Field-Erected Cooling Tower Market Report
RA03809
Field-Erected Cooling Tower Market, by Waste Heat Temperature (Natural, Forced, induced), Operation (Wet, Dry, and Hybrid): Global Opportunity Analysis and Industry Forecast, 2020-2027
The global field-erected cooling tower market is estimated to surpass $2,795.3 million by 2027, exhibiting a CAGR of 4.5% from 2020 to 2027.
The report aims to cater scrupulous analysis of the global field-erected cooling tower market by methodically reviewing different facets of the market such as key segments, market dynamics, regional market circumstances, investment opportunities, and top players operating in the market.
In addition, the report offers insights on the current lookout and upcoming trends and developments that are likely to contribute to the growth of the market. Moreover, major factors such as market drivers and opportunities that are expected to shape the panorama of the global market are deliberated in the report. Also, limitations and threats that hold the power to hinder the industry growth are outlined in the report. The report also presents the Porter’s five forces analysis of the market which explains competitive landscape, negotiating power of buyers and suppliers, threats of new players, and arrival of substitutes in the market.
The report further presents future outlook and growth of the global market by scrutinizing the key forces that are likely to impact the market growth. The report also reveals segmental analysis by acutely assessing every segment of the global field-erected cooling tower market. Regional market analysis of these segments is also presented in the report. The report divides the global field-erected cooling tower market into four main regions including Europe, North America, Asia-Pacific, and LAMEA. Further, these regions are sub-divided to explain in detail the landscape of the field-erected cooling tower market across major countries in these regions. Furthermore, the report divulges some of the recent advances, trends, and upcoming opportunities in every region.
The report offers a complete overview of 10 foremost players operating in the global field-erected cooling tower market along with their company overview, major company executives, company’s financial status and revenue, top business activities, and groundbreaking developments in the global field-erected cooling tower market. Besides these insights, the major events as well as strategies of major players functioning in the global field-erected cooling tower market is also provided in the report.
RESEARCH METHODOLOGY
The report is articulated by Research Dive’s professional market analysts, and claims to be a reliable source of data and statistics for the global field-erected cooling tower market. The market forecasts specified in the report have been derived using proven research methodologies and analytical tools & models. Use of such advanced tools helps market analysts in analyzing, filtering, and deriving precise data and predictions.
The report is formulated after a thorough conversation and interviews with top industry players, stakeholders, and market participants. All the research and analysis is based on data obtained from reliable and renowned sources of statistics, and regional intelligence. The research report is built by gathering various data points and information regarding the field-erected cooling tower market. Primary research forms the foundation of the overall research process; however, it is reasonably supported by comprehensive secondary research. Around 5,900 product type literatures, company annual reports, market publications, and other such significant documents of key market players have been reviewed for in-depth understanding of market saturation. Additionally, trade associations’ publications, reliable industry bulletins, medical journals, and government websites have been studied for getting hold of important industry related insights.
KEY MARKET BENEFITS
- The report reveals market size and forecast for the period from 2019 to 2027
- This report sheds light on trends, inventions, and novel developments along with a detailed quantitative breakdown of the field-erected cooling tower market during the period of forecast
- The report offers prevalent as well as upcoming investment opportunities of the global field-erected cooling tower market
- The market size and estimations are based on a comprehensive analysis of market drivers and restraints and key improvements in the field-erected cooling tower market
- The report also offers insights on foremost market players, Porter’s Five Analysis, and top winning business strategies
- The initiatives undertaken by the top market players are presented in the report to comprehend the competitive scenario of the market
KEY MARKET SEGMENTS
The report segments the global market into waste heat temperature ,operation and region.
- Waste Heat Temperature: Natural, Forced, induced
- Operation: Wet, Dry, and Hybrid
Regionally, the report assesses the global market across North America, Europe, Asia Pacific, and LAMEA.
- The North American countries evaluated in the report are the U.S., Canada, and Mexico
- The European countries evaluated in the report are Germany, UK, France, Spain, Italy, and Rest of Europe
- The Asian countries evaluated in the report are Japan, China, India, Australia, and Rest of Asia-Pacific
- The countries in LAMEA evaluated in the report are Brazil, Saudi Arabia, South Africa, South Korea, and Rest of LAMEA
KEY PLAYERS
The key players outlined in the report are
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1. RESEARCH METHODOLOGY
1.1. Desk Research
1.2. Real time insights and validation
1.3. Forecast model
1.4. Assumptions and forecast parameters
1.5. Market size estimation
1.5.1. Top-down approach
1.5.2. Bottom-up approach
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2. REPORT SCOPE
2.1. Market definition
2.2. Key objectives of the study
2.3. Report overview
2.4. Market segmentation
2.5. Overview of the impact of COVID-19 on Global Field-Erected Cooling Tower Market
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3. EXECUTIVE SUMMARY
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4. MARKET OVERVIEW
4.1. Introduction
4.2. Growth impact forces
4.2.1. Drivers
4.2.2. Restraints
4.2.3. Opportunities
4.3. Market value chain analysis
4.3.1. List of raw material suppliers
4.3.2. List of manufacturers
4.3.3. List of distributors
4.4. Innovation & sustainability matrices
4.4.1. Technology matrix
4.4.2. Regulatory matrix
4.5. Porter’s five forces analysis
4.5.1. Bargaining power of suppliers
4.5.2. Bargaining power of consumers
4.5.3. Threat of substitutes
4.5.4. Threat of new entrants
4.5.5. Competitive rivalry intensity
4.6. PESTLE analysis
4.6.1. Political
4.6.2. Economical
4.6.3. Social
4.6.4. Technological
4.6.5. Environmental
4.7. Impact of COVID-19 on Field-Erected Cooling Tower Market
4.7.1. Pre-covid market scenario
4.7.2. Post-covid market scenario
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5. Field-Erected Cooling Tower Market, By Waste Heat Temperature
5.1. Overview
5.2 Natural
5.2.1 Definition, key trends, growth factors, and opportunities
5.2.2 Market size analysis, by region, 2020-2027
5.2.3 Market share analysis, by country, 2020-2027
5.3 Forced
5.3.1 Definition, key trends, growth factors, and opportunities
5.3.2 Market size analysis, by region, 2020-2027
5.3.3 Market share analysis, by country, 2020-2027
5.4 induced
5.4.1 Definition, key trends, growth factors, and opportunities
5.4.2 Market size analysis, by region, 2020-2027
5.4.3 Market share analysis, by country, 2020-2027
5.5 Research Dive Exclusive Insights
5.5.1 Market attractiveness
5.5.2 Competition heatmap
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6. Field-Erected Cooling Tower Market, By Operation
6.1. Overview
6.2 Wet
6.2.1 Definition, key trends, growth factors, and opportunities
6.2.2 Market size analysis, by region, 2020-2027
6.2.3 Market share analysis, by country, 2020-2027
6.3 Dry
6.3.1 Definition, key trends, growth factors, and opportunities
6.3.2 Market size analysis, by region, 2020-2027
6.3.3 Market share analysis, by country, 2020-2027
6.4 and Hybrid
6.4.1 Definition, key trends, growth factors, and opportunities
6.4.2 Market size analysis, by region, 2020-2027
6.4.3 Market share analysis, by country, 2020-2027
6.5 Research Dive Exclusive Insights
6.5.1 Market attractiveness
6.5.2 Competition heatmap
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7. Field-Erected Cooling Tower Market, By Brake Technology
7.1. Overview
7.2 Power Generation
7.2.1 Definition, key trends, growth factors, and opportunities
7.2.2 Market size analysis, by region, 2020-2027
7.2.3 Market share analysis, by country, 2020-2027
7.3 Petrochemical
7.3.1 Definition, key trends, growth factors, and opportunities
7.3.2 Market size analysis, by region, 2020-2027
7.3.3 Market share analysis, by country, 2020-2027
7.4 Oil & Gas
7.4.1 Definition, key trends, growth factors, and opportunities
7.4.2 Market size analysis, by region, 2020-2027
7.4.3 Market share analysis, by country, 2020-2027
7.5 Iron
7.5.1 Definition, key trends, growth factors, and opportunities
7.5.2 Market size analysis, by region, 2020-2027
7.5.3 Market share analysis, by country, 2020-2027
7.6 Steel and Metallurgy
7.6.1 Definition, key trends, growth factors, and opportunities
7.6.2 Market size analysis, by region, 2020-2027
7.6.3 Market share analysis, by country, 2020-2027
7.7 Paper Mills
7.7.1 Definition, key trends, growth factors, and opportunities
7.7.2 Market size analysis, by region, 2020-2027
7.7.3 Market share analysis, by country, 2020-2027
7.8 Research Dive Exclusive Insights
7.8.1 Market attractiveness
7.8.2 Competition heatmap
8. Field-Erected Cooling Tower Market, By Region
8.1 North America
8.1.1 U.S
8.1.1.1 Market size analysis, By Waste Heat Temperature, 2020-2027
8.1.1.2 Market size analysis, By Operation, 2020-2027
8.1.1.3 Market size analysis, By Brake Technology, 2020-2027
8.1.2 Canada
8.1.2.1 Market size analysis, By Waste Heat Temperature, 2020-2027
8.1.2.2 Market size analysis, By Operation, 2020-2027
8.1.2.3 Market size analysis, By Brake Technology, 2020-2027
8.1.3 Mexico
8.1.3.1 Market size analysis, By Waste Heat Temperature, 2020-2027
8.1.3.2 Market size analysis, By Operation, 2020-2027
8.1.3.3 Market size analysis, By Brake Technology, 2020-2027
8.1.4 Research Dive Exclusive Insights
8.1.4.1 Market attractiveness
8.1.4.2 Competition heatmap
8.2 Europe
8.2.1 Germany
8.2.1.1 Market size analysis, By Waste Heat Temperature, 2020-2027
8.2.1.2 Market size analysis, By Operation, 2020-2027
8.2.1.3 Market size analysis, By Brake Technology, 2020-2027
8.2.2 UK
8.2.2.1 Market size analysis, By Waste Heat Temperature, 2020-2027
8.2.2.2 Market size analysis, By Operation, 2020-2027
8.2.2.3 Market size analysis, By Brake Technology, 2020-2027
8.2.3 France
8.2.3.1 Market size analysis, By Waste Heat Temperature, 2020-2027
8.2.3.2 Market size analysis, By Operation, 2020-2027
8.2.3.3 Market size analysis, By Brake Technology, 2020-2027
8.2.4 Spain
8.2.4.1 Market size analysis, By Waste Heat Temperature, 2020-2027
8.2.4.2 Market size analysis, By Operation, 2020-2027
8.2.4.3 Market size analysis, By Brake Technology, 2020-2027
8.2.5 Italy
8.2.5.1 Market size analysis, By Waste Heat Temperature, 2020-2027
8.2.5.2 Market size analysis, By Operation, 2020-2027
8.2.5.3 Market size analysis, By Brake Technology, 2020-2027
8.2.6 Rest of Europe
8.2.6.1 Market size analysis, By Waste Heat Temperature, 2020-2027
8.2.6.2 Market size analysis, By Operation, 2020-2027
8.2.6.3 Market size analysis, By Brake Technology, 2020-2027
8.2.7 Research Dive Exclusive Insights
8.2.7.1 Market attractiveness
8.2.7.2 Competition heatmap
8.3 Asia-Pacific
8.3.1 China
8.3.1.1 Market size analysis, By Waste Heat Temperature, 2020-2027
8.3.1.2 Market size analysis, By Operation, 2020-2027
8.3.1.3 Market size analysis, By Brake Technology, 2020-2027
8.3.2 Japan
8.3.2.1 Market size analysis, By Waste Heat Temperature, 2020-2027
8.3.2.2 Market size analysis, By Operation, 2020-2027
8.3.2.3 Market size analysis, By Brake Technology, 2020-2027
8.3.3 India
8.3.3.1 Market size analysis, By Waste Heat Temperature, 2020-2027
8.3.3.2 Market size analysis, By Operation, 2020-2027
8.3.3.3 Market size analysis, By Brake Technology, 2020-2027
8.3.4 Australia
8.3.4.1 Market size analysis, By Waste Heat Temperature, 2020-2027
8.3.4.2 Market size analysis, By Operation, 2020-2027
8.3.4.3 Market size analysis, By Brake Technology, 2020-2027
8.3.5 South Korea
8.3.5.1 Market size analysis, By Waste Heat Temperature, 2020-2027
8.3.5.2 Market size analysis, By Operation, 2020-2027
8.3.5.3 Market size analysis, By Brake Technology, 2020-2027
8.3.6 Rest of Asia-Pacific
8.3.6.1 Market size analysis, By Waste Heat Temperature, 2020-2027
8.3.6.2 Market size analysis, By Operation, 2020-2027
8.3.6.3 Market size analysis, By Brake Technology, 2020-2027
8.3.7 Research Dive Exclusive Insights
8.3.7.1 Market attractiveness
8.3.7.2 Competition heatmap
8.4 LAMEA
8.4.1 Brazil
8.4.1.1 Market size analysis, By Waste Heat Temperature, 2020-2027
8.4.1.2 Market size analysis, By Operation, 2020-2027
8.4.1.3 Market size analysis, By Brake Technology, 2020-2027
8.4.2 Saudi Arabia
8.4.2.1 Market size analysis, By Waste Heat Temperature, 2020-2027
8.4.2.2 Market size analysis, By Operation, 2020-2027
8.4.2.3 Market size analysis, By Brake Technology, 2020-2027
8.4.3 UAE
8.4.3.1 Market size analysis, By Waste Heat Temperature, 2020-2027
8.4.3.2 Market size analysis, By Operation, 2020-2027
8.4.3.3 Market size analysis, By Brake Technology, 2020-2027
8.4.4 South Africa
8.4.4.1 Market size analysis, By Waste Heat Temperature, 2020-2027
8.4.4.2 Market size analysis, By Operation, 2020-2027
8.4.4.3 Market size analysis, By Brake Technology, 2020-2027
8.4.5 Rest of LAMEA
8.4.5.1 Market size analysis, By Waste Heat Temperature, 2020-2027
8.4.5.2 Market size analysis, By Operation, 2020-2027
8.4.5.3 Market size analysis, By Brake Technology, 2020-2027
8.4.6 Research Dive Exclusive Insights
8.4.6.1 Market attractiveness
8.4.6.2 Competition heatmap
9. Competitive Landscape
9.1 Top winning strategies, 2020-2027
9.1.1 By strategy
9.1.2 By year
9.2 Strategic overview
9.3 Market share analysis, 2020-2027
10. Company Profiles
10.1 SPX (US)
10.1.1 Overview
10.1.2 Business segments
10.1.3 Product portfolio
10.1.4 Financial performance
10.1.5 Recent developments
10.1.6 SWOT analysis
10.2 Enexio (Germany)
10.2.1 Overview
10.2.2 Business segments
10.2.3 Product portfolio
10.2.4 Financial performance
10.2.5 Recent developments
10.2.6 SWOT analysis
10.3 Hamon & Cie (Belgium)
10.3.1 Overview
10.3.2 Business segments
10.3.3 Product portfolio
10.3.4 Financial performance
10.3.5 Recent developments
10.3.6 SWOT analysis
10.4 Baltimore Aircoil (US)
10.4.1 Overview
10.4.2 Business segments
10.4.3 Product portfolio
10.4.4 Financial performance
10.4.5 Recent developments
10.4.6 SWOT analysis
10.5 Paharpur (India)
10.5.1 Overview
10.5.2 Business segments
10.5.3 Product portfolio
10.5.4 Financial performance
10.5.5 Recent developments
10.5.6 SWOT analysis
10.6 Babcock & Wilcox (B&W) (US)
10.6.1 Overview
10.6.2 Business segments
10.6.3 Product portfolio
10.6.4 Financial performance
10.6.5 Recent developments
10.6.6 SWOT analysis
10.7 Brentwood Industries (US)
10.7.1 Overview
10.7.2 Business segments
10.7.3 Product portfolio
10.7.4 Financial performance
10.7.5 Recent developments
10.7.6 SWOT analysis
10.8 Delta Cooling Towers (US)
10.8.1 Overview
10.8.2 Business segments
10.8.3 Product portfolio
10.8.4 Financial performance
10.8.5 Recent developments
10.8.6 SWOT analysis
10.9 Evapco (US)
10.9.1 Overview
10.9.2 Business segments
10.9.3 Product portfolio
10.9.4 Financial performance
10.9.5 Recent developments
10.9.6 SWOT analysis
10.10 International Cooling Tower (Canada)
10.10.1 Overview
10.10.2 Business segments
10.10.3 Product portfolio
10.10.4 Financial performance
10.10.5 Recent developments
10.10.6 SWOT analysis
10.11 Mesan (Hong Kong)
10.11.1 Overview
10.11.2 Business segments
10.11.3 Product portfolio
10.11.4 Financial performance
10.11.5 Recent developments
10.11.6 SWOT analysis
10.12 Star Cooling Towers (India)
10.12.1 Overview
10.12.2 Business segments
10.12.3 Product portfolio
10.12.4 Financial performance
10.12.5 Recent developments
10.12.6 SWOT analysis
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