Name: 글로벌 시장 동향
SKU: EP5321
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보고서 요약(국문)

시장 개요
HVDC 송전 시장 연구 분석은 정량적 및 정성적 데이터를 포함하는 심층적인 시장 전망을 제공합니다. 시장 세분화를 기반으로 글로벌 시장에 대한 전망과 예측을 제시합니다. 또한 미국, 캐나다, 브라질, 독일, 이탈리아, 스페인, 영국, 러시아, 유럽 국가, 아랍에미리트, 사우디아라비아, 남아프리카공화국, 일본, 중국, 인도, 한국, 호주 및 기타 전 세계 국가를 기준으로 글로벌 수술 중 신경 모니터링 시장 규모, 성장률, 최신 동향, 기회 및 2029년까지의 예측을 제공합니다.
모든 지역 중에서 북미 HVDC 송전 시장은 예측 기간 동안 글로벌 시장에서 가장 큰 점유율을 차지할 것으로 예상됩니다. 반면 유럽 HVDC 송전 시장은 2023년부터 2030년까지 글로벌 시장에서 지속적인 입지를 유지할 것으로 전망됩니다.

HVDC 송전 시장 동향 및 추세
전 세계 에너지 수요 증가가 글로벌 HVDC 송전 시장 성장의 주요 동력입니다.
전 세계 에너지 소비 증가로 인해 전력망은 탈탄소화 및 디지털화를 강조하는 추세로 전환되고 있습니다. 또한 대규모 재생 에너지 시설의 확장과 화석 연료로부터의 전환이 HVDC 송전을 촉진하고 있습니다. HVDC는 멀리 떨어진 재생 에너지 발전소에서 생산된 전력을 장거리로 에너지 효율적으로 송전할 수 있도록 합니다. 현대 전력망이 직면한 가장 시급한 문제들을 해결할 수 있는 HVDC의 잠재력 덕분에 이러한 추세 변화는 예측 기간 동안 HVDC 송전 시장의 지속적인 성장을 견인할 것으로 예상됩니다.
HVDC 송전과 관련된 높은 설치 비용은 글로벌 시장 성장을 저해할 것으로 예상됩니다.
예측 기간 동안 HVDC 송전과 관련된 높은 설치 비용은 글로벌 시장 성장을 저해하는 요인으로 작용할 것으로 예상됩니다. HVDC 시스템에는 변환 변압기, 기계 및 전기 보조 장치, 폴 및 밸브 제어 장치 등 여러 가지 추가 하드웨어가 필요합니다. 이러한 모든 장비는 매우 고가이며 최첨단 기술을 요구합니다. HVDC 송전 시스템은 설계 특성상 설치 및 유지 보수 비용이 상당히 높습니다. VSC 기술의 인기가 높아짐에 따라 글로벌 시장에 새로운 기회가 창출될 것으로 예상됩니다.
VSC 기술은 절연 게이트 바이폴라 트랜지스터(IGBT), 펄스 폭 변조(PWM) 또는 소형 DC 커패시터의 스위칭을 통해 교류(AC)를 직류(DC)로 변환합니다. 전압 변환기는 크게 전압 인버터와 전압 정류기의 두 가지 범주로 나뉩니다. VSC-HVDC 시스템의 주요 목적은 정류기에서 인버터로 안정적인 DC 전력을 전달하는 것입니다. VSC 기술에 사용되는 IGBT는 기존 방식의 단점을 보완하며 점점 더 널리 사용되고 있습니다.
HVDC 프로젝트의 지연 및 비용 초과는 글로벌 시장에 어려움을 초래할 것으로 예상됩니다.
HVDC 프로젝트는 기술적 복잡성과 실행상의 어려움으로 인해 장기간의 준비 기간이 필요합니다. 또한 막대한 자본 지출이 수반됩니다. 이는 필연적으로 지연 및 비용 초과로 이어져 신규 프로젝트 승인에 대한 우려를 야기합니다. 이러한 문제는 예측 기간 동안 글로벌 시장 성장에 중요한 과제가 될 것으로 예상됩니다.

COVID-19가 HVDC 송전 시장에 미치는 영향 분석
COVID-19 팬데믹은 시장에 부정적인 영향을 미쳤으며 전 세계적으로 여러 프로젝트의 연기 및 지연을 초래했습니다. 정부의 봉쇄 조치와 이동 제한은 새로운 HVDC 송전 시스템의 개발 및 설치에 영향을 미쳤습니다. 그러나 팬데믹 이후 정부와 기업의 공동 노력으로 공급망이 재구축되고 노동력 확보가 정상화됨에 따라 시장 성장이 촉진될 것으로 예상됩니다. 단기적인 어려움에도 불구하고 팬데믹은 글로벌 HVDC 송전 시장의 장기적인 전망에 큰 영향을 미치지 않을 것으로 예상됩니다.
업계 최근 동향:
1. 2022년 4월, 지멘스는 뉴욕 해안의 선라이즈 해상 풍력 발전 프로젝트에 HVDC 송전선을 사용할 것이라고 발표했습니다. 924MW 규모의 이 프로젝트는 2025년 초에 가동될 것으로 예상됩니다.
2. 2022년 7월, 영국은 북해의 혼시 3 해상 풍력 발전소와 영국 본토를 연결하는 두 개의 HVDC 송전선로 개발 작업을 시작했습니다. 이 송전선로는 해상 풍력 발전소에서 생산된 2.8GW의 전력을 영국 국가 전력망으로 송전할 예정입니다. 이 HVDC 송전선로는 2026년 완공 예정입니다.
3. 2021년 6월, 인도는 타밀나두 주 푸갈루르와 케랄라 주 트리수르를 연결하는 320kV 2000MW 송전선로를 가동하여 최초의 전압원 변환기(VSC) 기반 HVDC 시스템을 구축했습니다.
HVDC 송전 시장 세분화 분석
본 보고서는 기술, 구성, 전압, 적용 분야 및 지역을 기준으로 시장을 세분화하여 분석합니다. 전 세계 HVDC 송전 시장은 기술별로 커패시터 정류 변환기(CCC), 전압원 변환기(VSC), 선로 정류 변환기(LCC)로 구분됩니다. 전 세계 HVDC 송전 시장은 구성에 따라 점대점(point-to-point), 백투백(back-to-back), 다중 단말(multi-terminal)으로 구분됩니다. 전압에 따라 350kV, 350-640kV, 640-800kV, 800kV로 구분됩니다. 적용 분야에 따라 대용량 전력 송전, 계통 연계, 도시 지역 전력 공급, 해상 계통, 기타로 구분됩니다. 지역별로는 북미, 남미, 유럽, 아시아 태평양, 중동 및 아프리카로 구분됩니다.
1. 점대점(Point-to-Point): 점대점 구성은 대부분의 HVDC 송전 시스템에서 가장 일반적인 구성입니다. 점대점 구성은 양 끝에 두 개의 변환소와 그 사이에 HVDC 선로로 구성됩니다. 한 변환소는 정류기 역할을 하고 다른 변환소는 인버터 역할을 합니다. 적절한 변환소 제어를 통해 변환소의 역할을 바꿀 수 있으며, 이로 인해 전력 방향이 반전됩니다. 1. 점대점(point-to-point) 구성에서는 발전소에서 변환소로 전력이 제어된 방식으로 단방향으로 전달됩니다.
2. 백투백(Back-to-Back): 백투백 구성은 시스템의 양 끝이 동일한 개폐소에 연결되는 HVDC 송전 시스템입니다. 백투백 구성 시스템에서는 인접 시스템의 전력을 먼저 정류 시스템을 통해 직류로 변환한 후 합산합니다. 합산된 전력은 다시 전력 인버터를 통해 교류로 변환되어 계통에 공급됩니다.
3. 다단자(Multi Terminal): 다단자 HVDC 시스템(MTDC)은 두 개 이상의 변환소와 직류 종단선을 갖춘 시스템입니다. 시스템의 변환소는 정류기 또는 인버터 역할을 합니다. 구성 방식에 차이가 있더라도 정류소에서 취수하는 총 전력은 인버터소에서 공급하는 전력과 항상 같습니다.

HVDC 송전 시장 지역별 점유율
DataM Intelligence 시장 조사 보고서에 따르면, 전 세계 HVDC 송전 시장은 북미, 남미, 유럽, 아시아 태평양, 중동 및 아프리카로 구분됩니다.
북미는 충분한 발전 용량을 보유하고 있음에도 불구하고, 전력 수요가 가장 많은 시간대에 정전과 순환 정전으로 어려움을 겪고 있습니다. 그러나 주요 구조적 문제와 재생 에너지로의 전환이 진행됨에 따라, 북미 지역 정부는 새로운 전력망 인프라 개발에 대규모 투자를 시작했습니다. 주요 사업 중 하나는 최대 효율성과 신뢰성을 확보하기 위한 HVDC 송전선 도입입니다. 전력 인프라 업그레이드가 증가함에 따라 북미 HVDC 송전 시장은 향후 몇 년 동안 지속적인 성장을 보일 것으로 예상됩니다.
유럽은 현재 여러 국가 간 전력 거래를 용이하게 하기 위해 전력망을 통합하고 있습니다. 많은 유럽 국가들이 다양한 전력망의 상호 연결성을 달성하기 위해 HVDC 송전 기술을 활용하고 있습니다. 재생 에너지로의 전환과 유럽 전력망의 통합이 진행됨에 따라, 유럽 HVDC 송전 시장은 향후 몇 년 동안 꾸준한 성장을 보일 것으로 예상됩니다.

아시아 태평양 지역은 급속한 산업화와 높은 경제 성장률을 경험하고 있는 지역입니다. 이러한 성장세로 인해 제조업, 화학, 자동차, 항공우주, 전자 등 다양한 분야에 걸쳐 제조 산업이 집중되어 있습니다. 경제 발전과 산업화가 가속화됨에 따라 아시아 태평양 지역의 HVDC 송전 시장은 향후 몇 년 동안 크게 성장할 것으로 예상됩니다.
HVDC 송전 시장 기업 및 경쟁 환경
글로벌 HVDC 송전 시장은 주요 업체들이 시장 점유율의 상당 부분을 차지하며, 경쟁이 매우 치열한 시장입니다. 모든 주요 업체들은 고도로 개발되고 특화된 HVDC 송전 시스템 및 부품, 그리고 변압기, 콘덴서, 케이블 등 다양한 제품을 판매하고 있으며, 시장 경쟁력 유지를 위해 턴키 방식의 개발 서비스를 제공하고 있습니다.
주요 기업:
글로벌 HVDC 송전 시장 성장에 기여하는 주요 기업으로는 Siemens AG, ABB, General Electric Co., Hitachi Ltd, Mitsubishi Electric Corporation, NKT A/S, Nexans S.A., NR Electric Co., Ltd., Toshiba Corporation 등이 있습니다.

보고서 요약(영어 원문)

Market Overview
HVDC transmission market study analysis offers an in-depth outlook on the market containing quantitative and qualitative data. It gives an outlook and forecast of the global market based on market segmentation. It also provides global intraoperative neuromonitoring market size, and growth, along with the latest trends, opportunities, and forecast till 2029 for the global market with esteem to major countries such as the United States, Canada, Brazil, Germany, Italy, Spain, United Kingdom, Russia, European countries, United Arab Emirates, Saudi Arabia, South Africa, Japan, China, India, South Korea, Australia, and rest of the countries over the globe.
Among all regions, the North American HVDC transmission market is expected to hold the largest share of the global market over the forecast period. Whereas the European HVDC transmission market is projected to continue its presence globally during the period of 2023-2030.
HVDC Transmission Market Dynamics and Trends
The rising global demand for energy is a major driver for the global HVDC transmission market:
Due to an increase in global energy consumption, there is an apparent trend shift in the power grid, emphasizing decarbonization and digitization. The industry is also driven by the expansion of utility-scale renewable energy facilities and the move away from fossil fuels. It facilitates long-distance energy-efficient electricity transmission from distant renewable power plants. Due to its capacity to resolve some of the most pressing difficulties that the modern grid faces, the trend shift is making the HVDC transmission market witness sustained growth during the forecast period.
The high installation costs associated with HVDC transmission are expected to restrain the global market:
Over the forecast period, the high installation costs associated with HVDC transmission are expected to prevent the growth of the global market. The system requires a few extra pieces of hardware, including a converter transformer, mechanical & electrical auxiliaries, pole & valve controls, and many others. All of this equipment is quite expensive and of the highest technology. HVDC transmission systems have substantial installing and maintaining costs because of their design.
The rising popularity of VSC technology is expected to generate new opportunities for the global market:
VSC technology converts AC to DC voltage with insulated gate bipolar transistors (IGBTs), pulse width modulation (PWM) or by switching in and out of smaller DC capacitors. Voltage inverters and voltage rectifiers are the two different categories of voltage converters. A VSC-HVDC system's primary purpose is to transfer steady DC power from a rectifier to an inverter. Insulated gate bipolar transistors, employed in VSC technology, address the shortcomings of conventional approaches and are growing in popularity.
Delays and cost overruns in HVDC projects are expected to present challenges for the global market:
HVDC projects require long lead times due to technical complexity and execution. The projects also entail high capital expenditure. It invariably leads to delays and cost overruns which causes trepidation in sanctioning new projects. It is expected to become a key challenge for the growth of the global market during the forecast period.
COVID-19 Impact Analysis on HVDC Transmission Market
COVID-19 pandemic negatively impacted the market and caused the postponement and delays of several projects globally. Lockdowns and restrictions on movement imposed by the government impacted the development and installation of new HVDC transmission systems. However, owing to the concerted efforts of governments and businesses in the post-pandemic period, the supply chain has been rebuilt and labor availability is returning to normal, which is expected to boost the market. Despite the short-term challenges, the pandemic is not expected to majorly impact the long-term outlook of the global HVDC transmission market.
Recent Developments in the Industry:
1. In April 2022, Siemens announced that it would utilize an HVDC transmission line for the Sunrise wind offshore project off the coast of New York. The 924 MW project is expected to be commissioned by early 2025.
2. In July 2022, the UK started developmental work on two HVDC lines connecting the Hornsea 3 offshore wind farm in the North Sea with the UK mainland. The line will transmit 2.8GW of electricity to UK national grid from the offshore wind farm. The HVDC line is slated for completion by 2026.
3. In June 2021, India commissioned its first voltage source converter (VSC)-based HVDC system with the operationalization of a 320KV 2000 MW line between Pugalur in Tamil Nadu and Thrissur in Kerala.
HVDC Transmission Market Segmentation Analysis
The scope of the report covers segmentation based on technology, configuration, voltage, application, and region. The global HVDC transmission market is segmented by technology into capacitor commutated converter (CCC), voltage source converter (VSC) and line commutated converter (LCC). The global HVDC transmission market is segmented by configuration into point-to-point, back-to-back, and multi-terminal. The global HVDC transmission market is segmented by voltage into 350 kV, 350-640 kV, 640-800 kV and 800 kV. The global HVDC transmission market is segmented by application into bulk power transmission, interconnection of grids, infeed urban areas, offshore grid and others. The global HVDC transmission market is segmented by region into North America, South America, Europe, Asia-Pacific, Middle East, and Africa.
1. Point-to-Point: Point-to-point is the most common configuration in most HVDC transmission systems. The point-to-point configuration consists of two converter stations at each end and an HVDC line between them. One station acts as a rectifier and the other station acts as an inverter. The role of the stations can be reversed by suitable converter control, which results in power reversal. In a point-to-point configuration, power is carried unidirectionally in a controlled manner from a generating station to a converter station in an alternate grid.
2. Back-to-Back: A back-to-back configuration is an HVDC system for electrical transmission with both ends of the system terminating in the same switchyard. In a back-to-back configuration system, power from the neighboring system is first converted in DC with a rectifier system and summed up. After summing, the resulted power is again converted into AC with a power inverter and supplied to the grids.
3. Multi Terminal: A multi-terminal HVDC system (MTDC) is a system with two or more converter stations and DC terminal lines. The converter stations in the system act as either rectifiers or inverters. Despite differences in configuration, the total power taken from the rectifier station is always equal to the power supplied by the inverter station.
HVDC Transmission Market Geographical Share
According to the DataM Intelligence market research report, the global HVDC transmission market is divided into North America, South America, Europe, Asia-Pacific, Middle East and Africa.
Despite adequate generation capacity, North America still struggles with power outages and rolling blackouts during peak energy demand hours. However, given the major structural challenges along with an ongoing transition to renewable energy, governments of the region have started making major investments in the development of new electric grid infrastructure. One of the major programs has been the adoption of HVDC transmission lines for maximum efficiency and reliability. Due to the increasing upgradation of the electricity infrastructure, the North American HVDC transmission market will likely witness sustained growth in the coming years.
Europe is currently integrating and unifying its electricity grid to ensure the easy trade of electricity across various national borders. Many European countries are utilizing HVDC transmission technology to achieve the interconnectivity of various grids. Given the ongoing shift to renewable energy along with the unification and integration of the European electricity grid, the European HVDC transmission market is expected to have steady growth over the coming years.
Asia-Pacific is a rapidly industrializing region that is experiencing high economic growth. It has led to a high concentration of manufacturing industries across various sectors such as manufacturing, chemicals, automotive, aerospace and electronics. Due to increasing economic development and industrialization, the HVDC transmission market in Asia-Pacific is likely to increase significantly in the coming years.
HVDC Transmission Market Companies and Competitive Landscape
The global HVDC transmission market is consolidated and highly competitive, with top players accounting for a significant share of the market. All the respective manufacturers sell highly developed and specialized HVDC transmission systems and parts and a wide range of products, such as transformers, capacitors and cables and provide full turnkey development to preserve market competition.
Major Companies:
Some key companies contributing to the global HVDC transmission market growth include Siemens AG, ABB, General Electric Co., Hitachi Ltd, Mitsubishi Electric Corporation, NKT A/S, Nexans S.A., NR Electric Co., Ltd., and Toshiba Corporation, among others.

상세 목차

1. Methodology and Scope
1.1. Research Methodology
1.2. Research Objective and Scope of the Report
2. Market Definition and Overview
3. Executive Summary
3.1. Market Snippet by Technology
3.2. Market Snippet by Configuration
3.3. Market Snippet by Voltage
3.4. Market Snippet by Application
3.5. Market Snippet by Region
4. Market Dynamics
4.1. Market Impacting Factors
4.1.1. Drivers
4.1.1.1. Increasing global energy consumption
4.1.2. Restraints
4.1.2.1. High cost of installation and maintenance
4.1.3. Opportunity
4.1.4. Impact Analysis
5. Industry Analysis
5.1. Porter's Five Forces Analysis
5.2. Supply Chain Analysis
5.3. Pricing Analysis
5.4. Regulatory Analysis
6. COVID-19 Analysis
6.1. Analysis of COVID-19 on the Market
6.1.1. Before COVID-19 Market Scenario
6.1.2. Present COVID-19 Market Scenario
6.1.3. After COVID-19 or Future Scenario
6.2. Pricing Dynamics Amid COVID-19
6.3. Demand-Supply Spectrum
6.4. Government Initiatives Related to the Market During Pandemic
6.5. Manufacturers Strategic Initiatives
6.6. Conclusion
7. By Technology
7.1. Introduction
7.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Technology
7.1.2. Market Attractiveness Index, By Technology
7.2. Capacitor Commutated Converter (CCC)
7.2.1. Introduction
7.2.2. Market Size Analysis and Y-o-Y Growth Analysis (%)
7.3. Voltage Source Converter (VSC)
7.4. Line Commutated Converter (LCC)
8. By Configuration
8.1. Introduction
8.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Configuration
8.1.2. Market Attractiveness Index, By Configuration
8.2. Point-to-Point
8.2.1. Introduction
8.2.2. Market Size Analysis and Y-o-Y Growth Analysis (%)
8.3. Back-to-Back
8.4. Multi-terminal
9. By Voltage
9.1. Introduction
9.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Voltage
9.1.2. Market Attractiveness Index, By Voltage
9.2. 350 kV
9.2.1. Introduction
9.2.2. Market Size Analysis and Y-o-Y Growth Analysis (%)
9.3. 350-640 kV
9.4. 640-800 kV
9.5. 800 kV
10. By Application
10.1. Introduction
10.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
10.1.2. Market Attractiveness Index, By Application
10.2. Bulk Power Transmission
10.2.1. Market Size Analysis and Y-o-Y Growth Analysis (%)
10.3. Interconnection of Grids
10.4. Infeed Urban Areas
10.5. Offshore Grid
10.6. Others
11. By Region
11.1. Introduction
11.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Region
11.1.1.1. Market Attractiveness Index, By Region
11.1.1.2. North America
11.1.1.2.1. Introduction
11.1.1.2.2. Key Region-Specific Dynamics
11.1.1.2.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Technology
11.1.1.2.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Configuration
11.1.1.2.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Voltage
11.1.1.2.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
11.1.1.2.7. Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
11.1.1.2.7.1. U.S.
11.1.1.2.7.2. Canada
11.1.1.2.7.3. Mexico
11.1.1.3. Europe
11.1.1.3.1. Introduction
11.1.1.3.2. Key Region-Specific Dynamics
11.1.1.3.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Technology
11.1.1.3.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Configuration
11.1.1.3.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Voltage
11.1.1.3.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
11.1.1.3.7. Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
11.1.1.3.7.1. Germany
11.1.1.3.7.2. UK
11.1.1.3.7.3. France
11.1.1.3.7.4. Italy
11.1.1.3.7.5. Spain
11.1.1.3.7.6. Rest of Europe
11.1.1.4. South America
11.1.1.4.1. Introduction
11.1.1.4.2. Key Region-Specific Dynamics
11.1.1.4.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Technology
11.1.1.4.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Configuration
11.1.1.4.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Voltage
11.1.1.4.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
11.1.1.4.7. Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
11.1.1.4.7.1. Brazil
11.1.1.4.7.2. Argentina
11.1.1.4.7.3. Rest of South America
11.1.1.5. Asia-Pacific
11.1.1.5.1. Introduction
11.1.1.5.2. Key Region-Specific Dynamics
11.1.1.5.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Technology
11.1.1.5.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Configuration
11.1.1.5.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Voltage
11.1.1.5.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
11.1.1.5.7. Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
11.1.1.5.7.1. China
11.1.1.5.7.2. India
11.1.1.5.7.3. Japan
11.1.1.5.7.4. South Korea
11.1.1.5.7.5. Rest of Asia-Pacific
11.1.1.6. Middle East and Africa
11.1.1.6.1. Introduction
11.1.1.6.2. Key Region-Specific Dynamics
11.1.1.6.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Technology
11.1.1.6.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Configuration
11.1.1.6.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Voltage
11.1.1.6.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
12. Competitive Landscape
12.1. Competitive Scenario
12.2. Market Positioning/Share Analysis
12.3. Mergers and Acquisitions Analysis
13. Company Profiles
13.1. Siemens
13.1.1. Company Overview
13.1.2. Product Portfolio and Description
13.1.3. Key Highlights
13.1.4. Financial Overview
13.2. ABB
13.3. General Electric
13.4. Hitachi Energy Ltd.
13.5. Mitsubishi Electric Corporation
13.6. Schneider Electric
13.7. NKT A/S
13.8. Nexans
13.9. NR Electric Co., Ltd.
13.10. Toshiba Energy Systems & Solutions Corporation (*LIST NOT EXHAUSTIVE)
14. DataM Intelligence
14.1. Appendix
14.2. About Us and Services
14.3. Contact Us

언급된 주요 기업들

Siemens, ABB, General Electric, Hitachi Energy Ltd., Mitsubishi Electric Corporation, Schneider Electric, NKT A/S, Nexans, NR Electric Co., Ltd.

표 목록 (Tables)

List of Tables

Table 1 Global HVDC Transmission Market Value, By Technology, 2022, 2026 & 2030 (US$ Million)

Table 2 Global HVDC Transmission Market Value, By Technology, 2021-2030 (US$ Million)

Table 3 Global HVDC Transmission Market Value, By Configuration, 2022, 2026 & 2030 (US$ Million)

Table 4 Global HVDC Transmission Market Value, By Configuration, 2021-2030 (US$ Million)

Table 5 Global HVDC Transmission Market Value, By Voltage, 2022, 2026 & 2030 (US$ Million)

Table 6 Global HVDC Transmission Market Value, By Voltage, 2021-2030 (US$ Million)

Table 7 Global HVDC Transmission Market Value, By Application, 2022, 2026 & 2030 (US$ Million)

Table 8 Global HVDC Transmission Market Value, By Application, 2021-2030 (US$ Million)

Table 9 Global HVDC Transmission Market Value, By Region, 2022, 2026 & 2030 (US$ Million)

Table 10 Global HVDC Transmission Market Value, By Region, 2021-2030 (US$ Million)

Table 11 North America HVDC Transmission Market Value, By Technology, 2021-2030 (US$ Million)

Table 12 North America HVDC Transmission Market Value, By Configuration, 2021-2030 (US$ Million)

Table 13 North America HVDC Transmission Market Value, By Voltage, 2021-2030 (US$ Million)

Table 14 North America HVDC Transmission Market Value, By Application, 2021-2030 (US$ Million)

Table 15 North America HVDC Transmission Market Value, By Region, 2021-2030 (US$ Million)

Table 16 South America HVDC Transmission Market Value, By Technology, 2021-2030 (US$ Million)

Table 17 South America HVDC Transmission Market Value, By Configuration, 2021-2030 (US$ Million)

Table 18 South America HVDC Transmission Market Value, By Voltage, 2021-2030 (US$ Million)

Table 19 South America HVDC Transmission Market Value, By Application, 2021-2030 (US$ Million)

Table 20 South America HVDC Transmission Market Value, By Region, 2021-2030 (US$ Million)

Table 21 Europe HVDC Transmission Market Value, By Technology, 2021-2030 (US$ Million)

Table 22 Europe HVDC Transmission Market Value, By Configuration, 2021-2030 (US$ Million)

Table 23 Europe HVDC Transmission Market Value, By Voltage, 2021-2030 (US$ Million)

Table 24 Europe HVDC Transmission Market Value, By Application, 2021-2030 (US$ Million)

Table 25 Europe HVDC Transmission Market Value, By Region, 2021-2030 (US$ Million)

Table 26 Asia-Pacific HVDC Transmission Market Value, By Technology, 2021-2030 (US$ Million)

Table 27 Asia-Pacific HVDC Transmission Market Value, By Configuration, 2021-2030 (US$ Million)

Table 28 Asia-Pacific HVDC Transmission Market Value, By Voltage, 2021-2030 (US$ Million)

Table 29 Asia-Pacific HVDC Transmission Market Value, By Application, 2021-2030 (US$ Million)

Table 30 Asia-Pacific HVDC Transmission Market Value, By Region, 2021-2030 (US$ Million)

Table 31 Middle East & Africa HVDC Transmission Market Value, By Technology, 2021-2030 (US$ Million)

Table 32 Middle East & Africa HVDC Transmission Market Value, By Configuration, 2021-2030 (US$ Million)

Table 33 Middle East & Africa HVDC Transmission Market Value, By Voltage, 2021-2030 (US$ Million)

Table 34 Middle East & Africa HVDC Transmission Market Value, By Application, 2021-2030 (US$ Million)

Table 35 Middle East & Africa HVDC Transmission Market Value, By Region, 2021-2030 (US$ Million)

Table 36 Siemens: Overview

Table 37 Siemens: Product Portfolio

Table 38 Siemens: Key Developments

Table 39 ABB: Overview

Table 40 ABB: Product Portfolio

Table 41 ABB: Key Developments

Table 42 General Electric: Overview

Table 43 General Electric: Product Portfolio

Table 44 General Electric: Key Developments

Table 45 Hitachi Energy Ltd.: Overview

Table 46 Hitachi Energy Ltd.: Product Portfolio

Table 47 Hitachi Energy Ltd.: Key Developments

Table 48 Mitsubishi Electric Corporation: Overview

Table 49 Mitsubishi Electric Corporation: Product Portfolio

Table 50 Mitsubishi Electric Corporation: Key Developments

Table 51 Schneider Electric: Overview

Table 52 Schneider Electric: Product Portfolio

Table 53 Schneider Electric: Key Developments

Table 54 NKT A/S: Overview

Table 55 NKT A/S: Product Portfolio

Table 56 NKT A/S: Key Developments

Table 57 Nexans: Overview

Table 58 Nexans: Product Portfolio

Table 59 Nexans: Key Developments

Table 60 NR Electric Co., Ltd.: Overview

Table 61 NR Electric Co., Ltd.: Product Portfolio

Table 62 NR Electric Co., Ltd.: Key Developments

Table 63 Toshiba Energy Systems & Solutions Corporation: Overview

Table 64 Toshiba Energy Systems & Solutions Corporation: Product Portfolio

Table 65 Toshiba Energy Systems & Solutions Corporation: Key Developments

그림 목록 (Figures)

List of Figures

Figure 1 Global HVDC Transmission Market Share, By Technology, 2022 & 2030 (%)

Figure 2 Global HVDC Transmission Market Share, By Configuration, 2022 & 2030 (%)

Figure 3 Global HVDC Transmission Market Share, By Voltage, 2022 & 2030 (%)

Figure 4 Global HVDC Transmission Market Share, By Application, 2022 & 2030 (%)

Figure 5 Global HVDC Transmission Market Share, By Region, 2022 & 2030 (%)

Figure 6 Global HVDC Transmission Market Y-o-Y Growth, By Technology, 2021-2030 (%)

Figure 7 Capacitor Commutated Converter (CCC): Global HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 8 Voltage Source Converter (VSC): Global HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 9 Line Commutated Converter (LCC): Global HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 10 Global HVDC Transmission Market Y-o-Y Growth, By Configuration, 2021-2030 (%)

Figure 11 Point-to-Point: Global HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 12 Back-to-Back: Global HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 13 Multi-terminal: Global HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 14 Global HVDC Transmission Market Y-o-Y Growth, By Voltage, 2021-2030 (%)

Figure 15 350 kV: Global HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 16 350-640 kV: Global HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 17 640-800 kV: Global HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 18 800 kV: Global HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 19 Global HVDC Transmission Market Y-o-Y Growth, By Application, 2021-2030 (%)

Figure 20 Bulk Power Transmission: Global HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 21 Interconnection of Grids: Global HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 22 Infeed Urban Areas: Global HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 23 Offshore Grid: Global HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 24 Others: Global HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 25 Global HVDC Transmission Market Y-o-Y Growth, By Region, 2021-2030 (%)

Figure 26 Asia-Pacific: Global HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 27 North America: Global HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 28 Europe: Global HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 29 South America: Global HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 30 Middle East & Africa: Global HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 31 North America HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 32 North America HVDC Transmission Market Share, By Technology, 2022 & 2030 (%)

Figure 33 North America HVDC Transmission Market Share, By Configuration, 2022 & 2030 (%)

Figure 34 North America HVDC Transmission Market Share, By Voltage, 2022 & 2030 (%)

Figure 35 North America HVDC Transmission Market Share, By Application, 2022 & 2030 (%)

Figure 36 North America HVDC Transmission Market Share, By Region, 2022 & 2030 (%)

Figure 37 South America HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 38 South America HVDC Transmission Market Share, By Technology, 2022 & 2030 (%)

Figure 39 South America HVDC Transmission Market Share, By Configuration, 2022 & 2030 (%)

Figure 40 South America HVDC Transmission Market Share, By Voltage, 2022 & 2030 (%)

Figure 41 South America HVDC Transmission Market Share, By Application, 2022 & 2030 (%)

Figure 42 South America HVDC Transmission Market Share, By Region, 2022 & 2030 (%)

Figure 43 Europe HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 44 Europe HVDC Transmission Market Share, By Technology, 2022 & 2030 (%)

Figure 45 Europe HVDC Transmission Market Share, By Configuration, 2022 & 2030 (%)

Figure 46 Europe HVDC Transmission Market Share, By Voltage, 2022 & 2030 (%)

Figure 47 Europe HVDC Transmission Market Share, By Application, 2022 & 2030 (%)

Figure 48 Europe HVDC Transmission Market Share, By Region, 2022 & 2030 (%)

Figure 49 Asia-Pacific HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 50 Asia-Pacific HVDC Transmission Market Share, By Technology, 2022 & 2030 (%)

Figure 51 Asia-Pacific HVDC Transmission Market Share, By Configuration, 2022 & 2030 (%)

Figure 52 Asia-Pacific HVDC Transmission Market Share, By Voltage, 2022 & 2030 (%)

Figure 53 Asia-Pacific HVDC Transmission Market Share, By Application, 2022 & 2030 (%)

Figure 54 Asia-Pacific HVDC Transmission Market Share, By Region, 2022 & 2030 (%)

Figure 55 Middle East & Africa HVDC Transmission Market Value, 2021-2030 (US$ Million)

Figure 56 Middle East & Africa HVDC Transmission Market Share, By Technology, 2022 & 2030 (%)

Figure 57 Middle East & Africa HVDC Transmission Market Share, By Configuration, 2022 & 2030 (%)

Figure 58 Middle East & Africa HVDC Transmission Market Share, By Voltage, 2022 & 2030 (%)

Figure 59 Middle East & Africa HVDC Transmission Market Share, By Application, 2022 & 2030 (%)

Figure 60 Middle East & Africa HVDC Transmission Market Share, By Region, 2022 & 2030 (%)

Figure 61 Siemens: Financials

Figure 62 ABB: Financials

Figure 63 General Electric: Financials

Figure 64 Hitachi Energy Ltd.: Financials

Figure 65 Mitsubishi Electric Corporation: Financials

Figure 66 Schneider Electric: Financials

Figure 67 NKT A/S: Financials

Figure 68 Nexans: Financials

Figure 69 NR Electric Co., Ltd.: Financials

Figure 70 Toshiba Energy Systems & Solutions Corporation: Financials

HVDC 시장 맞춤형 연구

HVDC Market- Custom Study