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市場調査レポート
商品コード
1484694
フレキシブル交流送電システム (FACTS) の世界市場:市場規模・シェア分析 - 動向、促進要因、競合情勢、予測 (2024~2030年)Flexible AC Transmission Systems Market Size & Share Analysis - Trends, Drivers, Competitive Landscape, and Forecasts (2024 - 2030) |
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フレキシブル交流送電システム (FACTS) の世界市場:市場規模・シェア分析 - 動向、促進要因、競合情勢、予測 (2024~2030年) |
出版日: 2024年04月23日
発行: Prescient & Strategic Intelligence
ページ情報: 英文 268 Pages
納期: 2~3営業日
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主なハイライト
フレキシブル交流送電システム (FACTS) 市場は、2023年に15億340万米ドルと評価され、2030年には23億8,930万米ドルに拡大し、6.8%以上のCAGRで成長します。
送電網の安定性が重視されるようになり、スマートグリッドの開発が業界を牽引しています。スマートグリッド技術は、分散型エネルギー資源と再生可能エネルギー資源を統合して電力網を改革し、温室効果ガス排出量の削減と運営費の削減を実現します。より効果的な配電と送電のためには、スマートグリッドとFACTSによる送電システムの技術向上が必要です。
この業界で見られる大きな動向は、各企業と電力企業との間の協定です。このような取り組みが増加していることは、再生可能エネルギー源の統合を促進し、電力網の全体的な有効性を高め、電力網の安定性を高めるために、ユーティリティ事業者と技術プロバイダーが一体となって取り組んでいることを示しています。この動向は、エネルギー部門の拡大に不可欠であり、より堅牢で持続可能な電力システムへの移行を支援しています。
市場インサイト
2023年にはアジア太平洋が50%以上の業界最大シェアを占め、最も速いCAGRで成長しています。特にオーストラリア・インド・中国では、再生可能エネルギーの利用が増加し、電化が推進されているため、送電網の効率と安定性を保証するため、エネルギー伝送と管理ソリューションの改善が求められています。
北米の成長は、送電インフラが強化され、災害やその他の緊急事態の際にも送電網が信頼できることが求められ、送配電システムの制御が重視されるようになったためです。
2023年には、シャント・カテゴリーが60%以上のシェアを占め、業界最大の貢献者となります。送電網・配電網でシャント補償を利用する主なメリットは、電力損失の減少と電圧降下の発生抑制です。
用途別では、電圧制御が2023年に業界の最大シェア (75%) を占め、最も速いCAGRで成長しています。技術的要件、よりクリーンなエネルギー源への取り組み、政府の後押しが電圧制御カテゴリの拡大を後押ししています。
2023年にはユーティリティが約55%のシェアで業界をリードし、最速のCAGRで成長しています。FACTS装置は、現在の送電線への圧力を緩和し、新しいネットワーク拡張を確立するために必要な投資費用を削減する、効率的かつ経済的なソリューションを提供します。
当レポートでは、世界のフレキシブル交流送電システム (FACTS) の市場について分析し、市場の基本構造・最新情勢や主な促進・抑制要因、世界全体および地域別・主要国の市場規模の動向見通し (数量・金額ベース、2017~2030年)、用途別・補償の種類別・エンドユーザー別の詳細動向、現在の市場競争の状況、主要企業のプロファイルなどを調査しております。
Key Highlights
The flexible AC transmission systems market was valued at USD 1,503.4 million in 2023, which will increase to USD 2,389.3 million, powering at more than 6.8% CAGR, by 2030.
The rising emphasis on grid stability as well as smart grid development drives the industry.
Smart grid technologies integrate distributed and renewable energy resources to reform the electric grid, thus decreasing greenhouse emissions and reducing operating expenses.
NYSERDA offered funding for smart grid opportunities for research and development, for integrating distributed energy resources, high-performing grids, and future grids.
Smart grids and improved technology in transmission systems with flexible AC transmission systems (FACTS) are required for more effective electricity distribution and transmission.
A major trend being observed in this industry is the agreements between the players and electric utilities.
There are many advantages of signing agreements with each other for both industry players and electric utilities.
The rising count of such initiatives shows the combined efforts between utility businesses and technology providers to increase the integration of renewable energy sources, enhance overall grid effectiveness, and boost grid stability.
This trend is essential for the expansion of the energy sector and assisting the move toward more robust and sustainable power systems.
Market Insights
APAC accounted for the largest share of the industry in 2023, of more than 50%, and the region is also growing at the fastest compound annual growth rate as well.
Swift technological improvements describe the APAC energy sector, which is mirrored in the improvements in the power transmission infrastructure.
APAC is also completely focused on electric vehicles and the incorporation of renewable energy.
The increasing utilization of renewable energy sources and the drive toward electrification in Australia, India, and China demand improved energy transmission and management solutions to guarantee grid efficiency and stability.
The growth in North America is because of the enhanced electricity transmission infrastructure, the requirement for the grid to be dependable during a disaster or any other emergency, and increasing emphasis on greater power T&D system control.
This necessitates Canada and the U.S. to significantly improve their grids with greater T&D equipment.
The shunt category was the largest contributor to the industry in 2023, with more than 60% share.
Decreased power losses and less occurrence of voltage drops are the major benefits of utilizing shunt compensation in power distribution and transmission networks.
Voltage control application accounted for the largest share of the industry in 2023, of 75%, and this category is also growing at the fastest CAGR.
Technological requirements, efforts for cleaner energy sources, and governing backing are aiding the expansion of the voltage control category.
Utilities led the industry in 2023, with approximately 55% share, and this category is also growing at the fastest rate.
FACTS applications in electric utilities comprise network stabilization, voltage control, transmission capacity improvements, power flow control, and power oscillation damping.
FACTS devices also offer an efficient and economical solution to ease the pressure on present transmission lines and reduce the investment expenses required for establishing new network extensions.
The flexible AC transmission systems industry is consolidated, and major players are investing in R&D to develop novel as well as greater products.
1.4.1 Volume
1.4.2 Value
1.5.1 Market Segmentation by Application
1.5.2 Market Segmentation by Compensation Type
1.5.3 Market Segmentation by End User
1.5.4 Market Segmentation by Region
2.1.1 Paid
2.1.2 Unpaid
2.1.3 P&S Intelligence Database
2.2.1 Breakdown of Primary Research, by Region
2.2.2 Breakdown of Primary Research, by Industry Participant
2.2.3 Breakdown of Primary Research, by Designation
2.2.5 Breakdown of Primary Research, by Company Type
5.1.1 Voltage Control
5.1.2 Power Control
5.2.1 Series
5.2.2 Shunt
5.2.3 Combined
5.3.1 Utilities
5.3.2 Industrial
5.3.3 Others
6.1.1 Trends
6.1.2 Drivers
6.1.3 Impact Analysis of Drivers on Market Forecast
6.1.4 Restraints
6.1.5 Impact Analysis of Restraints on Market Forecast
6.3.1 Forward Integration in Flexible Alternating Current Transmission System (FACTS)
6.3.2 Backward Integration in Flexible Alternating Current Transmission System (FACTS)
6.3.3 Benefits of Integration in FACTS:
6.3.4 Challenges of Integration in FACTS
6.4.1 Bargaining Power of Buyers
6.4.2 Bargaining Power of Suppliers
6.4.3 Intensity of Rivalry
6.4.4 Threat of New Entrants
6.4.5 Threat of Substitutes
7.3.1 Shunt Market Revenue, by Type (2017-2030)
7.3.2 Shunt Market Volume, by Type (2017-2030)
7.3.3 Series Market Revenue, by Type (2017-2030)
7.3.4 Series Market Volume, by Type (2017-2030)
7.3.5 Combined Market Revenue, by Type (2017-2030)
7.3.6 Combined Market Volume, by Type (2017-2030)
8.3.1 Shunt Market Revenue, by Type (2017-2030)
8.3.2 Shunt Market Volume, by Type (2017-2030)
8.3.3 Series Market Revenue, by Type (2017-2030)
8.3.4 Series Market Volume, by Type (2017-2030)
8.3.5 Combined Market Revenue, by Type (2017-2030)
8.3.6 Combined Market Volume, by Type (2017-2030)
9.3.1 Shunt Market Revenue, by Type (2017-2030)
9.3.2 Shunt Market Volume, by Type (2017-2030)
9.3.3 Series Market Revenue, by Type (2017-2030)
9.3.4 Series Market Volume, by Type (2017-2030)
9.3.5 Combined Market Revenue, by Type (2017-2030)
9.3.6 Combined Market Volume, by Type (2017-2030)
10.3.1 Shunt Market Revenue, by Type (2017-2030)
10.3.2 Shunt Market Volume, by Type (2017-2030)
10.3.3 Series Market Revenue, by Type (2017-2030)
10.3.4 Series Market Volume, by Type (2017-2030)
10.3.5 Combined Market Revenue, by Type (2017-2030)
10.3.6 Combined Market Volume, by Type (2017-2030)
11.3.1 Shunt Market Revenue, by Type (2017-2030)
11.3.2 Shunt Market Volume, by Type (2017-2030)
11.3.3 Series Market Revenue, by Type (2017-2030)
11.3.4 Series Market Volume, by Type (2017-2030)
11.3.5 Combined Market Revenue, by Type (2017-2030)
11.3.6 Combined Market Volume, by Type (2017-2030)
12.3.1 Shunt Market Revenue, by Type (2017-2030)
12.3.2 Shunt Market Volume, by Type (2017-2030)
12.3.3 Series Market Revenue, by Type (2017-2030)
12.3.4 Series Market Volume, by Type (2017-2030)
12.3.5 Combined Market Revenue, by Type (2017-2030)
12.3.6 Combined Market Volume, by Type (2017-2030)
13.3.1 Shunt Market Revenue, by Type (2017-2030)
13.3.2 Shunt Market Volume, by Type (2017-2030)
13.3.3 Series Market Revenue, by Type (2017-2030)
13.3.4 Series Market Volume, by Type (2017-2030)
13.3.5 Combined Market Revenue, by Type (2017-2030)
13.3.6 Combined Market Volume, by Type (2017-2030)
15.2.1 Client Wins
15.2.2 Other Developments
16.1.1 Business Overview
16.1.2 Product and Service Offerings
16.1.3 Key Financial Summary
16.2.1 Business overview
16.2.2 Product and service offerings
16.3.1 Business Overview
16.3.2 Product and Service Offerings
16.3.3 Key Financial Summary
16.4.1 Business Overview
16.4.2 Product and Service Offerings
16.4.3 Key Financial Summary
16.5.1 Business Overview
16.5.2 Product and Service Offerings
16.6.1 Business Overview
16.6.2 Product and Service Offerings
16.7.1 Business Overview
16.7.2 Product and Service Offerings
16.7.3 Key Financial Summary
16.8.1 Business Overview
16.8.2 Product and Service Offerings
16.9.1 Business Overview
16.9.2 Product and Service Offerings
16.10.1 Business Overview
16.10.2 Product and Service Offerings
16.11.1 Business Overview
16.11.2 Product and Service Offerings
16.12.1 Business Overview
16.12.2 Product and Service Offerings
16.12.3 Key Financial Summary
16.13.1 Business Overview
16.13.2 Product and Service Offerings
16.13.3 Key Financial Summary
16.14.1 Business Overview
16.14.2 Product and Service Offerings
16.14.3 Key Financial Summary
16.15.1 Business Overview
16.15.2 Product and Service Offerings
16.15.3 Key Financial Summary
16.16.1 Business Overview
16.16.2 Product and Service Offerings
16.16.3 Key Financial Summary
16.17.1 Business Overview
16.17.2 Product and Service Offerings
16.17.3 Key Financial Summary
16.18.1 Business Overview
16.18.2 Product and Service Offering
16.18.3 Key Financial Summary
16.19.1 Business Overview
16.19.2 Product and Service Offerings
16.19.3 Key Financial Summary
16.20.1 Business Overview
16.20.2 Product and Service Offerings
16.21.1 Business Overview
16.21.2 Product and Service Offerings