Report Detail
Global Hybrid Switchgear Market Research Report 2019
- RnM3123443 |
- 14 March, 2019 |
- Global |
- 96 Pages |
- QYResearch |
- Machinery & Equipment
Switchgears are segmented as per the arc-quenching medium that is used within the equipment. Various types of arc-quenching medium include air, SF6 gas, and oil. With the emergence of hybrid switchgear technology in the late 1990s, the equipment incorporated two different technologies in its operation. One was the use of gas for arc quenching purpose, while air-insulation technology was adopted for bus bars to be connected to other equipment present in a high-voltage sub-station. The target is to maximize the advantages of these two existing technologies and enhance the overall operation and performance of the equipment and the connected components within the grid network.
The benefits such as enhanced substation performance and space savings are primary growth factors for this market. Substations play a major role in catering to the demands of the end-user. The majority of existing substations have functioned beyond their operational lives and the replacement of the conventional air-insulated switchgear (AIS) components such as disconnectors and circuit-breakers is not economical. This will lead to the development of innovative switchgears with the functions of gas insulated substation (GIS) and integrated with dead tank circuit breakers. Moreover, the increased adoption of the plug and switch system (PASS) that is driven by the privatization of the electric power industry across the globe, will also fuel the growth of the market.
APAC was the major revenue contributor to the hybrid switchgear market during 2017. Owing to the growth in the electricity consuming sectors in many major countries such as China and India, the region has a constant high demand for electricity. An increase in private participation in the power transmission and distribution market that will result in higher investments in transmission and distribution networks in countries such as China, India, Pakistan, Australia, and Thailand and government initiatives for the expansion of transmission networks to improve the existing infrastructure in countries such as China and India, will propel the market’s growth prospects.
The global Hybrid Switchgear market is valued at xx million US$ in 2018 is expected to reach xx million US$ by the end of 2025, growing at a CAGR of xx% during 2019-2025.
This report focuses on Hybrid Switchgear volume and value at global level, regional level and company level. From a global perspective, this report represents overall Hybrid Switchgear market size by analyzing historical data and future prospect. Regionally, this report focuses on several key regions: North America, Europe, China and Japan.
At company level, this report focuses on the production capacity, ex-factory price, revenue and market share for each manufacturer covered in this report.
The following manufacturers are covered:
ABB
GE
Mitsubishi Electric
Siemens
Toshiba
TGOOD
Shandong Taikai Power Engineering
Ningbo Tianan
Segment by Regions
North America
Europe
China
Japan
Segment by Type
Below 70 KV
70 KV-250KV
Above 250KV
Segment by Application
Commercial
Industrial
Others
Table of Contents
Executive Summary
1 Hybrid Switchgear Market Overview
- 1.1 Product Overview and Scope of Hybrid Switchgear
- 1.2 Hybrid Switchgear Segment by Type
- 1.2.1 Global Hybrid Switchgear Production Growth Rate Comparison by Type (2014-2025)
- 1.2.2 Below 70 KV
- 1.2.3 70 KV-250KV
- 1.2.4 Above 250KV
- 1.3 Hybrid Switchgear Segment by Application
- 1.3.1 Hybrid Switchgear Consumption Comparison by Application (2014-2025)
- 1.3.2 Commercial
- 1.3.3 Industrial
- 1.3.4 Others
- 1.4 Global Hybrid Switchgear Market by Region
- 1.4.1 Global Hybrid Switchgear Market Size Region
- 1.4.2 North America Status and Prospect (2014-2025)
- 1.4.3 Europe Status and Prospect (2014-2025)
- 1.4.4 China Status and Prospect (2014-2025)
- 1.4.5 Japan Status and Prospect (2014-2025)
- 1.5 Global Hybrid Switchgear Market Size
- 1.5.1 Global Hybrid Switchgear Revenue (2014-2025)
- 1.5.2 Global Hybrid Switchgear Production (2014-2025)
2 Global Hybrid Switchgear Market Competition by Manufacturers
- 2.1 Global Hybrid Switchgear Production Market Share by Manufacturers (2014-2019)
- 2.2 Global Hybrid Switchgear Revenue Share by Manufacturers (2014-2019)
- 2.3 Global Hybrid Switchgear Average Price by Manufacturers (2014-2019)
- 2.4 Manufacturers Hybrid Switchgear Production Sites, Area Served, Product Types
- 2.5 Hybrid Switchgear Market Competitive Situation and Trends
- 2.5.1 Hybrid Switchgear Market Concentration Rate
- 2.5.2 Hybrid Switchgear Market Share of Top 3 and Top 5 Manufacturers
- 2.5.3 Mergers & Acquisitions, Expansion
3 Global Hybrid Switchgear Production Market Share by Regions
- 3.1 Global Hybrid Switchgear Production Market Share by Regions
- 3.2 Global Hybrid Switchgear Revenue Market Share by Regions (2014-2019)
- 3.3 Global Hybrid Switchgear Production, Revenue, Price and Gross Margin (2014-2019)
- 3.4 North America Hybrid Switchgear Production
- 3.4.1 North America Hybrid Switchgear Production Growth Rate (2014-2019)
- 3.4.2 North America Hybrid Switchgear Production, Revenue, Price and Gross Margin (2014-2019)
- 3.5 Europe Hybrid Switchgear Production
- 3.5.1 Europe Hybrid Switchgear Production Growth Rate (2014-2019)
- 3.5.2 Europe Hybrid Switchgear Production, Revenue, Price and Gross Margin (2014-2019)
- 3.6 China Hybrid Switchgear Production (2014-2019)
- 3.6.1 China Hybrid Switchgear Production Growth Rate (2014-2019)
- 3.6.2 China Hybrid Switchgear Production, Revenue, Price and Gross Margin (2014-2019)
- 3.7 Japan Hybrid Switchgear Production (2014-2019)
- 3.7.1 Japan Hybrid Switchgear Production Growth Rate (2014-2019)
- 3.7.2 Japan Hybrid Switchgear Production, Revenue, Price and Gross Margin (2014-2019)
4 Global Hybrid Switchgear Consumption by Regions
- 4.1 Global Hybrid Switchgear Consumption by Regions
- 4.2 North America Hybrid Switchgear Consumption (2014-2019)
- 4.3 Europe Hybrid Switchgear Consumption (2014-2019)
- 4.4 China Hybrid Switchgear Consumption (2014-2019)
- 4.5 Japan Hybrid Switchgear Consumption (2014-2019)
5 Global Hybrid Switchgear Production, Revenue, Price Trend by Type
- 5.1 Global Hybrid Switchgear Production Market Share by Type (2014-2019)
- 5.2 Global Hybrid Switchgear Revenue Market Share by Type (2014-2019)
- 5.3 Global Hybrid Switchgear Price by Type (2014-2019)
- 5.4 Global Hybrid Switchgear Production Growth by Type (2014-2019)
6 Global Hybrid Switchgear Market Analysis by Applications
- 6.1 Global Hybrid Switchgear Consumption Market Share by Application (2014-2019)
- 6.2 Global Hybrid Switchgear Consumption Growth Rate by Application (2014-2019)
7 Company Profiles and Key Figures in Hybrid Switchgear Business
- 7.1 ABB
- 7.1.1 ABB Hybrid Switchgear Production Sites and Area Served
- 7.1.2 Hybrid Switchgear Product Introduction, Application and Specification
- 7.1.3 ABB Hybrid Switchgear Production, Revenue, Price and Gross Margin (2014-2019)
- 7.1.4 Main Business and Markets Served
- 7.2 GE
- 7.2.1 GE Hybrid Switchgear Production Sites and Area Served
- 7.2.2 Hybrid Switchgear Product Introduction, Application and Specification
- 7.2.3 GE Hybrid Switchgear Production, Revenue, Price and Gross Margin (2014-2019)
- 7.2.4 Main Business and Markets Served
- 7.3 Mitsubishi Electric
- 7.3.1 Mitsubishi Electric Hybrid Switchgear Production Sites and Area Served
- 7.3.2 Hybrid Switchgear Product Introduction, Application and Specification
- 7.3.3 Mitsubishi Electric Hybrid Switchgear Production, Revenue, Price and Gross Margin (2014-2019)
- 7.3.4 Main Business and Markets Served
- 7.4 Siemens
- 7.4.1 Siemens Hybrid Switchgear Production Sites and Area Served
- 7.4.2 Hybrid Switchgear Product Introduction, Application and Specification
- 7.4.3 Siemens Hybrid Switchgear Production, Revenue, Price and Gross Margin (2014-2019)
- 7.4.4 Main Business and Markets Served
- 7.5 Toshiba
- 7.5.1 Toshiba Hybrid Switchgear Production Sites and Area Served
- 7.5.2 Hybrid Switchgear Product Introduction, Application and Specification
- 7.5.3 Toshiba Hybrid Switchgear Production, Revenue, Price and Gross Margin (2014-2019)
- 7.5.4 Main Business and Markets Served
- 7.6 TGOOD
- 7.6.1 TGOOD Hybrid Switchgear Production Sites and Area Served
- 7.6.2 Hybrid Switchgear Product Introduction, Application and Specification
- 7.6.3 TGOOD Hybrid Switchgear Production, Revenue, Price and Gross Margin (2014-2019)
- 7.6.4 Main Business and Markets Served
- 7.7 Shandong Taikai Power Engineering
- 7.7.1 Shandong Taikai Power Engineering Hybrid Switchgear Production Sites and Area Served
- 7.7.2 Hybrid Switchgear Product Introduction, Application and Specification
- 7.7.3 Shandong Taikai Power Engineering Hybrid Switchgear Production, Revenue, Price and Gross Margin (2014-2019)
- 7.7.4 Main Business and Markets Served
- 7.8 Ningbo Tianan
- 7.8.1 Ningbo Tianan Hybrid Switchgear Production Sites and Area Served
- 7.8.2 Hybrid Switchgear Product Introduction, Application and Specification
- 7.8.3 Ningbo Tianan Hybrid Switchgear Production, Revenue, Price and Gross Margin (2014-2019)
- 7.8.4 Main Business and Markets Served
8 Hybrid Switchgear Manufacturing Cost Analysis
- 8.1 Hybrid Switchgear Key Raw Materials Analysis
- 8.1.1 Key Raw Materials
- 8.1.2 Price Trend of Key Raw Materials
- 8.1.3 Key Suppliers of Raw Materials
- 8.2 Proportion of Manufacturing Cost Structure
- 8.3 Manufacturing Process Analysis of Hybrid Switchgear
- 8.4 Hybrid Switchgear Industrial Chain Analysis
9 Marketing Channel, Distributors and Customers
- 9.1 Marketing Channel
- 9.1.1 Direct Marketing
- 9.1.2 Indirect Marketing
- 9.2 Hybrid Switchgear Distributors List
- 9.3 Hybrid Switchgear Customers
10 Market Dynamics
- 10.1 Market Trends
- 10.2 Opportunities
- 10.3 Market Drivers
- 10.4 Challenges
- 10.5 Influence Factors
11 Global Hybrid Switchgear Market Forecast
- 11.1 Global Hybrid Switchgear Production, Revenue Forecast
- 11.1.1 Global Hybrid Switchgear Production Growth Rate Forecast (2019-2025)
- 11.1.2 Global Hybrid Switchgear Revenue and Growth Rate Forecast (2019-2025)
- 11.1.3 Global Hybrid Switchgear Price and Trend Forecast (2019-2025)
- 11.2 Global Hybrid Switchgear Production Forecast by Regions (2019-2025)
- 11.2.1 North America Hybrid Switchgear Production, Revenue Forecast (2019-2025)
- 11.2.2 Europe Hybrid Switchgear Production, Revenue Forecast (2019-2025)
- 11.2.3 China Hybrid Switchgear Production, Revenue Forecast (2019-2025)
- 11.2.4 Japan Hybrid Switchgear Production, Revenue Forecast (2019-2025)
- 11.3 Global Hybrid Switchgear Consumption Forecast by Regions (2019-2025)
- 11.3.1 North America Hybrid Switchgear Consumption Forecast (2019-2025)
- 11.3.2 Europe Hybrid Switchgear Consumption Forecast (2019-2025)
- 11.3.3 China Hybrid Switchgear Consumption Forecast (2019-2025)
- 11.3.4 Japan Hybrid Switchgear Consumption Forecast (2019-2025)
- 11.4 Global Hybrid Switchgear Production, Revenue and Price Forecast by Type (2019-2025)
- 11.5 Global Hybrid Switchgear Consumption Forecast by Application (2019-2025)
12 Research Findings and Conclusion
13 Methodology and Data Source
- 13.1 Methodology/Research Approach
- 13.1.1 Research Programs/Design
- 13.1.2 Market Size Estimation
- 13.1.3 Market Breakdown and Data Triangulation
- 13.2 Data Source
- 13.2.1 Secondary Sources
- 13.2.2 Primary Sources
- 13.3 Author List
Summary:
Get latest Market Research Reports on Hybrid Switchgear . Industry analysis & Market Report on Hybrid Switchgear is a syndicated market report, published as Global Hybrid Switchgear Market Research Report 2019. It is complete Research Study and Industry Analysis of Hybrid Switchgear market, to understand, Market Demand, Growth, trends analysis and Factor Influencing market.
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