Description
HVDC Transmission Market Research Report Information Forecast 2027
Market Overview
During the forecast period, it is anticipated that the size of the global HVDC transmission market will register a noteworthy CAGR of 8.6%. Direct flow and high voltage direct current (HVDC) are used for power transmission across vast distances.
HVDC transmission asynchronously connects electricity grids in far-off places due to the direct current (DC), removing various factors that could cause outages. The expansion of the HVDC transmission business soon is due in part to the fact that HVDC transmission is more inexpensive for long-distance power transfer and results in fewer electrical disasters.
A breakthrough technology for the HVDC transmission market called Voltage Source Converter-based High Voltage Direct Current (VSC-HVDC) offers total flow control in both directions, avoids fault propagation, enhances voltage stability, and lowers network losses. Some of the VSC-HVDC systems used in the market today include HVDC Light (ABB), HVDC Plus (Siemens), and MonSin (GE/Alstom).
In addition, VSC technology has several advantages over traditionally employed line-commutated conversion (LCC) technology. The benefits include the ability to start with a black start, more power and voltage at the same price, less physical dimensions, making VSC-HVDC conversion stations 20–30% smaller than LCC-based stations. The demand for VSC-HVDC transmission capability rises because of these considerations.
Market Segmentation
The Global HVDC Transmission Market is segmented into LCC AND VSC based on the type of technology used. The Global HVDC Transmission Market is divided into three areas based on the kind of application: underground, asynchronous, and offshore. The Global HVDC Transmission Market is segmented based on the configuration type as Monopolar, Bipolar, Multi Terminal, and Back-To-Back. The categories of the global HVDC transmission market based on voltage rating type include 640 kV, 500 kV, and 200 kV.
Regional Analysis
The geographic segments of the HVDC Transmission market are North America, Europe, Asia-Pacific, Rest of the World. The Asia-Pacific is supposed to be the main region in the market. The development of a force framework in this district presents various open doors for market members.
China is placing a huge amount of cash into sustainable power and involving the most exceptional UHVDC innovation for power transmission. For instance, China is as of now constructing two of the world’s most impressive and longest HVDC power transmission thruways, each with an ostensible limit of 3,000 MW. Before long, these elements are supposed to push the HVDC market in Asia-Pacific.
The HVDC transmission systems market in North America is anticipated to develop during the gauge time frame, attributable to plans to foster the seaward wind ranch area, modest significant distance transmission expenses, controllability, and low short outflow.
Because of the extension of the sustainable power age and seaward wind establishments, the US held the best market share in North America over the projection period. The exploration likewise incorporates a country-by-country investigation of North America, including the US, Canada, and Mexico.
Major Players
The Key Companies covered in the report are Siemens (Germany), Toshiba Corporation (Japan), ABB Group (Switzerland), Schneider Electric (France), Adani (India), Hitachi Energy (Japan), General Electric Co. (US), Mitsubishi Electric Corporation (Tokyo), Alstom (France), NKT A/S (Copenhagen), and Nexans (France).
COVID 19 Impacts
We are continuously tracking the impact of the COVID-19 pandemic on various industries and verticals within all domains. Our research reports include the same and help you understand the drop and rise, owing to the impact of COVID-19 on industries. Also, we help you to identify the gap between the demand and supply of your interested market. Moreover, the report helps you with the analysis, amended government regulations, and many other useful insights.
TABLE OF CONTENTS
1 EXECUTIVE SUMMARY
1.1 GLOBAL HVDC TRANSMISSION MARKET, BY APPLICATION TYPE
1.2 GLOBAL HVDC TRANSMISSION MARKET, BY VOLTAGE RATING
1.3 GLOBAL HVDC TRANSMISSION MARKET, BY TECHNOLOGY TYPE
1.4 GLOBAL HVDC TRANSMISSION MARKET, BY CONFIGURATION TYPE
2 MARKET INTRODUCTION
2.1 DEFINITION
2.2 SCOPE OF THE STUDY
2.3 RESEARCH OBJECTIVE
2.4 MARKET STRUCTURE
3 RESEARCH METHODOLOGY
3.1 RESEARCH PROCESS
3.2 PRIMARY RESEARCH
3.3 SECONDARY RESEARCH
3.4 MARKET SIZE ESTIMATION
3.5 FORECAST MODEL
3.6 LIST OF ASSUMPTIONS
4 MARKET DYNAMICS
4.1 OVERVIEW
4.2 DRIVERS
4.2.1 INCREASING DEMAND FOR ELECTRICITY TRANSMISSION
4.2.2 GROWING DEMAND FOR VSC TECHNOLOGY
4.3 RESTRAINTS
4.3.1 INCREASING SHARE OF DISTRIBUTED AND OFF-GRID POWER GENERATION
4.4 OPPORTUNITIES
4.4.1 RISING DEMAND FOR RENEWABLE ENERGY SOURCES GLOBALLY
4.5 IMPACT OF COVID-19 ON GLOBAL HVDC TRANSMISSION MARKET
4.5.1 IMPACT ON MARKET
4.5.2 IMPACT ON REGIONS
4.5.3 IMPACT ON GDP
5 MARKET FACTOR ANALYSIS
5.1 SUPPLY CHAIN ANALYSIS
5.1.1 DESIGN & DEVELOPMENT
5.1.2 RAW MATERIAL & COMPONENT SUPPLY
5.1.3 MANUFACTURE & ASSEMBLY
5.1.4 DISTRIBUTION
5.1.5 END-USE
5.2 PORTER’S FIVE FORCES MODEL
5.2.1 THREAT OF NEW ENTRANTS
5.2.2 BARGAINING POWER OF SUPPLIERS
5.2.3 BARGAINING POWER OF BUYERS
5.2.4 THREAT OF SUBSTITUTES
5.2.5 RIVALRY
6 GLOBAL HVDC TRANSMISSION MARKET, BY TECHNOLOGY TYPE
6.1 OVERVIEW
6.1.1 LCC
6.1.2 VSC
7 GLOBAL HVDC TRANSMISSION MARKET, BY APPLICATION TYPE
7.1 OVERVIEW
7.1.1 UNDERGROUND
7.1.2 ASYNCHRONOUS
7.1.3 OFFSHORE
8 GLOBAL HVDC TRANSMISSION MARKET, BY CONFIGURATION TYPE
8.1 OVERVIEW
8.1.1 MONOPOLAR
8.1.2 BIPOLAR
8.1.3 MULTI TERMINAL
8.1.4 BACK-TO-BACK
9 GLOBAL HVDC TRANSMISSION MARKET, BY VOLTAGE RATING TYPE
9.1 OVERVIEW
9.1.1 640 KV
9.1.2 500 KV
9.1.3 200 KV
10 GLOBAL HVDC TRANSMISSION MARKET, BY REGION
10.1 OVERVIEW
10.1.1 GLOBAL HVDC TRANSMISSION MARKET, BY REGION, 2018–2027
10.2 EUROPE
10.2.1 EUROPE: HVDC TRANSMISSION MARKET, BY COUNTRY, 2018–2027
10.2.2 EUROPE: HVDC TRANSMISSION MARKET, BY TECHNOLOGY TYPE, 2018–2027
10.2.3 EUROPE: HVDC TRANSMISSION MARKET, BY APPLICATION TYPE, 2018–2027
10.2.4 EUROPE: HVDC TRANSMISSION MARKET, BY CONFIGURATION TYPE, 2018—2027
10.2.5 EUROPE: HVDC TRANSMISSION MARKET, BY VOLTAGE RATING TYPE, 2018—2027
10.2.6 UK
10.2.6 UK: HVDC TRANSMISSION MARKET, BY TECHNOLOGY TYPE, 2018–2027
10.2.6 UK: HVDC TRANSMISSION MARKET, BY APPLICATION TYPE, 2018–2027
10.2.6 UK: HVDC TRANSMISSION MARKET, BY CONFIGURATION TYPE, 2018—2027
10.2.6 UK: HVDC TRANSMISSION MARKET, BY VOLTAGE RATING TYPE, 2018–2027
10.2.7 GERMANY
10.2.7 GERMANY: HVDC TRANSMISSION MARKET, BY TECHNOLOGY TYPE, 2018–2027
10.2.7 GERMANY: HVDC TRANSMISSION MARKET, BY APPLICATION TYPE, 2018–2027
10.2.7 GERMANY: HVDC TRANSMISSION MARKET, BY CONFIGURATION TYPE, 2018—2027
10.2.7 GERMANY: HVDC TRANSMISSION MARKET, BY VOLTAGE RATING TYPE, 2018–2027
10.2.8 SPAIN
10.2.8 SPAIN: HVDC TRANSMISSION MARKET, BY TECHNOLOGY TYPE, 2018–2027
10.2.8 SPAIN: HVDC TRANSMISSION MARKET, BY APPLICATION TYPE, 2018–2027
10.2.8 SPAIN: HVDC TRANSMISSION MARKET, BY CONFIGURATION TYPE, 2018—2027
10.2.8 SPAIN: HVDC TRANSMISSION MARKET, BY VOLTAGE RATING TYPE, 2018–2027
10.2.9 ITALY
10.2.9 ITALY: HVDC TRANSMISSION MARKET, BY TECHNOLOGY TYPE, 2018–2027
10.2.9 ITALY: HVDC TRANSMISSION MARKET, BY APPLICATION TYPE, 2018–2027
10.2.9 ITALY: HVDC TRANSMISSION MARKET, BY CONFIGURATION TYPE, 2018—2027
10.2.9 ITALY: HVDC TRANSMISSION MARKET, BY VOLTAGE RATING TYPE, 2018–2027
10.2.10 REST OF EUROPE
10.2.10 REST OF EUROPE: HVDC TRANSMISSION MARKET, BY TECHNOLOGY TYPE, 2018–2027
10.2.10 REST OF EUROPE: HVDC TRANSMISSION MARKET, BY APPLICATION TYPE, 2018–2027
10.2.10 REST OF EUROPE: HVDC TRANSMISSION MARKET, BY CONFIGURATION TYPE, 2018—2027
10.2.10 REST OF EUROPE: HVDC TRANSMISSION MARKET, BY VOLTAGE RATING TYPE, 2018–2027
10.3 NORTH AMERICA
10.3.1 NORTH AMERICA: HVDC TRANSMISSION MARKET, BY COUNTRY, 2018–2027
10.3.2 NORTH AMERICA: HVDC TRANSMISSION MARKET, BY TECHNOLOGY TYPE, 2018–2027
10.3.3 NORTH AMERICA: HVDC TRANSMISSION MARKET, BY APPLICATION TYPE, 2018–2027
10.3.4 NORTH AMERICA: HVDC TRANSMISSION MARKET, BY CONFIGURATION TYPE, 2018—2027
10.3.5 NORTH AMERICA: HVDC TRANSMISSION MARKET, BY VOLTAGE RATING TYPE, 2018—2027
10.3.6 US
10.3.6 US: HVDC TRANSMISSION MARKET, BY TECHNOLOGY TYPE, 2018–2027
10.3.6 US: HVDC TRANSMISSION MARKET, BY APPLICATION TYPE, 2018–2027
10.3.6 US: HVDC TRANSMISSION MARKET, BY CONFIGURATION TYPE, 2018—2027
10.3.6 US: HVDC TRANSMISSION MARKET, BY VOLTAGE RATING TYPE, 2018–2027
10.3.7 CANADA
10.3.7 CANADA: HVDC TRANSMISSION MARKET, BY TECHNOLOGY TYPE, 2018–2027
10.3.7 CANADA: HVDC TRANSMISSION MARKET, BY APPLICATION TYPE, 2018–2027
10.3.7 CANADA: HVDC TRANSMISSION MARKET, BY CONFIGURATION TYPE, 2018—2027
10.3.7 CANADA: HVDC TRANSMISSION MARKET, BY VOLTAGE RATING TYPE, 2018–2027
10.3.8 MEXICO
10.3.8 MEXICO: HVDC TRANSMISSION MARKET, BY TECHNOLOGY TYPE, 2018–2027
10.3.8 MEXICO: HVDC TRANSMISSION MARKET, BY APPLICATION TYPE, 2018–2027
10.3.8 MEXICO: HVDC TRANSMISSION MARKET, BY CONFIGURATION TYPE, 2018—2027
10.3.8 MEXICO: HVDC TRANSMISSION MARKET, BY VOLTAGE RATING TYPE, 2018–2027
10.4 ASIA-PACIFIC
10.4.1 ASIA-PACIFIC: HVDC TRANSMISSION MARKET, BY COUNTRY, 2018–2027 (USD MILLION)
10.4.2 ASIA-PACIFIC: HVDC TRANSMISSION MARKET, BY TECHNOLOGY TYPE, 2018–2027
10.4.3 ASIA-PACIFIC: HVDC TRANSMISSION MARKET, BY APPLICATION TYPE, 2018–2027
10.4.4 ASIA-PACIFIC: HVDC TRANSMISSION MARKET, BY CONFIGURATION TYPE, 2018—2027
10.4.5 ASIA-PACIFIC: HVDC TRANSMISSION MARKET, BY VOLTAGE RATING TYPE, 2018—2027
10.4.6 CHINA
10.4.6 CHINA: HVDC TRANSMISSION MARKET, BY TECHNOLOGY TYPE, 2018–2027
10.4.6 CHINA: HVDC TRANSMISSION MARKET, BY APPLICATION TYPE, 2018–2027
10.4.6 CHINA: HVDC TRANSMISSION MARKET, BY CONFIGURATION TYPE, 2018—2027
10.4.6 CHINA: HVDC TRANSMISSION MARKET, BY VOLTAGE RATING TYPE, 2018–2027
10.4.7 JAPAN
10.4.7 JAPAN: HVDC TRANSMISSION MARKET, BY TECHNOLOGY TYPE, 2018–2027
10.4.7 JAPAN: HVDC TRANSMISSION MARKET, BY APPLICATION TYPE, 2018–2027
10.4.7 JAPAN: HVDC TRANSMISSION MARKET, BY CONFIGURATION TYPE, 2018—2027
10.4.7 JAPAN: HVDC TRANSMISSION MARKET, BY VOLTAGE RATING TYPE, 2018–2027
10.4.8 INDIA
10.4.8 INDIA: HVDC TRANSMISSION MARKET, BY TECHNOLOGY TYPE, 2018–2027
10.4.8 INDIA: HVDC TRANSMISSION MARKET, BY APPLICATION TYPE, 2018–2027
10.4.8 INDIA: HVDC TRANSMISSION MARKET, BY CONFIGURATION TYPE, 2018—2027
10.4.8 INDIA: HVDC TRANSMISSION MARKET, BY VOLTAGE RATING TYPE, 2018–2027
10.4.9 REST OF ASIA-PACIFIC
10.4.9 REST OF ASIA-PACIFIC: HVDC TRANSMISSION MARKET, BY TECHNOLOGY TYPE, 2018–2027
10.4.9 REST OF ASIA-PACIFIC: HVDC TRANSMISSION MARKET, BY APPLICATION TYPE, 2018–2027
10.4.9 REST OF ASIA-PACIFIC: HVDC TRANSMISSION MARKET, BY CONFIGURATION TYPE, 2018—2027
10.4.9 REST OF ASIA-PACIFIC: HVDC TRANSMISSION MARKET, BY VOLTAGE RATING TYPE, 2018–2027
10.5 REST OF THE WORLD
10.5.1 REST OF THE WORLD: HVDC TRANSMISSION MARKET, BY REGION, 2018–2027
10.5.2 REST OF THE WORLD: HVDC TRANSMISSION MARKET, BY TECHNOLOGY TYPE, 2018–2027
10.5.3 REST OF THE WORLD: HVDC TRANSMISSION MARKET, BY APPLICATION TYPE, 2018–2027
10.5.4 REST OF THE WORLD: HVDC TRANSMISSION MARKET, BY CONFIGURATION TYPE, 2018—2027
10.5.5 REST OF THE WORLD: HVDC TRANSMISSION MARKET, BY VOLTAGE RATING TYPE, 2018—2027
11 COMPETITIVE LANDSCAPE
11.1 OVERVIEW
11.2 COMPETITIVE BENCHMARKING
11.3 MARKET SHARE ANALYSIS
11.4 KEY DEVELOPMENTS IN THE GLOBAL HVDC TRANSMISSION MARKET
11.4.1 PRODUCT LAUNCH
11.4.2 ACQUISITION
11.4.3 DEVELOPMENT
11.4.4 PARTNERSHIP
11.4.5 EXPANSION
11.4.6 ANNOUNCEMENT
11.4.7 INITIATIVE
11.4.8 CONTRACT
11.4.9 AGREEMENT
12 COMPANY PROFILES
12.1 SIEMENS
12.1.1 COMPANY OVERVIEW
12.1.2 FINANCIAL OVERVIEW
12.1.3 PRODUCTS OFFERED
12.1.4 KEY DEVELOPMENTS
12.1.5 SWOT ANALYSIS
12.1.6 KEY STRATEGIES
12.2 TOSHIBA CORPORATION
12.2.1 COMPANY OVERVIEW
12.2.2 FINANCIAL OVERVIEW
12.2.3 PRODUCTS OFFERED
12.2.4 KEY DEVELOPMENTS
12.2.5 SWOT ANALYSIS
12.2.6 KEY STRATEGIES
12.3 ABB
12.3.1 COMPANY OVERVIEW
12.3.2 FINANCIAL OVERVIEW
12.3.3 PRODUCTS OFFERED
12.3.4 KEY DEVELOPMENTS
12.3.5 SWOT ANALYSIS
12.3.6 KEY STRATEGIES
12.4 SCHNEIDER ELECTRIC
12.4.1 COMPANY OVERVIEW
12.4.2 FINANCIAL OVERVIEW
12.4.3 PRODUCTS OFFERED
12.4.4 KEY DEVELOPMENTS
12.4.5 SWOT ANALYSIS
12.4.6 KEY STRATEGIES
12.5 ADANI
12.5.1 COMPANY OVERVIEW
12.5.2 FINANCIAL OVERVIEW
12.5.3 PRODUCTS OFFERED
12.5.4 KEY DEVELOPMENTS
12.5.5 SWOT ANALYSIS
12.5.6 KEY STRATEGIES
12.6 HITACHI
12.6.1 COMPANY OVERVIEW
12.6.2 FINANCIAL OVERVIEW
12.6.3 PRODUCTS OFFERED
12.6.4 KEY DEVELOPMENTS
12.6.5 SWOT ANALYSIS
12.6.6 KEY STRATEGIES
12.7 GENERAL ELECTRIC CO.
12.7.1 COMPANY OVERVIEW
12.7.2 FINANCIAL OVERVIEW
12.7.3 PRODUCTS OFFERED
12.7.4 SWOT ANALYSIS
12.7.5 KEY STRATEGIES
12.8 MITSUBISHI ELECTRIC CORPORATION
12.8.1 COMPANY OVERVIEW
12.8.2 FINANCIAL OVERVIEW
12.8.3 PRODUCTS OFFERED
12.8.4 KEY DEVELOPMENTS
12.8.5 SWOT ANALYSIS
12.8.6 KEY STRATEGIES
12.9 ALSTOM
12.9.1 COMPANY OVERVIEW
12.9.2 FINANCIAL OVERVIEW
12.9.3 PRODUCTS OFFERED
12.9.4 KEY DEVELOPMENTS
12.9.5 SWOT ANALYSIS
12.9.6 KEY STRATEGIES
12.10 NKT A/S
12.10.1 COMPANY OVERVIEW
12.10.2 FINANCIAL OVERVIEW
12.10.3 PRODUCTS OFFERED
12.10.4 KEY DEVELOPMENTS
12.10.5 SWOT ANALYSIS
12.10.6 KEY STRATEGIES
12.11 NEXANS
12.11.1 COMPANY OVERVIEW
12.11.2 FINANCIAL OVERVIEW
12.11.3 PRODUCTS OFFERED
12.11.4 KEY DEVELOPMENTS
12.11.5 SWOT ANALYSIS
12.11.6 KEY STRATEGIES
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