Waste Heat to Power-United States Market Status and Trend Report 2013-2023
Report Summary
Waste Heat to Power-United States Market Status and Trend Report 2013-2023 offers a comprehensive analysis on Waste Heat to Power industry, standing on the readers’ perspective, delivering detailed market data and penetrating insights. No matter the client is industry insider, potential entrant or investor, the report will provides useful data and information. Key questions answered by this report include:
Whole United States and Regional Market Size of Waste Heat to Power 2013-2017, and development forecast 2018-2023
Main market players of Waste Heat to Power in United States, with company and product introduction, position in the Waste Heat to Power market
Market status and development trend of Waste Heat to Power by types and applications
Cost and profit status of Waste Heat to Power, and marketing status
Market growth drivers and challenges
The report segments the United States Waste Heat to Power market as:
United States Waste Heat to Power Market: Regional Segment Analysis (Regional Consumption Volume, Consumption Volume, Revenue and Growth Rate 2013-2023):
New England
The Middle Atlantic
The Midwest
The West
The South
Southwest
United States Waste Heat to Power Market: Product Type Segment Analysis (Consumption Volume, Average Price, Revenue, Market Share and Trend 2013-2023):
Steam Rankine Cycle
Organic Rankine Cycle
Kalina Cycle
United States Waste Heat to Power Market: Application Segment Analysis (Consumption Volume and Market Share 2013-2023; Downstream Customers and Market Analysis)
Petroleum Refining
Cement Industry
Heavy Metal Production
Chemical Industry
Paper
Food & Beverage
Glass Industry
United States Waste Heat to Power Market: Players Segment Analysis (Company and Product introduction, Waste Heat to Power Sales Volume, Revenue, Price and Gross Margin):
Siemens
ABB
Mitsubishi
Ormat
Amec Foster Wheeler
Thermax
Enogia SAS
ElectraTherm
Kalina Power
Triogen
Exergy-orc
Cyplan
GETEC heat & power
E-RATIONAL/BEP Europe
AQYLON
Echogen
Wasabi Energy
In a word, the report provides detailed statistics and analysis on the state of the industry; and is a valuable source of guidance and direction for companies and individuals interested in the market.
Waste Heat to Power-United States Market Status and Trend Report 2013-2023 offers a comprehensive analysis on Waste Heat to Power industry, standing on the readers’ perspective, delivering detailed market data and penetrating insights. No matter the client is industry insider, potential entrant or investor, the report will provides useful data and information. Key questions answered by this report include:
Whole United States and Regional Market Size of Waste Heat to Power 2013-2017, and development forecast 2018-2023
Main market players of Waste Heat to Power in United States, with company and product introduction, position in the Waste Heat to Power market
Market status and development trend of Waste Heat to Power by types and applications
Cost and profit status of Waste Heat to Power, and marketing status
Market growth drivers and challenges
The report segments the United States Waste Heat to Power market as:
United States Waste Heat to Power Market: Regional Segment Analysis (Regional Consumption Volume, Consumption Volume, Revenue and Growth Rate 2013-2023):
New England
The Middle Atlantic
The Midwest
The West
The South
Southwest
United States Waste Heat to Power Market: Product Type Segment Analysis (Consumption Volume, Average Price, Revenue, Market Share and Trend 2013-2023):
Steam Rankine Cycle
Organic Rankine Cycle
Kalina Cycle
United States Waste Heat to Power Market: Application Segment Analysis (Consumption Volume and Market Share 2013-2023; Downstream Customers and Market Analysis)
Petroleum Refining
Cement Industry
Heavy Metal Production
Chemical Industry
Paper
Food & Beverage
Glass Industry
United States Waste Heat to Power Market: Players Segment Analysis (Company and Product introduction, Waste Heat to Power Sales Volume, Revenue, Price and Gross Margin):
Siemens
ABB
Mitsubishi
Ormat
Amec Foster Wheeler
Thermax
Enogia SAS
ElectraTherm
Kalina Power
Triogen
Exergy-orc
Cyplan
GETEC heat & power
E-RATIONAL/BEP Europe
AQYLON
Echogen
Wasabi Energy
In a word, the report provides detailed statistics and analysis on the state of the industry; and is a valuable source of guidance and direction for companies and individuals interested in the market.
CHAPTER 1 OVERVIEW OF WASTE HEAT TO POWER
1.1 Definition of Waste Heat to Power in This Report
1.2 Commercial Types of Waste Heat to Power
1.2.1 Steam Rankine Cycle
1.2.2 Organic Rankine Cycle
1.2.3 Kalina Cycle
1.3 Downstream Application of Waste Heat to Power
1.3.1 Petroleum Refining
1.3.2 Cement Industry
1.3.3 Heavy Metal Production
1.3.4 Chemical Industry
1.3.5 Paper
1.3.6 Food & Beverage
1.3.7 Glass Industry
1.4 Development History of Waste Heat to Power
1.5 Market Status and Trend of Waste Heat to Power 2013-2023
1.5.1 United States Waste Heat to Power Market Status and Trend 2013-2023
1.5.2 Regional Waste Heat to Power Market Status and Trend 2013-2023
CHAPTER 2 UNITED STATES MARKET STATUS AND FORECAST BY REGIONS
2.1 Market Status of Waste Heat to Power in United States 2013-2017
2.2 Consumption Market of Waste Heat to Power in United States by Regions
2.2.1 Consumption Volume of Waste Heat to Power in United States by Regions
2.2.2 Revenue of Waste Heat to Power in United States by Regions
2.3 Market Analysis of Waste Heat to Power in United States by Regions
2.3.1 Market Analysis of Waste Heat to Power in New England 2013-2017
2.3.2 Market Analysis of Waste Heat to Power in The Middle Atlantic 2013-2017
2.3.3 Market Analysis of Waste Heat to Power in The Midwest 2013-2017
2.3.4 Market Analysis of Waste Heat to Power in The West 2013-2017
2.3.5 Market Analysis of Waste Heat to Power in The South 2013-2017
2.3.6 Market Analysis of Waste Heat to Power in Southwest 2013-2017
2.4 Market Development Forecast of Waste Heat to Power in United States 2018-2023
2.4.1 Market Development Forecast of Waste Heat to Power in United States 2018-2023
2.4.2 Market Development Forecast of Waste Heat to Power by Regions 2018-2023
CHAPTER 3 UNITED STATES MARKET STATUS AND FORECAST BY TYPES
3.1 Whole United States Market Status by Types
3.1.1 Consumption Volume of Waste Heat to Power in United States by Types
3.1.2 Revenue of Waste Heat to Power in United States by Types
3.2 United States Market Status by Types in Major Countries
3.2.1 Market Status by Types in New England
3.2.2 Market Status by Types in The Middle Atlantic
3.2.3 Market Status by Types in The Midwest
3.2.4 Market Status by Types in The West
3.2.5 Market Status by Types in The South
3.2.6 Market Status by Types in Southwest
3.3 Market Forecast of Waste Heat to Power in United States by Types
CHAPTER 4 UNITED STATES MARKET STATUS AND FORECAST BY DOWNSTREAM INDUSTRY
4.1 Demand Volume of Waste Heat to Power in United States by Downstream Industry
4.2 Demand Volume of Waste Heat to Power by Downstream Industry in Major Countries
4.2.1 Demand Volume of Waste Heat to Power by Downstream Industry in New England
4.2.2 Demand Volume of Waste Heat to Power by Downstream Industry in The Middle Atlantic
4.2.3 Demand Volume of Waste Heat to Power by Downstream Industry in The Midwest
4.2.4 Demand Volume of Waste Heat to Power by Downstream Industry in The West
4.2.5 Demand Volume of Waste Heat to Power by Downstream Industry in The South
4.2.6 Demand Volume of Waste Heat to Power by Downstream Industry in Southwest
4.3 Market Forecast of Waste Heat to Power in United States by Downstream Industry
CHAPTER 5 MARKET DRIVING FACTOR ANALYSIS OF WASTE HEAT TO POWER
5.1 United States Economy Situation and Trend Overview
5.2 Waste Heat to Power Downstream Industry Situation and Trend Overview
CHAPTER 6 WASTE HEAT TO POWER MARKET COMPETITION STATUS BY MAJOR PLAYERS IN UNITED STATES
6.1 Sales Volume of Waste Heat to Power in United States by Major Players
6.2 Revenue of Waste Heat to Power in United States by Major Players
6.3 Basic Information of Waste Heat to Power by Major Players
6.3.1 Headquarters Location and Established Time of Waste Heat to Power Major Players
6.3.2 Employees and Revenue Level of Waste Heat to Power Major Players
6.4 Market Competition News and Trend
6.4.1 Merger, Consolidation or Acquisition News
6.4.2 Investment or Disinvestment News
6.4.3 New Product Development and Launch
CHAPTER 7 WASTE HEAT TO POWER MAJOR MANUFACTURERS INTRODUCTION AND MARKET DATA
7.1 Siemens
7.1.1 Company profile
7.1.2 Representative Waste Heat to Power Product
7.1.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of Siemens
7.2 ABB
7.2.1 Company profile
7.2.2 Representative Waste Heat to Power Product
7.2.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of ABB
7.3 Mitsubishi
7.3.1 Company profile
7.3.2 Representative Waste Heat to Power Product
7.3.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of Mitsubishi
7.4 Ormat
7.4.1 Company profile
7.4.2 Representative Waste Heat to Power Product
7.4.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of Ormat
7.5 Amec Foster Wheeler
7.5.1 Company profile
7.5.2 Representative Waste Heat to Power Product
7.5.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of Amec Foster Wheeler
7.6 Thermax
7.6.1 Company profile
7.6.2 Representative Waste Heat to Power Product
7.6.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of Thermax
7.7 Enogia SAS
7.7.1 Company profile
7.7.2 Representative Waste Heat to Power Product
7.7.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of Enogia SAS
7.8 ElectraTherm
7.8.1 Company profile
7.8.2 Representative Waste Heat to Power Product
7.8.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of ElectraTherm
7.9 Kalina Power
7.9.1 Company profile
7.9.2 Representative Waste Heat to Power Product
7.9.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of Kalina Power
7.10 Triogen
7.10.1 Company profile
7.10.2 Representative Waste Heat to Power Product
7.10.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of Triogen
7.11 Exergy-orc
7.11.1 Company profile
7.11.2 Representative Waste Heat to Power Product
7.11.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of Exergy-orc
7.12 Cyplan
7.12.1 Company profile
7.12.2 Representative Waste Heat to Power Product
7.12.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of Cyplan
7.13 GETEC heat & power
7.13.1 Company profile
7.13.2 Representative Waste Heat to Power Product
7.13.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of GETEC heat & power
7.14 E-RATIONAL/BEP Europe
7.14.1 Company profile
7.14.2 Representative Waste Heat to Power Product
7.14.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of E-RATIONAL/BEP Europe
7.15 AQYLON
7.15.1 Company profile
7.15.2 Representative Waste Heat to Power Product
7.15.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of AQYLON
7.16 Echogen
7.17 Wasabi Energy
CHAPTER 8 UPSTREAM AND DOWNSTREAM MARKET ANALYSIS OF WASTE HEAT TO POWER
8.1 Industry Chain of Waste Heat to Power
8.2 Upstream Market and Representative Companies Analysis
8.3 Downstream Market and Representative Companies Analysis
CHAPTER 9 COST AND GROSS MARGIN ANALYSIS OF WASTE HEAT TO POWER
9.1 Cost Structure Analysis of Waste Heat to Power
9.2 Raw Materials Cost Analysis of Waste Heat to Power
9.3 Labor Cost Analysis of Waste Heat to Power
9.4 Manufacturing Expenses Analysis of Waste Heat to Power
CHAPTER 10 MARKETING STATUS ANALYSIS OF WASTE HEAT TO POWER
10.1 Marketing Channel
10.1.1 Direct Marketing
10.1.2 Indirect Marketing
10.1.3 Marketing Channel Development Trend
10.2 Market Positioning
10.2.1 Pricing Strategy
10.2.2 Brand Strategy
10.2.3 Target Client
10.3 Distributors/Traders List
CHAPTER 11 REPORT CONCLUSION
CHAPTER 12 RESEARCH METHODOLOGY AND REFERENCE
12.1 Methodology/Research Approach
12.1.1 Research Programs/Design
12.1.2 Market Size Estimation
12.1.3 Market Breakdown and Data Triangulation
12.2 Data Source
12.2.1 Secondary Sources
12.2.2 Primary Sources
12.3 Reference
1.1 Definition of Waste Heat to Power in This Report
1.2 Commercial Types of Waste Heat to Power
1.2.1 Steam Rankine Cycle
1.2.2 Organic Rankine Cycle
1.2.3 Kalina Cycle
1.3 Downstream Application of Waste Heat to Power
1.3.1 Petroleum Refining
1.3.2 Cement Industry
1.3.3 Heavy Metal Production
1.3.4 Chemical Industry
1.3.5 Paper
1.3.6 Food & Beverage
1.3.7 Glass Industry
1.4 Development History of Waste Heat to Power
1.5 Market Status and Trend of Waste Heat to Power 2013-2023
1.5.1 United States Waste Heat to Power Market Status and Trend 2013-2023
1.5.2 Regional Waste Heat to Power Market Status and Trend 2013-2023
CHAPTER 2 UNITED STATES MARKET STATUS AND FORECAST BY REGIONS
2.1 Market Status of Waste Heat to Power in United States 2013-2017
2.2 Consumption Market of Waste Heat to Power in United States by Regions
2.2.1 Consumption Volume of Waste Heat to Power in United States by Regions
2.2.2 Revenue of Waste Heat to Power in United States by Regions
2.3 Market Analysis of Waste Heat to Power in United States by Regions
2.3.1 Market Analysis of Waste Heat to Power in New England 2013-2017
2.3.2 Market Analysis of Waste Heat to Power in The Middle Atlantic 2013-2017
2.3.3 Market Analysis of Waste Heat to Power in The Midwest 2013-2017
2.3.4 Market Analysis of Waste Heat to Power in The West 2013-2017
2.3.5 Market Analysis of Waste Heat to Power in The South 2013-2017
2.3.6 Market Analysis of Waste Heat to Power in Southwest 2013-2017
2.4 Market Development Forecast of Waste Heat to Power in United States 2018-2023
2.4.1 Market Development Forecast of Waste Heat to Power in United States 2018-2023
2.4.2 Market Development Forecast of Waste Heat to Power by Regions 2018-2023
CHAPTER 3 UNITED STATES MARKET STATUS AND FORECAST BY TYPES
3.1 Whole United States Market Status by Types
3.1.1 Consumption Volume of Waste Heat to Power in United States by Types
3.1.2 Revenue of Waste Heat to Power in United States by Types
3.2 United States Market Status by Types in Major Countries
3.2.1 Market Status by Types in New England
3.2.2 Market Status by Types in The Middle Atlantic
3.2.3 Market Status by Types in The Midwest
3.2.4 Market Status by Types in The West
3.2.5 Market Status by Types in The South
3.2.6 Market Status by Types in Southwest
3.3 Market Forecast of Waste Heat to Power in United States by Types
CHAPTER 4 UNITED STATES MARKET STATUS AND FORECAST BY DOWNSTREAM INDUSTRY
4.1 Demand Volume of Waste Heat to Power in United States by Downstream Industry
4.2 Demand Volume of Waste Heat to Power by Downstream Industry in Major Countries
4.2.1 Demand Volume of Waste Heat to Power by Downstream Industry in New England
4.2.2 Demand Volume of Waste Heat to Power by Downstream Industry in The Middle Atlantic
4.2.3 Demand Volume of Waste Heat to Power by Downstream Industry in The Midwest
4.2.4 Demand Volume of Waste Heat to Power by Downstream Industry in The West
4.2.5 Demand Volume of Waste Heat to Power by Downstream Industry in The South
4.2.6 Demand Volume of Waste Heat to Power by Downstream Industry in Southwest
4.3 Market Forecast of Waste Heat to Power in United States by Downstream Industry
CHAPTER 5 MARKET DRIVING FACTOR ANALYSIS OF WASTE HEAT TO POWER
5.1 United States Economy Situation and Trend Overview
5.2 Waste Heat to Power Downstream Industry Situation and Trend Overview
CHAPTER 6 WASTE HEAT TO POWER MARKET COMPETITION STATUS BY MAJOR PLAYERS IN UNITED STATES
6.1 Sales Volume of Waste Heat to Power in United States by Major Players
6.2 Revenue of Waste Heat to Power in United States by Major Players
6.3 Basic Information of Waste Heat to Power by Major Players
6.3.1 Headquarters Location and Established Time of Waste Heat to Power Major Players
6.3.2 Employees and Revenue Level of Waste Heat to Power Major Players
6.4 Market Competition News and Trend
6.4.1 Merger, Consolidation or Acquisition News
6.4.2 Investment or Disinvestment News
6.4.3 New Product Development and Launch
CHAPTER 7 WASTE HEAT TO POWER MAJOR MANUFACTURERS INTRODUCTION AND MARKET DATA
7.1 Siemens
7.1.1 Company profile
7.1.2 Representative Waste Heat to Power Product
7.1.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of Siemens
7.2 ABB
7.2.1 Company profile
7.2.2 Representative Waste Heat to Power Product
7.2.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of ABB
7.3 Mitsubishi
7.3.1 Company profile
7.3.2 Representative Waste Heat to Power Product
7.3.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of Mitsubishi
7.4 Ormat
7.4.1 Company profile
7.4.2 Representative Waste Heat to Power Product
7.4.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of Ormat
7.5 Amec Foster Wheeler
7.5.1 Company profile
7.5.2 Representative Waste Heat to Power Product
7.5.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of Amec Foster Wheeler
7.6 Thermax
7.6.1 Company profile
7.6.2 Representative Waste Heat to Power Product
7.6.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of Thermax
7.7 Enogia SAS
7.7.1 Company profile
7.7.2 Representative Waste Heat to Power Product
7.7.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of Enogia SAS
7.8 ElectraTherm
7.8.1 Company profile
7.8.2 Representative Waste Heat to Power Product
7.8.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of ElectraTherm
7.9 Kalina Power
7.9.1 Company profile
7.9.2 Representative Waste Heat to Power Product
7.9.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of Kalina Power
7.10 Triogen
7.10.1 Company profile
7.10.2 Representative Waste Heat to Power Product
7.10.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of Triogen
7.11 Exergy-orc
7.11.1 Company profile
7.11.2 Representative Waste Heat to Power Product
7.11.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of Exergy-orc
7.12 Cyplan
7.12.1 Company profile
7.12.2 Representative Waste Heat to Power Product
7.12.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of Cyplan
7.13 GETEC heat & power
7.13.1 Company profile
7.13.2 Representative Waste Heat to Power Product
7.13.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of GETEC heat & power
7.14 E-RATIONAL/BEP Europe
7.14.1 Company profile
7.14.2 Representative Waste Heat to Power Product
7.14.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of E-RATIONAL/BEP Europe
7.15 AQYLON
7.15.1 Company profile
7.15.2 Representative Waste Heat to Power Product
7.15.3 Waste Heat to Power Sales, Revenue, Price and Gross Margin of AQYLON
7.16 Echogen
7.17 Wasabi Energy
CHAPTER 8 UPSTREAM AND DOWNSTREAM MARKET ANALYSIS OF WASTE HEAT TO POWER
8.1 Industry Chain of Waste Heat to Power
8.2 Upstream Market and Representative Companies Analysis
8.3 Downstream Market and Representative Companies Analysis
CHAPTER 9 COST AND GROSS MARGIN ANALYSIS OF WASTE HEAT TO POWER
9.1 Cost Structure Analysis of Waste Heat to Power
9.2 Raw Materials Cost Analysis of Waste Heat to Power
9.3 Labor Cost Analysis of Waste Heat to Power
9.4 Manufacturing Expenses Analysis of Waste Heat to Power
CHAPTER 10 MARKETING STATUS ANALYSIS OF WASTE HEAT TO POWER
10.1 Marketing Channel
10.1.1 Direct Marketing
10.1.2 Indirect Marketing
10.1.3 Marketing Channel Development Trend
10.2 Market Positioning
10.2.1 Pricing Strategy
10.2.2 Brand Strategy
10.2.3 Target Client
10.3 Distributors/Traders List
CHAPTER 11 REPORT CONCLUSION
CHAPTER 12 RESEARCH METHODOLOGY AND REFERENCE
12.1 Methodology/Research Approach
12.1.1 Research Programs/Design
12.1.2 Market Size Estimation
12.1.3 Market Breakdown and Data Triangulation
12.2 Data Source
12.2.1 Secondary Sources
12.2.2 Primary Sources
12.3 Reference
