Europe Synchronous Condenser Market, By Cooling Technology (Hydrogen Cooled Synchronous Condenser, Air-Cooled Synchronous Condenser, and Water Cooled Synchronous Condenser), Starting Method (Static Frequency Convertor, Pony Motor, and Others), Reactive Power Rating (Above 200 MVAR, 101-200 MVAR, 61-100 MVAR, 31-60 MVAR, and 0-30 MVAR), End User (Electrical Utilities and Industrial Sectors), Type (New Synchronous Condenser and Refurbished Synchronous Condenser), Design (Salient Pole Design and Cylindrical Rotor Design), No. of Poles (4 to 8, Less Than 4, and More Than 8), Excitation System Type (Static Excitation and Brushless Excitation System) - Industry Trends and Forecast to 2030.
Europe Synchronous Condenser Market Analysis and Size
A synchronous condenser or compensator is a motor running without a fixed load. It can generate or consume reactive volt-ampere (VAr) by varying the excitation of its field winding. It can be arranged to take a maximum current with over-excitation of its field winding. The increasing demand for condensers is due to the introduction of solid-state compensation devices, such as the static VAR compensator (SVC) that provides reactive power. Increasing demand for clean energy sources and the rising need for integrated systems in power plants are the major factors driving the market. However, high prices associated with installation and maintenance services are restraining the market's growth. Upsurges in decommissioning aging conventional power generation sources and rising government initiatives to reduce air pollution are estimated to provide market growth opportunities. However, the involvement of sophisticated and time-consuming installation processes creates a challenging environment for market growth.
Data Bridge Market Research analyses that the Europe synchronous condenser market is expected to reach a value of USD 1,044,842.42 thousand by 2030, at a CAGR of 3.9% during the forecast period. The Europe synchronous condenser market report also comprehensively covers pricing analysis, patent analysis, and technological advancements.
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Report Metric |
Details |
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Forecast Period |
2023 to 2030 |
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Base Year |
2022 |
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Historic Years |
2021 (Customisable 2015-2020) |
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Quantitative Units |
Revenue in USD Thousand |
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Segments Covered |
Cooling Technology (Hydrogen Cooled Synchronous Condenser, Air-Cooled Synchronous Condenser, and Water Cooled Synchronous Condenser), Starting Method (Static Frequency Convertor, Pony Motor, and Others), Reactive Power Rating (Above 200 MVAR, 101-200 MVAR, 61-100 MVAR, 31-60 MVAR, and 0-30 MVAR), End User (Electrical Utilities and Industrial Sectors), Type (New Synchronous Condenser and Refurbished Synchronous Condenser), Design (Salient Pole Design and Cylindrical Rotor Design), No. of Poles (4 to 8, Less Than 4, and More Than 8), Excitation System Type (Static Excitation and Brushless Excitation System) |
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Countries Covered |
Germany, France, U.K., Spain, Russia, Italy, Turkey, Netherlands, Belgium, Finland, Norway, Switzerland, and Rest of Europe |
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Market Players Covered |
General Electric, ABB, Siemens, Eaton, WEG, Ansaldo Energia, Shanghai Electric Power Generation Equipment Co., Ltd. (A subsidiary of Shanghai Electric), Ingeteam, Hitachi Energy Ltd, Voith GmbH & Co. KGaA, Mitsubishi Electric Power Products, Inc., Baker Hughes Company, Power Systems & Controls, Inc., IDEAL ELECTRIC POWER CO., Doosan Škoda Power, and ANDRITZ among others |
Market Definition
A synchronous condenser is treated as a DC-excited synchronous motor that adjusts temperature and power according to electric power transmission and smart grid. Synchronous compensators, also called synchronous condensers, are designed to control the voltage level in a network area. They can produce or consume reactive power depending on the value of the excitation current. Synchronous condensers are an alternative to capacitor banks for power-factor correction in power grids.
One main advantage of the synchronous condenser is the amount of reactive power that can be continuously adjusted. The synchronous condenser is developed with advanced techniques to improve the power factor in a static capacitor bank. Synchronous condensers have traditionally been used at distribution and transmission voltage levels to improve stability and maintain voltages within desired limits under changing load conditions and contingency situations. The synchronous condenser consists of a stator and rotor with solid integral pole tips, a cooling system (hydrogen, air, or water), an excitation system, a lubrication oil supply, and a step-up transformer and auxiliary transformer.
A synchronous condenser is a long-standing well-known technology that provides advantages. High system inertia is an inherent feature of a synchronous condenser as it is a rotating machine. The benefit of inertia is improved voltage stiffness, improving the system's overall behavior. Increased short-term overload capability can provide more than two times its rating up to a few seconds, which enhances system support during emergencies or contingencies or even under extreme low voltage contingencies. It remains connected and provides smooth, reliable operation and real short-circuit strength to the grid, improving system stability with weak interconnections and enhancing system protection.
Europe Synchronous Condenser Market Dynamics
This section deals with understanding the market drivers, advantages, opportunities, restraints, and challenges. All of this is discussed in detail below:
Drivers
- Increasing Demand for Clean Energy Sources
Clean energy is referred to the energy gained from sources without the release of air pollutants. Renewable energy is power generated from sources that are constantly being replenished. Unlike fossil fuels and gas, these renewable energy resources won't run out and include wind and solar energy. However, most green energy sources are renewable. Thus, perfect green clean energy can be called renewable energy sources.
- Growing Need for Integrated Systems In Power Plants
Energy Systems Integration (ESI) coordinates the operation and planning of energy systems to deliver reliable, cost-effective energy services with minimal environmental impact. Such systems involve interaction between energy factors such as electricity, thermal, fuels, water, and transmitters. Thus, ESI is a multidisciplinary area ranging from science, engineering, and technology.
Opportunity
- Rising Government Initiatives To Reduce Air Pollution
Energy consumption has been increasing across the globe due to the rise in electricity demand. Energy production through fossil fuels is responsible for more than one-third of the world's greenhouse gas emissions, which cause pollution and climate change.
Restraints/Challenges
- Higher Prices Associated With Capital and Maintenance
A synchronous condenser is a conventional solution used for decades for regulating power. This type of device comprises AC synchronous motor which can provide continuous reactive power control when used with a suitable automatic exciter. This has led to an upsurge in the usage of such electrical devices over the years.
- Higher Price Volatility of Raw Materials
The synchronous condensers are associated with various components and systems, such as rotors, stators, and cooling systems. These systems are manufactured with aluminum, copper, and stainless steel. Moreover, this system's construction or integration is sophisticated but useful for the power distribution system and high-power transistor modules.
Recent Developments
- In April 2023, Eaton announced the acquisition of a 9% stake in Jiangsu Ryan Electrical Co. Ltd., which manufactures power distribution and sub-transmission transformers in China. This acquisition will help the company to concentrate on electrical products and services. Moreover, it accelerates the company's global distribution, especially in Asia-Pacific.
- In January 2022, Siemens announced signing an agreement with Elering to construct three synchronous condensers at 330 kV junction stations in Estonia by 2024. This agreement helped the company to gain a business of USD 83.5 million and market recognition for synchronous condensers and enhances the business in Germany.
Europe Synchronous Condenser Market Scope
The Europe synchronous condenser market is segmented into eight notable segments based on cooling technology, starting method, reactive power rating, end-user, type, design, no. of poles, and excitation system type. The growth amongst these segments will help you analyze meager growth segments in the industries and provide the users with a valuable market overview and insights to help them make strategic decisions for identifying core market applications.
Cooling Technology
- Hydrogen Cooled Synchronous Condenser
- Air-Cooled Synchronous Condenser
- Water Cooled Synchronous Condenser
On the basis of cooling technology, the Europe synchronous condenser market is segmented into hydrogen-cooled synchronous condenser, air-cooled synchronous condenser, and water cooled synchronous condenser.
Starting Method
- Static Frequency Convertor
- Pony Motor
- Others
On the basis of starting method, the Europe synchronous condenser market is segmented into static frequency convertor, pony motor, and others.
Reactive Power Rating
- Above 200 MVAR
- 101-200 MVAR
- 61-100 MVAR
- 31-60 MVAR
- 0-30 MVAR
On the basis of reactive power rating, the Europe synchronous condenser market is segmented into above 200 MVAR, 101-200 MVAR, 61-100 MVAR, 31-60 MVAR, and 0-30 MVAR.
End User
- Electrical Utilities
- Industrial Sectors
On the basis of end-user, the Europe synchronous condenser market is segmented into electrical utilities and industrial sector.
Type
- New Synchronous Condenser
- Refurbished Synchronous Condenser
On the basis of type, the Europe synchronous condenser market is segmented into new synchronous condenser and refurbished synchronous condenser.
No. of Poles
- 4 To 8
- Less Than 4
- More Than 8
On the basis of no. of poles, the Europe synchronous condenser market is segmented into 4 to 8, less than 4, and more than 8.
Design
- Salient Pole Design
- Cylindrical Rotor Design
On the basis of design, the Europe synchronous condenser market is segmented into salient pole design and cylindrical rotor design.
Excitation System Type
- Static Excitation
- Brushless Excitation System
On the basis of excitation system type, the Europe synchronous condenser market is segmented into static excitation and brushless excitation system.
Europe Synchronous Condenser Market Regional Analysis/Insights
Europe synchronous condenser market is analyzed, and market size insights and trends are provided by region, cooling technology, starting method, reactive power rating, end-user, type, design, no. of poles, and excitation system type, as referenced above.
The countries covered in the Europe synchronous condenser market report are Germany, France, the U.K., Spain, Russia, Italy, Turkey, Netherlands, Belgium, Finland, Norway, Switzerland, and Rest of Europe.
Germany is expected to dominate Europe, transitioning more towards renewable energy-based grids.
The region section of the report also provides individual market-impacting factors and market regulation changes that impact the market's current and future trends. Data points like downstream and upstream value chain analysis, technical trends, Porter's five forces analysis, and case studies are some pointers used to forecast the market scenario for individual countries. Also, the presence and availability of regional brands and their challenges faced due to large or scarce competition from local and domestic brands, the impact of domestic tariffs, and trade routes are considered while providing forecast analysis of the region data.
Competitive Landscape and Europe Synchronous Condenser Market Share Analysis
Europe synchronous condenser market competitive landscape provides details of the competitor. Details included are company overview, company financials, revenue generated, market potential, investment in research and development, new market initiatives, regional presence, production sites and facilities, production capacities, company strengths and weaknesses, product launch, product width and breadth, and application dominance. The above data points are only related to the companies focusing on the market.
Some of the major players operating in the Europe synchronous condenser market are General Electric, ABB, Siemens, Eaton, WEG, Ansaldo Energia, Shanghai Electric Power Generation Equipment Co., Ltd. (A subsidiary of Shanghai Electric), Ingeteam, Hitachi Energy Ltd, Voith GmbH & Co. KGaA, Mitsubishi Electric Power Products, Inc., Baker Hughes Company, Power Systems & Controls, Inc., IDEAL ELECTRIC POWER CO., Doosan Škoda Power, and ANDRITZ among others.
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Table of Content
1 INTRODUCTION
1.1 OBJECTIVES OF THE STUDY
1.2 MARKET DEFINITION
1.3 OVERVIEW OF THE EUROPE SYNCHRONOUS CONDENSER MARKET
1.4 CURRENCY AND PRICING
1.5 LIMITATIONS
1.6 MARKETS COVERED
2 MARKET SEGMENTATION
2.1 MARKETS COVERED
2.2 YEARS CONSIDERED FOR THE STUDY
2.3 GEOGRAPHIC SCOPE
2.4 DBMR TRIPOD DATA VALIDATION MODEL
2.5 PRIMARY INTERVIEWS WITH KEY OPINION LEADERS
2.6 DBMR MARKET POSITION GRID
2.7 VENDOR SHARE ANALYSIS
2.8 MULTIVARIATE MODELLING
2.9 COOLING TECHNOLOGY CURVE
2.1 MARKET END-USER COVERAGE GRID
2.11 SECONDARY SOURCES
2.12 ASSUMPTIONS
3 EXECUTIVE SUMMARY
4 PREMIUM INSIGHTS
4.1 FLYWHEEL ROLE IN SYNCHRONOUS CONDENSER SYSTEMS
5 REGIONAL REASONING
5.1 EUROPE
6 MARKET OVERVIEW
6.1 DRIVERS
6.1.1 INCREASING DEMAND FOR CLEAN ENERGY SOURCES
6.1.2 GROWING NEED FOR INTEGRATED SYSTEMS IN POWER PLANTS
6.1.3 RISING DEMAND FOR SAFE AND SECURE ELECTRICAL GRID SYSTEMS
6.1.4 EXPANSION OF HVDC NETWORK ACROSS THE WORLD
6.2 RESTRAINTS
6.2.1 HIGHER PRICES ASSOCIATED WITH CAPITAL AND MAINTENANCE
6.2.2 STRINGENT STANDARDS RELATED TO SYNCHRONOUS CONDENSER
6.2.3 HIGHER PRICE VOLATILITY OF RAW MATERIALS
6.3 OPPORTUNITIES
6.3.1 RISING GOVERNMENT INITIATIVES TO REDUCE AIR POLLUTION
6.3.2 UPSURGE IN DECOMMISSIONING OF AGING AND CONVENTIONAL POWER GENERATION SOURCES
6.3.3 INCREASE IN INVESTMENTS IN R&D TO DEVELOP EFFICIENT SYNCHRONOUS CONDENSER
6.4 CHALLENGES
6.4.1 AVAILABILITY OF LOW-COST SUBSTITUTES
6.4.2 INVOLVEMENT IN SOPHISTICATED AND TIME-CONSUMING INSTALLATION PROCESS
7 EUROPE SYNCHRONOUS CONDENSER MARKET, BY COOLING TECHNOLOGY
7.1 OVERVIEW
7.2 HYDROGEN COOLED SYNCHRONOUS CONDENSER
7.3 AIR-COOLED SYNCHRONOUS CONDENSER
7.4 WATER COOLED SYNCHRONOUS CONDENSER
8 EUROPE SYNCHRONOUS CONDENSER MARKET, BY STARTING METHOD
8.1 OVERVIEW
8.2 STATIC FREQUENCY CONVERTOR
8.3 PONY MOTOR
8.4 OTHERS
9 EUROPE SYNCHRONOUS CONDENSER MARKET, BY REACTIVE POWER RATING
9.1 OVERVIEW
9.2 ABOVE 200 MVAR
9.3 101-200 MVAR
9.4 61-100 MVAR
9.5 31-60 MVAR
9.6 0-30 MVAR
10 EUROPE SYNCHRONOUS CONDENSER MARKET, BY END USER
10.1 OVERVIEW
10.2 ELECTRICAL UTILITIES
10.3 INDUSTRIAL SECTORS
11 EUROPE SYNCHRONOUS CONDENSER MARKET, BY TYPE
11.1 OVERVIEW
11.2 NEW SYNCHRONOUS CONDENSER
11.3 REFURBISHED SYNCHRONOUS CONDENSER
12 EUROPE SYNCHRONOUS CONDENSER MARKET, BY DESIGN
12.1 OVERVIEW
12.2 SALIENT POLE DESIGN
12.3 CYLINDRICAL ROTOR DESIGN
13 EUROPE SYNCHRONOUS CONDENSER MARKET, BY NO. OF POLES
13.1 OVERVIEW
13.2 4 TO 8
13.3 LESS THAN 4
13.4 MORE THAN 8
14 EUROPE SYNCHRONOUS CONDENSER MARKET, BY EXCITATION SYSTEM TYPE
14.1 OVERVIEW
14.2 STATIC EXCITATION
14.3 BRUSHLESS EXCITATION SYSTEM
15 EUROPE SYNCHRONOUS CONDENSER MARKET, BY REGION
15.1 EUROPE
15.1.1 GERMANY
15.1.2 FRANCE
15.1.3 U.K.
15.1.4 ITALY
15.1.5 SPAIN
15.1.6 RUSSIA
15.1.7 TURKEY
15.1.8 NETHERLANDS
15.1.9 BELGIUM
15.1.10 FINLAND
15.1.11 NORWAY
15.1.12 SWITZERLAND
15.1.13 REST OF EUROPE
16 EUROPE SYNCHRONOUS CONDENSER MARKET, COMPANY LANDSCAPE
16.1 COMPANY SHARE ANALYSIS: EUROPE
17 SWOT ANALYSIS
18 COMPANY PROFILE
18.1 GENERAL ELECTRIC
18.1.1 COMPANY SNAPSHOT
18.1.2 REVENUE ANALYSIS
18.1.3 COMPANY SHARE ANALYSIS
18.1.4 PRODUCT PORTFOLIO
18.1.5 RECENT DEVELOPMENTS
18.2 ABB
18.2.1 COMPANY SNAPSHOT
18.2.2 REVENUE ANALYSIS
18.2.3 COMPANY SHARE ANALYSIS
18.2.4 PRODUCT PORTFOLIO
18.2.5 RECENT DEVELOPMENTS
18.3 EATON
18.3.1 COMPANY SNAPSHOT
18.3.2 REVENUE ANALYSIS
18.3.3 COMPANY SHARE ANALYSIS
18.3.4 SERVICE PORTFOLIO
18.3.5 RECENT DEVELOPMENTS
18.4 VOITH GMBH & CO. KGAA
18.4.1 COMPANY SNAPSHOT
18.4.2 COMPANY SHARE ANALYSIS
18.4.3 PRODUCT PORTFOLIO
18.4.4 RECENT DEVELOPMENTS
18.5 BAKER HUGHES COMPANY
18.5.1 COMPANY SNAPSHOT
18.5.2 REVENUE ANALYSIS
18.5.3 COMPANY SHARE ANALYSIS
18.5.4 PRODUCT & SERVICES PORTFOLIO
18.5.5 RECENT DEVELOPMENTS
18.6 ANDRITZ
18.6.1 COMPANY SNAPSHOT
18.6.2 REVENUE ANALYSIS
18.6.3 COMPANY SHARE ANALYSIS
18.6.4 PRODUCT PORTFOLIO
18.6.5 RECENT DEVELOPMENTS
18.7 ANSALDO ENERGIA
18.7.1 COMPANY SNAPSHOT
18.7.2 REVENUE ANALYSIS
18.7.3 PRODUCT PORTFOLIO
18.7.4 RECENT DEVELOPMENTS
18.8 DOOSAN ŠKODA POWER
18.8.1 COMPANY SNAPSHOT
18.8.2 PRODUCT PORTFOLIO
18.8.3 RECENT DEVELOPMENTS
18.9 HITACHI ENERGY LTD
18.9.1 COMPANY SNAPSHOT
18.9.2 REVENUE ANALYSIS
18.9.3 PRODUCT PORTFOLIO
18.9.4 RECENT DEVELOPMENTS
18.1 IDEAL ELECTRIC POWER CO.
18.10.1 COMPANY SNAPSHOT
18.10.2 PRODUCT PORTFOLIO
18.10.3 RECENT DEVELOPMENT
18.11 INGETEAM
18.11.1 COMPANY SNAPSHOT
18.11.2 PRODUCT PORTFOLIO
18.11.3 RECENT DEVELOPMENTS
18.12 MITSUBISHI ELECTRIC POWER PRODUCTS, INC.
18.12.1 COMPANY SNAPSHOT
18.12.2 REVENUE ANALYSIS
18.12.3 SOLUTION PORTFOLIO
18.12.4 RECENT DEVELOPMENTS
18.13 POWER SYSTEMS & CONTROLS, INC.
18.13.1 COMPANY SNAPSHOT
18.13.2 PRODUCT PORTFOLIO
18.13.3 RECENT DEVELOPMENT
18.14 SHANGHAI ELECTRIC POWER GENERATION EQUIPMENT CO.,LTD. (A SUBSIDIARY OF SHANGHAI ELECTRIC)
18.14.1 COMPANY SNAPSHOT
18.14.2 REVENUE ANALYSIS
18.14.3 PRODUCT PORTFOLIO
18.14.4 RECENT DEVELOPMENTS
18.15 SIEMENS
18.15.1 COMPANY SNAPSHOT
18.15.2 REVENUE ANALYSIS
18.15.3 PRODUCT PORTFOLIO
18.15.4 RECENT DEVELOPMENTS
18.16 WEG
18.16.1 COMPANY SNAPSHOT
18.16.2 REVENUE ANALYSIS
18.16.3 PRODUCT PORTFOLIO
18.16.4 RECENT DEVELOPMENTS
19 QUESTIONNAIRE
20 RELATED REPORTS
List of Table
TABLE 1 UNINTERRUPTED OPERATION REQUIREMENTS FOR VOLTAGE DISTURBANCES
TABLE 2 COMPARISON BETWEEN SYNCHRONOUS CONDENSER, SVC, AND SATCOM
TABLE 3 EUROPE SYNCHRONOUS CONDENSER MARKET, BY COOLING TECHNOLOGY, 2021-2030 (USD THOUSAND)
TABLE 4 EUROPE HYDROGEN COOLED SYNCHRONOUS CONDENSER IN SYNCHRONOUS CONDENSER MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 5 EUROPE AIR-COOLED SYNCHRONOUS CONDENSER IN SYNCHRONOUS CONDENSER MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 6 EUROPE WATER COOLED SYNCHRONOUS CONDENSER IN SYNCHRONOUS CONDENSER MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 7 EUROPE SYNCHRONOUS CONDENSER MARKET, BY STARTING METHOD, 2021-2030 (USD THOUSAND)
TABLE 8 EUROPE STATIC FREQUENCY CONVERTOR IN SYNCHRONOUS CONDENSER MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 9 EUROPE PONY MOTOR IN SYNCHRONOUS CONDENSER MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 10 EUROPE OTHERS IN SYNCHRONOUS CONDENSER MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 11 EUROPE SYNCHRONOUS CONDENSER MARKET, BY REACTIVE POWER RATING, 2021-2030 (USD THOUSAND)
TABLE 12 EUROPE ABOVE 200 MVAR IN SYNCHRONOUS CONDENSER MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 13 EUROPE 101-200 MVAR IN SYNCHRONOUS CONDENSER MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 14 EUROPE 61-100 MVAR IN SYNCHRONOUS CONDENSER MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 15 EUROPE 31-60 MVAR IN SYNCHRONOUS CONDENSER MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 16 EUROPE 0-30 MVAR IN SYNCHRONOUS CONDENSER MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 17 EUROPE SYNCHRONOUS CONDENSER MARKET, BY END USER, 2021-2030 (USD THOUSAND)
TABLE 18 EUROPE ELECTRICAL UTILITIES IN SYNCHRONOUS CONDENSER MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 19 EUROPE INDUSTRIAL SECTORS IN SYNCHRONOUS CONDENSER MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 20 EUROPE SYNCHRONOUS CONDENSER MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 21 EUROPE NEW SYNCHRONOUS CONDENSER IN SYNCHRONOUS CONDENSER MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 22 EUROPE REFURBISHED SYNCHRONOUS CONDENSER IN SYNCHRONOUS CONDENSER MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 23 EUROPE SYNCHRONOUS CONDENSER MARKET, BY DESIGN, 2021-2030 (USD THOUSAND)
TABLE 24 EUROPE SALIENT POLE DESIGN IN SYNCHRONOUS CONDENSER MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 25 EUROPE CYLINDRICAL ROTOR DESIGN IN SYNCHRONOUS CONDENSER MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 26 EUROPE SYNCHRONOUS CONDENSER MARKET, BY NO. OF POLES, 2021-2030 (USD THOUSAND)
TABLE 27 EUROPE 4 TO 8 IN SYNCHRONOUS CONDENSER MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 28 EUROPE LESS THAN 4 IN SYNCHRONOUS CONDENSER MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 29 EUROPE MORE THAN 8 IN SYNCHRONOUS CONDENSER MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 30 EUROPE SYNCHRONOUS CONDENSER MARKET, BY EXCITATION SYSTEM TYPE, 2021-2030 (USD THOUSAND)
TABLE 31 EUROPE STATIC EXCITATION IN SYNCHRONOUS CONDENSER MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 32 BRUSHLESS EXCITATION SYSTEM IN SYNCHRONOUS CONDENSER MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 33 EUROPE SYNCHRONOUS CONDENSER MARKET, BY COUNTRY, 2021-2030 (USD THOUSAND)
TABLE 34 EUROPE SYNCHRONOUS CONDENSER MARKET, BY COOLING TECHNOLOGY, 2021-2030 (USD THOUSAND)
TABLE 35 EUROPE SYNCHRONOUS CONDENSER MARKET, BY STARTING METHOD, 2021-2030 (USD THOUSAND)
TABLE 36 EUROPE SYNCHRONOUS CONDENSER MARKET, BY REACTIVE POWER RATING, 2021-2030 (USD THOUSAND)
TABLE 37 EUROPE SYNCHRONOUS CONDENSER MARKET, BY REACTIVE POWER RATING, 2021-2030 (UNITS)
TABLE 38 EUROPE SYNCHRONOUS CONDENSER MARKET, BY END USER, 2021-2030 (USD THOUSAND)
TABLE 39 EUROPE SYNCHRONOUS CONDENSER MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 40 EUROPE SYNCHRONOUS CONDENSER MARKET, BY DESIGN, 2021-2030 (USD THOUSAND)
TABLE 41 EUROPE SYNCHRONOUS CONDENSER MARKET, BY NO. OF POLES, 2021-2030 (USD THOUSAND)
TABLE 42 EUROPE SYNCHRONOUS CONDENSER MARKET, BY EXCITATION SYSTEM TYPE, 2021-2030 (USD THOUSAND)
TABLE 43 GERMANY SYNCHRONOUS CONDENSER MARKET, BY COOLING TECHNOLOGY, 2021-2030 (USD THOUSAND)
TABLE 44 GERMANY SYNCHRONOUS CONDENSER MARKET, BY STARTING METHOD, 2021-2030 (USD THOUSAND)
TABLE 45 GERMANY SYNCHRONOUS CONDENSER MARKET, BY REACTIVE POWER RATING, 2021-2030 (USD THOUSAND)
TABLE 46 GERMANY SYNCHRONOUS CONDENSER MARKET, BY END USER, 2021-2030 (USD THOUSAND)
TABLE 47 GERMANY SYNCHRONOUS CONDENSER MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 48 GERMANY SYNCHRONOUS CONDENSER MARKET, BY DESIGN, 2021-2030 (USD THOUSAND)
TABLE 49 GERMANY SYNCHRONOUS CONDENSER MARKET, BY NO. OF POLES, 2021-2030 (USD THOUSAND)
TABLE 50 GERMANY SYNCHRONOUS CONDENSER MARKET, BY EXCITATION SYSTEM TYPE, 2021-2030 (USD THOUSAND)
TABLE 51 FRANCE SYNCHRONOUS CONDENSER MARKET, BY COOLING TECHNOLOGY, 2021-2030 (USD THOUSAND)
TABLE 52 FRANCE SYNCHRONOUS CONDENSER MARKET, BY STARTING METHOD, 2021-2030 (USD THOUSAND)
TABLE 53 FRANCE SYNCHRONOUS CONDENSER MARKET, BY REACTIVE POWER RATING, 2021-2030 (USD THOUSAND)
TABLE 54 FRANCE SYNCHRONOUS CONDENSER MARKET, BY END USER, 2021-2030 (USD THOUSAND)
TABLE 55 FRANCE SYNCHRONOUS CONDENSER MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 56 FRANCE SYNCHRONOUS CONDENSER MARKET, BY DESIGN, 2021-2030 (USD THOUSAND)
TABLE 57 FRANCE SYNCHRONOUS CONDENSER MARKET, BY NO. OF POLES, 2021-2030 (USD THOUSAND)
TABLE 58 FRANCE SYNCHRONOUS CONDENSER MARKET, BY EXCITATION SYSTEM TYPE, 2021-2030 (USD THOUSAND)
TABLE 59 U.K. SYNCHRONOUS CONDENSER MARKET, BY COOLING TECHNOLOGY, 2021-2030 (USD THOUSAND)
TABLE 60 U.K. SYNCHRONOUS CONDENSER MARKET, BY STARTING METHOD, 2021-2030 (USD THOUSAND)
TABLE 61 U.K. SYNCHRONOUS CONDENSER MARKET, BY REACTIVE POWER RATING, 2021-2030 (USD THOUSAND)
TABLE 62 U.K. SYNCHRONOUS CONDENSER MARKET, BY END USER, 2021-2030 (USD THOUSAND)
TABLE 63 U.K. SYNCHRONOUS CONDENSER MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 64 U.K. SYNCHRONOUS CONDENSER MARKET, BY DESIGN, 2021-2030 (USD THOUSAND)
TABLE 65 U.K. SYNCHRONOUS CONDENSER MARKET, BY NO. OF POLES, 2021-2030 (USD THOUSAND)
TABLE 66 U.K. SYNCHRONOUS CONDENSER MARKET, BY EXCITATION SYSTEM TYPE, 2021-2030 (USD THOUSAND)
TABLE 67 ITALY SYNCHRONOUS CONDENSER MARKET, BY COOLING TECHNOLOGY, 2021-2030 (USD THOUSAND)
TABLE 68 ITALY SYNCHRONOUS CONDENSER MARKET, BY STARTING METHOD, 2021-2030 (USD THOUSAND)
TABLE 69 ITALY SYNCHRONOUS CONDENSER MARKET, BY REACTIVE POWER RATING, 2021-2030 (USD THOUSAND)
TABLE 70 ITALY SYNCHRONOUS CONDENSER MARKET, BY END USER, 2021-2030 (USD THOUSAND)
TABLE 71 ITALY SYNCHRONOUS CONDENSER MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 72 ITALY SYNCHRONOUS CONDENSER MARKET, BY DESIGN, 2021-2030 (USD THOUSAND)
TABLE 73 ITALY SYNCHRONOUS CONDENSER MARKET, BY NO. OF POLES, 2021-2030 (USD THOUSAND)
TABLE 74 ITALY SYNCHRONOUS CONDENSER MARKET, BY EXCITATION SYSTEM TYPE, 2021-2030 (USD THOUSAND)
TABLE 75 SPAIN SYNCHRONOUS CONDENSER MARKET, BY COOLING TECHNOLOGY, 2021-2030 (USD THOUSAND)
TABLE 76 SPAIN SYNCHRONOUS CONDENSER MARKET, BY STARTING METHOD, 2021-2030 (USD THOUSAND)
TABLE 77 SPAIN SYNCHRONOUS CONDENSER MARKET, BY REACTIVE POWER RATING, 2021-2030 (USD THOUSAND)
TABLE 78 SPAIN SYNCHRONOUS CONDENSER MARKET, BY END USER, 2021-2030 (USD THOUSAND)
TABLE 79 SPAIN SYNCHRONOUS CONDENSER MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 80 SPAIN SYNCHRONOUS CONDENSER MARKET, BY DESIGN, 2021-2030 (USD THOUSAND)
TABLE 81 SPAIN SYNCHRONOUS CONDENSER MARKET, BY NO. OF POLES, 2021-2030 (USD THOUSAND)
TABLE 82 SPAIN SYNCHRONOUS CONDENSER MARKET, BY EXCITATION SYSTEM TYPE, 2021-2030 (USD THOUSAND)
TABLE 83 RUSSIA SYNCHRONOUS CONDENSER MARKET, BY COOLING TECHNOLOGY, 2021-2030 (USD THOUSAND)
TABLE 84 RUSSIA SYNCHRONOUS CONDENSER MARKET, BY STARTING METHOD, 2021-2030 (USD THOUSAND)
TABLE 85 RUSSIA SYNCHRONOUS CONDENSER MARKET, BY REACTIVE POWER RATING, 2021-2030 (USD THOUSAND)
TABLE 86 RUSSIA SYNCHRONOUS CONDENSER MARKET, BY END USER, 2021-2030 (USD THOUSAND)
TABLE 87 RUSSIA SYNCHRONOUS CONDENSER MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 88 RUSSIA SYNCHRONOUS CONDENSER MARKET, BY DESIGN, 2021-2030 (USD THOUSAND)
TABLE 89 RUSSIA SYNCHRONOUS CONDENSER MARKET, BY NO. OF POLES, 2021-2030 (USD THOUSAND)
TABLE 90 RUSSIA SYNCHRONOUS CONDENSER MARKET, BY EXCITATION SYSTEM TYPE, 2021-2030 (USD THOUSAND)
TABLE 91 TURKEY SYNCHRONOUS CONDENSER MARKET, BY COOLING TECHNOLOGY, 2021-2030 (USD THOUSAND)
TABLE 92 TURKEY SYNCHRONOUS CONDENSER MARKET, BY STARTING METHOD, 2021-2030 (USD THOUSAND)
TABLE 93 TURKEY SYNCHRONOUS CONDENSER MARKET, BY REACTIVE POWER RATING, 2021-2030 (USD THOUSAND)
TABLE 94 TURKEY SYNCHRONOUS CONDENSER MARKET, BY END USER, 2021-2030 (USD THOUSAND)
TABLE 95 TURKEY SYNCHRONOUS CONDENSER MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 96 TURKEY SYNCHRONOUS CONDENSER MARKET, BY DESIGN, 2021-2030 (USD THOUSAND)
TABLE 97 TURKEY SYNCHRONOUS CONDENSER MARKET, BY NO. OF POLES, 2021-2030 (USD THOUSAND)
TABLE 98 TURKEY SYNCHRONOUS CONDENSER MARKET, BY EXCITATION SYSTEM TYPE, 2021-2030 (USD THOUSAND)
TABLE 99 NETHERLANDS SYNCHRONOUS CONDENSER MARKET, BY COOLING TECHNOLOGY, 2021-2030 (USD THOUSAND)
TABLE 100 NETHERLANDS SYNCHRONOUS CONDENSER MARKET, BY STARTING METHOD, 2021-2030 (USD THOUSAND)
TABLE 101 NETHERLANDS SYNCHRONOUS CONDENSER MARKET, BY REACTIVE POWER RATING, 2021-2030 (USD THOUSAND)
TABLE 102 NETHERLANDS SYNCHRONOUS CONDENSER MARKET, BY END USER, 2021-2030 (USD THOUSAND)
TABLE 103 NETHERLANDS SYNCHRONOUS CONDENSER MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 104 NETHERLANDS SYNCHRONOUS CONDENSER MARKET, BY DESIGN, 2021-2030 (USD THOUSAND)
TABLE 105 NETHERLANDS SYNCHRONOUS CONDENSER MARKET, BY NO. OF POLES, 2021-2030 (USD THOUSAND)
TABLE 106 NETHERLANDS SYNCHRONOUS CONDENSER MARKET, BY EXCITATION SYSTEM TYPE, 2021-2030 (USD THOUSAND)
TABLE 107 BELGIUM SYNCHRONOUS CONDENSER MARKET, BY COOLING TECHNOLOGY, 2021-2030 (USD THOUSAND)
TABLE 108 BELGIUM SYNCHRONOUS CONDENSER MARKET, BY STARTING METHOD, 2021-2030 (USD THOUSAND)
TABLE 109 BELGIUM SYNCHRONOUS CONDENSER MARKET, BY REACTIVE POWER RATING, 2021-2030 (USD THOUSAND)
TABLE 110 BELGIUM SYNCHRONOUS CONDENSER MARKET, BY END USER, 2021-2030 (USD THOUSAND)
TABLE 111 BELGIUM SYNCHRONOUS CONDENSER MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 112 BELGIUM SYNCHRONOUS CONDENSER MARKET, BY DESIGN, 2021-2030 (USD THOUSAND)
TABLE 113 BELGIUM SYNCHRONOUS CONDENSER MARKET, BY NO. OF POLES, 2021-2030 (USD THOUSAND)
TABLE 114 BELGIUM SYNCHRONOUS CONDENSER MARKET, BY EXCITATION SYSTEM TYPE, 2021-2030 (USD THOUSAND)
TABLE 115 FINLAND SYNCHRONOUS CONDENSER MARKET, BY COOLING TECHNOLOGY, 2021-2030 (USD THOUSAND)
TABLE 116 FINLAND SYNCHRONOUS CONDENSER MARKET, BY STARTING METHOD, 2021-2030 (USD THOUSAND)
TABLE 117 FINLAND SYNCHRONOUS CONDENSER MARKET, BY REACTIVE POWER RATING, 2021-2030 (USD THOUSAND)
TABLE 118 FINLAND SYNCHRONOUS CONDENSER MARKET, BY END USER, 2021-2030 (USD THOUSAND)
TABLE 119 FINLAND SYNCHRONOUS CONDENSER MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 120 FINLAND SYNCHRONOUS CONDENSER MARKET, BY DESIGN, 2021-2030 (USD THOUSAND)
TABLE 121 FINLAND SYNCHRONOUS CONDENSER MARKET, BY NO. OF POLES, 2021-2030 (USD THOUSAND)
TABLE 122 FINLAND SYNCHRONOUS CONDENSER MARKET, BY EXCITATION SYSTEM TYPE, 2021-2030 (USD THOUSAND)
TABLE 123 NORWAY SYNCHRONOUS CONDENSER MARKET, BY COOLING TECHNOLOGY, 2021-2030 (USD THOUSAND)
TABLE 124 NORWAY SYNCHRONOUS CONDENSER MARKET, BY STARTING METHOD, 2021-2030 (USD THOUSAND)
TABLE 125 NORWAY SYNCHRONOUS CONDENSER MARKET, BY REACTIVE POWER RATING, 2021-2030 (USD THOUSAND)
TABLE 126 NORWAY SYNCHRONOUS CONDENSER MARKET, BY END USER, 2021-2030 (USD THOUSAND)
TABLE 127 NORWAY SYNCHRONOUS CONDENSER MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 128 NORWAY SYNCHRONOUS CONDENSER MARKET, BY DESIGN, 2021-2030 (USD THOUSAND)
TABLE 129 NORWAY SYNCHRONOUS CONDENSER MARKET, BY NO. OF POLES, 2021-2030 (USD THOUSAND)
TABLE 130 NORWAY SYNCHRONOUS CONDENSER MARKET, BY EXCITATION SYSTEM TYPE, 2021-2030 (USD THOUSAND)
TABLE 131 SWITZERLAND SYNCHRONOUS CONDENSER MARKET, BY COOLING TECHNOLOGY, 2021-2030 (USD THOUSAND)
TABLE 132 SWITZERLAND SYNCHRONOUS CONDENSER MARKET, BY STARTING METHOD, 2021-2030 (USD THOUSAND)
TABLE 133 SWITZERLAND SYNCHRONOUS CONDENSER MARKET, BY REACTIVE POWER RATING, 2021-2030 (USD THOUSAND)
TABLE 134 SWITZERLAND SYNCHRONOUS CONDENSER MARKET, BY END USER, 2021-2030 (USD THOUSAND)
TABLE 135 SWITZERLAND SYNCHRONOUS CONDENSER MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 136 SWITZERLAND SYNCHRONOUS CONDENSER MARKET, BY DESIGN, 2021-2030 (USD THOUSAND)
TABLE 137 SWITZERLAND SYNCHRONOUS CONDENSER MARKET, BY NO. OF POLES, 2021-2030 (USD THOUSAND)
TABLE 138 SWITZERLAND SYNCHRONOUS CONDENSER MARKET, BY EXCITATION SYSTEM TYPE, 2021-2030 (USD THOUSAND)
TABLE 139 REST OF EUROPE SYNCHRONOUS CONDENSER MARKET, BY COOLING TECHNOLOGY, 2021-2030 (USD THOUSAND)
List of Figure
FIGURE 1 EUROPE SYNCHRONOUS CONDENSER MARKET: SEGMENTATION
FIGURE 2 EUROPE SYNCHRONOUS CONDENSER MARKET: DBMR TRIPOD DATA VALIDATION MODEL
FIGURE 3 EUROPE SYNCHRONOUS CONDENSER MARKET: DROC ANALYSIS
FIGURE 4 EUROPE SYNCHRONOUS CONDENSER MARKET: EUROPE VS REGIONAL MARKET ANALYSIS
FIGURE 5 EUROPE SYNCHRONOUS CONDENSER MARKET: COMPANY RESEARCH ANALYSIS
FIGURE 6 EUROPE SYNCHRONOUS CONDENSER MARKET: INTERVIEW DEMOGRAPHICS
FIGURE 7 EUROPE SYNCHRONOUS CONDENSER MARKET: DBMR MARKET POSITION GRID
FIGURE 8 EUROPE SYNCHRONOUS CONDENSER MARKET: VENDOR SHARE ANALYSIS
FIGURE 9 EUROPE SYNCHRONOUS CONDENSER MARKET: MULTIVARIATE MODELLING
FIGURE 10 EUROPE SYNCHRONOUS CONDENSER MARKET: COOLING TECHNOLOGY CURVE
FIGURE 11 EUROPE SYNCHRONOUS CONDENSER MARKET: MARKET END-USER COVERAGE GRID
FIGURE 12 EUROPE SYNCHRONOUS CONDENSER MARKET: SEGMENTATION
FIGURE 13 INCREASING DEMAND FOR CLEAN ENERGY SOURCES IS EXPECTED TO BE A KEY DRIVER FOR EUROPE SYNCHRONOUS CONDENSER MARKET GROWTH IN THE FORECAST PERIOD OF 2023 TO 2030
FIGURE 14 HYDROGEN COOLED SYNCHRONOUS CONDENSER IS EXPECTED TO ACCOUNT FOR THE LARGEST SHARE OF THE EUROPE SYNCHRONOUS CONDENSER MARKET IN 2023 TO 2030
FIGURE 15 SYNCHRONOUS CONDENSER WITH FLYWHEEL
FIGURE 16 SYNCHRONOUS CONDENSER WITH FLYWHEEL
FIGURE 17 DRIVERS, RESTRAINTS, OPPORTUNITIES, AND CHALLENGES OF THE EUROPE SYNCHRONOUS CONDENSER MARKET
FIGURE 18 SHARE OF DIFFERENT POWER GENERATING SOURCES
FIGURE 19 GENERATION OF WIND ENERGY
FIGURE 20 OPPORTUNITIES IN THE INTEGRATION OF SYSTEMS IN POWER PLANTS
FIGURE 21 AVERAGE ANNUAL INVESTMENT SPENDING ON ELECTRICITY GRIDS
FIGURE 22 PRICING LIST OF COPPER MATERIAL
FIGURE 23 EUROPE SYNCHRONOUS CONDENSER MARKET: BY COOLING TECHNOLOGY, 2022
FIGURE 24 EUROPE SYNCHRONOUS CONDENSER MARKET: BY STARTING METHOD, 2022
FIGURE 25 EUROPE SYNCHRONOUS CONDENSER MARKET: BY REACTIVE POWER RATING, 2022
FIGURE 26 EUROPE SYNCHRONOUS CONDENSER MARKET: BY END USER, 2022
FIGURE 27 EUROPE SYNCHRONOUS CONDENSER MARKET: BY TYPE, 2022
FIGURE 28 EUROPE SYNCHRONOUS CONDENSER MARKET: BY DESIGN, 2022
FIGURE 29 EUROPE SYNCHRONOUS CONDENSER MARKET: BY NO. OF POLES, 2022
FIGURE 30 EUROPE SYNCHRONOUS CONDENSER MARKET: BY EXCITATION SYSTEM TYPE, 2022
FIGURE 31 EUROPE SYNCHRONOUS CONDENSER MARKET: SNAPSHOT (2022)
FIGURE 32 EUROPE SYNCHRONOUS CONDENSER MARKET: BY COUNTRY (2022)
FIGURE 33 EUROPE SYNCHRONOUS CONDENSER MARKET: BY COUNTRY (2023 & 2030)
FIGURE 34 EUROPE SYNCHRONOUS CONDENSER MARKET: BY COUNTRY (2022 & 2030)
FIGURE 35 EUROPE SYNCHRONOUS CONDENSER MARKET: BY COOLING TECHNOLOGY (2023-2030)
FIGURE 36 EUROPE SYNCHRONOUS CONDENSER MARKET: COMPANY SHARE 2022 (%)
Research Methodology
Data collection and base year analysis are done using data collection modules with large sample sizes. The stage includes obtaining market information or related data through various sources and strategies. It includes examining and planning all the data acquired from the past in advance. It likewise envelops the examination of information inconsistencies seen across different information sources. The market data is analysed and estimated using market statistical and coherent models. Also, market share analysis and key trend analysis are the major success factors in the market report. To know more, please request an analyst call or drop down your inquiry.
The key research methodology used by DBMR research team is data triangulation which involves data mining, analysis of the impact of data variables on the market and primary (industry expert) validation. Data models include Vendor Positioning Grid, Market Time Line Analysis, Market Overview and Guide, Company Positioning Grid, Patent Analysis, Pricing Analysis, Company Market Share Analysis, Standards of Measurement, Global versus Regional and Vendor Share Analysis. To know more about the research methodology, drop in an inquiry to speak to our industry experts.
Customization Available
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