in delays or temporary halts in funding for new energy infrastructure. Manufacturing challenges, particularly in producing HVDC components such as cables and converters, further contributed to project postponements. On the other hand, the pandemic accelerated discussions about the need for resilient and sustainable energy systems.
• The Russia-Ukraine war significantly influenced the growth of the High Voltage Direct Current (HVDC) transmission market, primarily by reshaping energy strategies and accelerating investments in energy infrastructure. The conflict highlighted Europe's dependence on Russian gas, prompting countries to prioritize energy security and diversify their energy sources. This shift increased the focus on renewable energy integration and cross-border electricity interconnections, both of which rely heavily on HVDC technology for efficient and long-distance power transmission.
Key Takeaways:
• Growing Demand for Voltage Source Converter (VSC)
On the basis of technology, Voltage Source Converter (VSC) held the highest segmental market share of 32.5% in 2023 due to its advanced features and versatility. VSCs offer efficient power transmission with reduced energy losses, especially for renewable energy integration and long-distance underwater and underground applications. Their ability to control active and reactive power independently makes them ideal for stabilizing power grids in regions with fluctuating energy demand or renewable energy inputs. According to DNV GL, five new HVDC projects reached completion and were commissioned, bringing another 5.6 GW of combined HVDC transmission capacity online--significant but modest increase, given the scale at which transmission capacity needs to be build out. It included the 1400 MW 765 km Viking Link the world’s longest interconnector. Moreover, VSCs support multi-terminal HVDC networks, which are critical for modern, interconnected power grids. These benefits, combined with lower installation and maintenance costs compared to traditional Line Commutated Converter (LCC) systems, have driven their widespread adoption in the HVDC transmission market.
• Converters Dominated the High Voltage Direct Current Transmission Market
On the basis of component, converters held the highest segmental market share of around 43.2% in 2023. This dominance is attributed to the critical role converter stations play in converting alternating current (AC) to direct current (DC) and vice versa, enabling efficient long-distance power transmission. Their high cost, driven by advanced technologies and the need for robust infrastructure, significantly contributes to their substantial market share. Additionally, the increasing deployment of renewable energy projects and inter-regional power grids has further fueled the demand for converter stations, solidifying their leading position in the market.
• Point-to-Point Transmission Leads the High Voltage Direct Current Transmission Market
On the basis of project type, Point-to-Point Transmission held the highest segmental market share of around 65% in 2023. This dominance is primarily due to the widespread application of point-to-point HVDC systems for long-distance power transmission between specific generation sites and consumption centers. Point-to-point transmission systems are highly effective in transmitting large amounts of electricity over vast distances with minimal losses, making them the preferred choice for utilities, especially in regions with extensive power generation located far from population centers. The need to connect renewable energy sources, such as offshore wind farms and remote solar power plants, to major grids has further boosted the adoption of point-to-point HVDC solutions. The segment's large share can also be attributed to the ability of point-to-point HVDC systems to enhance grid stability and efficiency. These systems provide precise control over power flow, voltage regulation, and the ability to manage power surges, which is critical for the integration of intermittent renewable energy sources. Furthermore, the growing demand for energy security, coupled with the push for more reliable, high-capacity transmission infrastructure, has cemented the continued dominance of point-to-point systems in the HVDC market.
• Off-Shore Wind Farms Dominates the High Voltage Direct Current Transmission Market
On the basis of application, Off-Shore Wind Farms held the highest segmental market share of around 37.2% in 2023. This dominance stems from the global push to harness offshore wind energy as a key component of the renewable energy transition. Offshore wind farms are often located far from urban centers where energy demand is concentrated, necessitating efficient and reliable power transmission solutions. HVDC technology, with its ability to transmit large volumes of electricity over long distances with minimal losses, is ideally suited for connecting these remote wind farms to mainland grids. The rapid growth of offshore wind installations, particularly in regions like Europe, Asia-Pacific, and North America, has significantly driven the adoption of HVDC systems in this segment. In March 2024, two new offshore transmission solicitations were announced: the Public Policy Transmission Need (PPTN) in New York, and the State Agreement Approach 2.0 (SAA) in New Jersey. In preparation for the New Jersey PPTN, Invenergy announced its acquisition of Blackstone’s Atlantic Power Link portfolio which was developed for the previous SAA 1.0, renaming it Jersey Link. In 2024, actively driving developments in technology and standardization, the DOE announced its $8.5 million WETO FOA awards to 4 projects addressing barriers to the realization of High-Voltage Direct Current for Offshore Wind Transmission.
• Growing Demand for High Voltage Direct Current Transmission Market Due to Growing Integration of Renewable Energy Sources
The increasing adoption of renewable energy sources, such as wind and solar power, is a significant driver for the High Voltage Direct Current (HVDC) transmission market. Renewable energy projects are often located in remote areas with abundant resources, such as offshore wind farms or desert solar installations, far from urban centers where energy is consumed. HVDC transmission systems are highly efficient for transferring large amounts of power over long distances with minimal energy loss compared to traditional AC systems. By connecting renewable energy sources to national grids or interconnecting regional grids, HVDC systems support the reliable distribution of green energy. For instance, in 2023, Minnesota Power received a 50 million USD DOE grant to upgrade the Square Butte HVDC line. Separately, for its Sunzia project, Pattern Energy closed the largest clean energy infrastructure project in U.S. history for $11 billion financing. EnergyRe announced its capital raise of $1.2 billion to support its HVDC developments such as CPNY, SOO Green, and Leading Light offshore wind farm, including a stake by WindGrid which is subsidiary of the Elia group which also owns the Belgian and German grid operators Elia TSO and 50Hertz, respectively, and brings in significant HVDC expertise. Furthermore, as global commitments to reduce carbon emissions intensify, governments and energy providers are investing in HVDC infrastructure to ensure the effective utilization of renewable energy. This trend is expected to accelerate further as countries aim to meet ambitious renewable energy targets.
• Negative Impact on the High Voltage Direct Current Transmission Market Due to High Initial Investment Costs
One of the most significant challenges in the High Voltage Direct Current (HVDC) transmission market is the high upfront cost associated with developing and deploying HVDC systems. The construction of converter stations, installation of long-distance cables, and integration into existing grids require substantial financial resources. HVDC technology often demands custom engineering and specialized equipment, further increasing expenses. For smaller utilities or developing countries, these costs can act as a major deterrent to adoption. Additionally, the long payback periods associated with such projects can discourage investors and delay project implementation.
Key Market Players:
Product launches, approvals, patents and events, acquisitions, partnerships and collaborations are key strategies adopted by players in the High Voltage Direct Current Transmission Market. The top 10 companies in this industry are listed below:
1. General Electric
2. Toshiba Corporation
3. Prysmian Group
4. NR Electric Co., Ltd.
5. Transgrid Solutions, Inc.
6. ABB Group
7. Siemens
8. Mitsubishi Electric Corporation
9. Nexans
10. LS ELECTRIC Co., Ltd.
Scope of the Report:
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1. High Voltage Direct Current Transmission Market- Market Overview
1.1 Definitions and Scope
2. High Voltage Direct Current Transmission Market - Executive Summary
2.1 Key Trends by Technology
2.2 Key Trends by Component
2.3 Key Trends by Projects
2.4 Key Trends by Project Type
2.5 Key Trends by Application
2.6 Key Trends Segmented by Geography
3. High Voltage Direct Current Transmission Market – Comparative Analysis
3.1 Market Share Analysis - Major Companies
3.2 Product Benchmarking - Major Companies
3.3 Top 5 Financials Analysis
3.4 Patent Analysis - Major Companies
3.5 Pricing Analysis (ASPs will be provided)
4. High Voltage Direct Current Transmission Market– Startup Companies Scenario
4.1 Major startup company analysis:
4.1.1 Investment
4.1.2 Revenue
4.1.3 Product portfolio
4.1.4 Venture Capital and Funding Scenario
5. High Voltage Direct Current Transmission Market– Industry Market Entry Scenario Premium
5.1 Regulatory Framework Overview
5.2 New Business and Ease of Doing Business Index
5.3 Successful Venture Profiles
5.4 Customer Analysis – Major companies
6. High Voltage Direct Current Transmission Market- Market Forces
6.1 Market Drivers
6.2 Market Challenges
6.3 Porters five force model
6.3.1 Bargaining power of suppliers
6.3.2 Bargaining powers of customers
6.3.3 Threat of new entrants
6.3.4 Rivalry among existing players
6.3.5 Threat of substitutes
7. High Voltage Direct Current Transmission Market– By Strategic Analysis (Market Size -$Million/Billion)
7.1 Value Chain Analysis
7.2 Opportunities Analysis
7.3 Product Life Cycle
7.4 Suppliers and Distributors
8. High Voltage Direct Current Transmission Market- By Technology (Market Size -$Million/Billion)
8.1 Capacitor Commutated Converter (CCC) Based
8.2 Voltage Source Converter (VSC) Based
8.3 Line Commutated Converter (LCC) Based
8.4 UHVDC
9. High Voltage Direct Current Transmission Market- By Component (Market Size -$Million/Billion)
9.1 Convertors
9.2 Smoothing Reactors
9.3 Harmonic Filters
9.4 Breakers
9.5 Electrodes
9.6 Cables
9.7 Reactive Power Sources
9.8 Others
10. High Voltage Direct Current Transmission Market- By Projects (Market Size -$Million/Billion)
10.1 Single Driver
10.2 Multi Driver
10.3 Projects- Public Policy Requirements
10.4 Regional Projects
10.5 Non-Regional Projects
11. High Voltage Direct Current Transmission Market- By Project Type (Market Size -$Million/Billion)
11.1 Point-to-Point Transmission
11.2 Back-to-Back Stations
11.3 Multi-Terminal Systems
12. High Voltage Direct Current Transmission Market- By End-User (Market Size -$Million/Billion)
12.1 Underground / Underwater Power Transmission
12.2 Asynchronous Grid Interconnection
12.3 Off-Shore Power Transmission
12.4 Multi Terminal (HVDC Networked Grids)
12.5 Island Connections
12.6 Off-Shore Wind Farms
12.7 Urban In-feed
12.8 Others
12.8.1 Remote Generation
12.8.2 Remote Loads
12.8.3 Upgrades
12.8.4 Over Head Transmission
13. High Voltage Direct Current Transmission Market- By Geography (Market Size -$Million/Billion)
13.1 North America
13.1.1 USA
13.1.2 Canada
13.1.3 Mexico
13.2 South America
13.2.1 Brazil
13.2.2 Argentina
13.2.3 Colombia
13.2.4 Chile
13.2.5 Rest of South America
13.3 Europe
13.3.1 UK
13.3.2 Germany
13.3.3 France
13.3.4 Italy
13.3.5 Netherlands
13.3.6 Spain
13.3.7 Russia
13.3.8 Rest of Europe
13.4 Asia-Pacific
13.4.1 China
13.4.2 Japan
13.4.3 India
13.4.4 South Korea
13.4.5 Australia
13.4.6 Indonesia
13.4.7 Malaysia
13.4.8 Rest of APAC
13.5 Rest of the World
13.5.1 Middle East
13.5.2 Africa
14. High Voltage Direct Current Transmission Market- Entropy
14.1 New Product Launches
14.2 M&As, Collaborations, JVs and Partnerships
15. High Voltage Direct Current Transmission Market- Industry Competition Landscape
15.1 Market Share at Global Level - Major companies
15.2 Market Share by Key Region - Major companies
15.3 Market Share by Key Country - Major companies
15.4 Market Share by Key Applications - Major companies
16. High Voltage Direct Current Transmission Market – Key Company List by Country Premium
17. High Voltage Direct Current Transmission Market Company Analysis (Market Overview, Product Portfolio, Revenue, Developments)
17.1 General Electric
17.2 Toshiba Corporation
17.3 Prysmian Group
17.4 NR Electric Co., Ltd.
17.5 Transgrid Solutions, Inc.
17.6 ABB Group
17.7 Siemens
17.8 Mitsubishi Electric Corporation
17.9 Nexans
17.10 LS ELECTRIC Co., Ltd.
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