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Heat Recovery Steam Generator Market Analysis- Industry Size, Share, Research Report, Insights, Covid-19 Impact, Statistics, Trends, Growth and Forecast 2022-2030

Published Date: October, 2022
No of Pages: 159
Delivery Format: PDF+Excel

$2,950.00

Industry Drivers

Heat Recovery Steam Generator Market size exceeded USD 1.2 billion in 2021 and is projected to expand at more than 5% CAGR from 2022 to 2030. Growing adoption of cogeneration technology to boost industry growth.

Heat recovery systems like cogeneration technology are known for high levels of efficiency while using less fuel in comparison to conventional systems. This makes them a viable eco-friendly alternative for fuel optimization. While a traditional combustion system has an efficiency of 40%-50%, cogeneration systems can provide up to 80% efficiency. Furthermore, the technology works with a variety of fuels such as natural gas, biodiesel, LPG gases, and methane, among others. Environment-friendly technological benefits such as these will, in consequence, augment the industry expansion.

It is anticipated that the high investments required for developing and implementing heat recovery steam generation projects could act as a roadblock to the market growth to some extent. These costs include engineering, procurement and construction investments. However, a surge in awareness regarding the technology and continuous focus on the adoption of efficient cogeneration systems will stimulate the industry demand.

The heat recovery steam generator market from vertical drum design segment is predicted to exhibit a growth rate of over 6% through 2030. This growth is attributed to the increased adoption of the design across food processing facilities.

Food processing requires a large supply of heat energy. In addition, much of this energy is wasted once the process is complete. Therefore, heat recovery systems can be deployed to recycle the recovered heat. Moreover, vertical generators provide a vertical gas flow to horizontally placed coils which requires less floor area in comparison to the horizontal design.

Introduction of carbon credits to favor the adoption of ? 50 – 100 MW rated power systems

The heat recovery steam generator market from ? 50 – 100 MW rated power segment will be worth more than USD 220 million by 2030. Growing concerns surrounding the environment have pushed companies to adopt sustainable solutions such as the purchase of carbon credits and earning renewable energy certificates. This fosters the integration of eco-friendly components such as heat recovery steam generators across facilities as they can offset carbon footprint and bolster clean energy.

Regulatory support for deploying cogeneration technology

The cogeneration operation segment is poised to register 5.5% gains through 2030, credited to increasing regulatory support for the deployment of cogeneration systems. For instance, the U.S. Department of Energy has implemented the CHP Deployment Program to initiate the transition to a clean energy economy. Some of the key services offered through the program include the CHP for Resiliency Accelerator, CHP Technical Assistance Partnerships (CHP TAPs), the Packaged Combined Heat and Power Catalog (eCatalog, and Packaged CHP Accelerator.

Extensive development of commercial infrastructure

Heat recovery steam generator market value from the commercial applications is expected to record remuneration of USD 300 million by 2030. Commercial structures such as shopping malls can use heat exchangers to operate the air conditioning system functioning throughout the establishment. Additionally, governments are providing financial assistance for expanding infrastructure throughout their constituencies.

For instance, Shanghai announced eight infrastructural projects in September 2022 with an overall investment of around USD 257 billion. This strong focus on infrastructural expansion will increase deployment of heat recovery steam generators over the years, in turn strengthening the industry outlook.

Advancements in power infrastructure across Asia Pacific

The Asia Pacific heat recovery steam generator market is estimated to attain a CAGR of over 5.5% through 2022-2030, owing to advancements in power infrastructure across the region through investments in heat exchanger systems. Furthermore, development of advanced distributed generation technologies are observed in the region. The refurbishment of existing T&D systems will help transform regional industry dynamics.

Strategic collaborations to reinforce global HRSG market outlook

Some of the key companies involved in the industry include John Wood Group PLC, Kawasaki Heavy Industries, Babcock & Wilcox Enterprises, Larsen & Toubro Limited, Bharat Heavy Electricals Limited (BHEL), Cleaver-Brooks, Clayton Industries, John Cockerill, Mitsubishi Heavy Industries, General Electric, Siemens Energy, Sofinter S.p.a, Rentech Boilers, Thermax Limited, Kelvion Holding GmbH, and S.A. HAMON. Prominent players are collaborating with major energy companies to deploy their products across their infrastructure.

Citing an instance, in August 2022, Siemens Energy and MYTILINEOS selected the HRSG technology offered by John Cockerill to develop and supply a Benson-type boiler. This system is intended to be deployed behind Siemen’s gas turbine in its upcoming combined cycle facility in Poland. Moreover, this technology will save close to 1.2 million tons of CO2 per year. With the rapid rise in environmental concerns, such sustainable inclusions will generate lucrative growth opportunities for the market.

Impact of COVID-19 crisis on heat recovery steam generator market

The COVID-19 pandemic affected many industries across various levels, from supply chain networks to final production. The chemical industry in particular experienced a decline in demand across end-markets and stock prices of these companies took unprecedented hits. The overall negative impact on the industry also affected the implementation of components such as heat exchanger systems. These systems are required throughout the chemical sector to regulate the temperature of corrosive liquids to condense gases as part of the chemical processes.

The industry-level disruption reduced the demand for newer heat management systems to curb additional costs. However, with the reconfiguration of global supply chains, there is an opportunity to expedite large-scale investments in sustainable solutions, which may foster the market expansion.

The heat recovery steam generator market research report includes in-depth coverage of the industry with estimates & forecasts in terms of “USD” from 2018 to 2030 for the following segments:

Market Insights, By Design

  • Horizontal Drum
  • Vertical Drum

Market Insights, By Rated Power

  • 0 30 MW
  • >30 50 MW
  • >50 100 MW
  • >100 200 MW
  • >200 MW

Market Insights, By Mode of Operation

  • Cogeneration
  • Combined Cycle

Market Insights, By Application

  • Utilities
  • Commercial
  • Chemicals
  • Refineries
  • Pulp & Paper
  • Others

The above information is provided on a regional & country basis for the following:

  • North America
    • U.S.
    • Canada
    • Mexico
  • Europe
    • UK
    • France
    • Russia
    • Germany
    • Denmark
    • Sweden
    • Italy
    • Netherlands
  • Asia Pacific
    • China
    • Japan
    • South Korea
    • India
    • Australia
    • Indonesia
    • Singapore
    • Malaysia
    • Philippines
  • Middle East & Africa
    • UAE
    • Saudi Arabia
    • Qatar
    • Oman
    • Kuwait
    • Egypt
    • South Africa
    • Nigeria
  • Latin America
    • Brazil
    • Argentina
    • Chile
    • Peru

Report Content

Chapter 1   Methodology & Scope

1.1    Methodology

1.2    Market definitions

1.3    Market estimates & forecast parameters

1.4    Data sources

1.4.1    Primary

1.4.2    Secondary

1.4.2.1    Paid sources

1.4.2.2    Public sources

Chapter 2   Executive Summary

2.1    Heat recovery steam generator industry 3600 synopsis, 2018 – 2030

2.1.1    Business trends

2.1.2    Design trends

2.1.3    Rated power trends

2.1.4    Mode of operation trends

2.1.5    Application trends

2.1.6    Regional trends

Chapter 3   Heat Recovery Steam Generator Industry Insights

3.1    Industry ecosystem analysis

3.1.1    Vendor Matrix

3.2    Innovation & technology landscape

3.3    Comparative analysis of various industries

3.4    Heat Integration analysis

3.4.1    Saving Fuel

3.4.2    Generating electricity and mechanical work

3.4.3    Selling electricity and heat

3.4.4    Reducing utility investments

3.4.5    Reducing cooling needs

3.4.6    Increasing production

3.4.7    Reducing greenhouse gas emissions

3.4.8    Transforming energy

3.5    Regulatory landscape

3.5.1    North America

3.5.1.1    U.S.

3.5.1.1.1    Clean Air Act, 1970

3.5.1.1.2    New Source Performance Standards (NSPS)

3.5.1.1.3    Energy Policy Act

3.5.1.1.4    ENERGY INDEPENDENCE AND SECURITY ACT OF 2007

3.5.1.1.5    National Emission Standards for Hazardous Air Pollutants (NESHAP)

3.5.1.1.6    Industry Emission Standards

3.5.1.1.6.1    National Ambient Air Quality Standards

3.5.2    Europe

3.5.2.1    EU Directive 2010/75/EU, 2010

3.5.2.2    Emission Regulations

3.5.2.2.1.1    Emission limit values for combustion plants

3.5.2.3    Ambient Air Quality Legislations

3.5.3    Asia Pacific

3.5.3.1    China

3.5.3.1.1.1    The 13th Five-Year Plan (2016-2020)

3.5.3.2    India

3.5.3.2.1    Air (Prevention and Control of Pollution) Act

3.5.3.3    National Air Quality Monitoring Program

3.5.3.4    Industry Emission Laws

3.5.3.4.1    National Ambient Air Quality Standards, 2009

3.5.3.5    General Emission Standards

3.5.4    Middle East & Africa

3.5.4.1    South-Africa

3.5.4.2    National Environment Management: Air Quality Act 2004

3.5.4.3    National Framework for Air Quality Management

3.5.4.4    National Ambient Air Quality Standards,2009

3.5.4.5    UAE

3.6    Industry impact forces

3.6.1    Growth drivers

3.6.1.1    America & Europe

3.6.1.1.1    Increasing utilization of cogeneration technology

3.6.1.1.2    Focus on combined cycle generation

3.6.1.2    Asia Pacific, Middle East & Africa

3.6.1.2.1    Growing investment toward generating capacity expansion

3.6.1.2.2    Robust industrial sector growth

3.6.1.3    Latin America

3.6.1.3.1    Positive outlook toward non-conventional energy utilization

3.6.2    Industry pitfalls & challenges

3.6.2.1    High initial investments

3.7    COVID- 19 impact on the industry outlook

3.8    Growth potential analysis

3.9    Porter’s Analysis

3.9.1    Bargaining power of suppliers

3.9.2    Bargaining power of buyers

3.9.3    Threat of new entrants

3.9.4    Threat of substitutes

3.10    Competitive landscape, 2021

3.10.1    Strategy dashboard

3.10.1.1    Kawasaki Heavy Industries, Ltd.

3.10.1.1.1    Contract

3.10.1.1.2    Installation/supply

3.10.1.1.3    Plant expansion

3.10.1.1.4    Product expansion

3.10.1.2    Babcock & Wilcox Enterprises, Inc.

3.10.1.2.1    Installation/supply

3.10.1.3    Larsen & Toubro Limited

3.10.1.3.1    Contract

3.10.1.4    John Cockerill

3.10.1.4.1    Project development

3.10.1.4.2    Installation/supply

3.10.1.5    Mitsubishi Heavy Industries, ltd.

3.10.1.5.1    Contract

3.10.1.6    General Electric

3.10.1.6.1    Contract

3.10.1.6.2    Plant expansion

3.10.1.6.3    Business expansion

3.10.1.6.4    Installation/supply

3.10.1.7    Siemens Energy

3.10.1.7.1    Installation/supply

3.10.1.8    Sofinter S.p.a

3.10.1.8.1    Installation/supply

3.10.1.9    Thermax Limited

3.10.1.9.1    Contract

3.10.1.10    Kelvion Holding GmbH

3.10.1.10.1    Acquisition

3.11    PESTEL Analysis

Chapter 4   Heat Recovery Steam Generator Market, By Design

4.1    Heat recovery steam generator market share by design, 2021 & 2030

4.2    Horizontal drum

4.2.1    Global market from horizontal drum, 2018 – 2030

4.2.2    Global market from horizontal drum, by region, 2018 – 2030

4.3    Vertical drum

4.3.1    Global market from vertical drum, 2018 – 2030

4.3.2    Global market from vertical drum, by region, 2018 – 2030

Chapter 5   Heat Recovery Steam Generator Market, By Rated Power

5.1    Heat recovery steam generator market share by rated power, 2021 & 2030

5.2    ? 30 MW

5.2.1    Global market from ? 30 MW, 2018 – 2030

5.2.2    Global market from ? 30 MW, by region, 2018 – 2030

5.3    ? 30 – 50 MW

5.3.1    Global market from ? 30 – 50 MW, 2018 – 2030

5.3.2    Global market from ? 30 – 50 MW, by region, 2018 – 2030

5.4    ? 50 – 100 MW

5.4.1    Global market from ? 50 – 100 MW, 2018 – 2030

5.4.2    Global market from ? 50 – 100 MW, by region, 2018 – 2030

5.5    ? 100 – 200 MW

5.5.1    Global market from ? 100 – 200 MW, 2018 – 2030

5.5.2    Global market from ? 100 – 200 MW, by region, 2018 – 2030

5.6    ? 200 MW

5.6.1    Global market from ? 200 MW, 2018 – 2030

5.6.2    Global market from ? 200 MW, by region, 2018 – 2030

Chapter 6   Heat Recovery Steam Generator Market, By Mode of Operation

6.1    Heat recovery steam generator market share by mode of operation, 2021 & 2030

6.2    Cogeneration

6.2.1    Global market from cogeneration, 2018 – 2030

6.2.2    Global market from cogeneration, by region, 2018 – 2030

6.3    Combined cycle

6.3.1    Global market from combined cycle, 2018 – 2030

6.3.2    Global market from combined cycle, by region, 2018 – 2030

Chapter 7   Heat Recovery Steam Generator Market, By Application

7.1    Heat recovery steam generator market share by application, 2021 & 2030

7.2    Utilities

7.2.1    Global market from utilities, 2018 – 2030

7.2.2    Global market from utilities, by region, 2018 – 2030

7.3    Commercial

7.3.1    Global market from commercial, 2018 – 2030

7.3.2    Global market from commercial, by region, 2018 – 2030

7.4    Chemicals

7.4.1    Global market from chemicals, 2018 – 2030

7.4.2    Global market from chemicals, by region, 2018 – 2030

7.5    Refineries

7.5.1    Global market from refineries, 2018 – 2030

7.5.2    Global market from refineries, by region, 2018 – 2030

7.6    Pulp & paper

7.6.1    Global market from pulp & paper, 2018 – 2030

7.6.2    Global market from pulp & paper, by region, 2018 – 2030

7.7    Others

7.7.1    Global market from others, 2018 – 2030

7.7.2    Global market from others, by region, 2018 – 2030

Chapter 8   Heat Recovery Steam Generator Market, By Region

8.1    Heat recovery steam generator market share by region, 2021 & 2030

8.2    North America

8.2.1    North America market, 2018 – 2030

8.2.2    North America market by design, 2018 – 2030

8.2.3    North America market by rated power, 2018 – 2030

8.2.4    North America market by mode of operation, 2018 – 2030

8.2.5    North America market by application, 2018 – 2030

8.2.6    U.S.

8.2.6.1    U.S. market, 2018 – 2030

8.2.6.2    U.S. market by design, 2018 – 2030

8.2.6.3    U.S. market by rated power, 2018 – 2030

8.2.6.4    U.S. market by mode of operation, 2018 – 2030

8.2.6.5    U.S. market by application, 2018 – 2030

8.2.7    Canada

8.2.7.1    Canada market, 2018 – 2030

8.2.7.2    Canada market by design, 2018 – 2030

8.2.7.3    Canada market by rated power, 2018 – 2030

8.2.7.4    Canada market by mode of operation, 2018 – 2030

8.2.7.5    Canada market by application, 2018 – 2030

8.2.8    Mexico

8.2.8.1    Mexico market, 2018 – 2030

8.2.8.2    Mexico market by design, 2018 – 2030

8.2.8.3    Mexico market by rated power, 2018 – 2030

8.2.8.4    Mexico market by mode of operation, 2018 – 2030

8.2.8.5    Mexico market by application, 2018 – 2030

8.3    Europe

8.3.1    Europe market, 2018 – 2030

8.3.2    Europe market by design, 2018 – 2030

8.3.3    Europe market by rated power, 2018 – 2030

8.3.4    Europe market by mode of operation, 2018 – 2030

8.3.5    Europe market by application, 2018 – 2030

8.3.6    UK

8.3.6.1    UK market, 2018 – 2030

8.3.6.2    UK market by design, 2018 – 2030

8.3.6.3    UK market by rated power, 2018 – 2030

8.3.6.4    UK market by mode of operation, 2018 – 2030

8.3.6.5    UK market by application, 2018 – 2030

8.3.7    France

8.3.7.1    France market, 2018 – 2030

8.3.7.2    France market by design, 2018 – 2030

8.3.7.3    France market by rated power, 2018 – 2030

8.3.7.4    France market by mode of operation, 2018 – 2030

8.3.7.5    France market by application, 2018 – 2030

8.3.8    Russia

8.3.8.1    Russia market, 2018 – 2030

8.3.8.2    Russia market by design, 2018 – 2030

8.3.8.3    Russia market by rated power, 2018 – 2030

8.3.8.4    Russia market by mode of operation, 2018 – 2030

8.3.8.5    Russia market by application, 2018 – 2030

8.3.9    Germany

8.3.9.1    Germany market, 2018 – 2030

8.3.9.2    Germany market by design, 2018 – 2030

8.3.9.3    Germany market by rated power, 2018 – 2030

8.3.9.4    Germany market by mode of operation, 2018 – 2030

8.3.9.5    Germany market by application, 2018 – 2030

8.3.10    Denmark

8.3.10.1    Denmark market, 2018 – 2030

8.3.10.2    Denmark market by design, 2018 – 2030

8.3.10.3    Denmark market by rated power, 2018 – 2030

8.3.10.4    Denmark market by mode of operation, 2018 – 2030

8.3.10.5    Denmark market by application, 2018 – 2030

8.3.11    Sweden

8.3.11.1    Sweden market, 2018 – 2030

8.3.11.2    Sweden market by design, 2018 – 2030

8.3.11.3    Sweden market by rated power, 2018 – 2030

8.3.11.4    Sweden market by mode of operation, 2018 – 2030

8.3.11.5    Sweden market by application, 2018 – 2030

8.3.12    Italy

8.3.12.1    Italy market, 2018 – 2030

8.3.12.2    Italy market by design, 2018 – 2030

8.3.12.3    Italy market by rated power, 2018 – 2030

8.3.12.4    Italy market by mode of operation, 2018 – 2030

8.3.12.5    Italy market by application, 2018 – 2030

8.3.13    Netherlands

8.3.13.1    Netherlands market, 2018 – 2030

8.3.13.2    Netherlands market by design, 2018 – 2030

8.3.13.3    Netherlands market by rated power, 2018 – 2030

8.3.13.4    Netherlands market by mode of operation, 2018 – 2030

8.3.13.5    Netherlands market by application, 2018 – 2030

8.4    Asia Pacific

8.4.1    Asia Pacific market, 2018 – 2030

8.4.2    Asia Pacific market by design, 2018 – 2030

8.4.3    Asia Pacific market by rated power, 2018 – 2030

8.4.4    Asia Pacific market by mode of operation, 2018 – 2030

8.4.5    Asia Pacific market by application, 2018 – 2030

8.4.6    China

8.4.6.1    China market, 2018 – 2030

8.4.6.2    China market by design, 2018 – 2030

8.4.6.3    China market by rated power, 2018 – 2030

8.4.6.4    China market by mode of operation, 2018 – 2030

8.4.6.5    China market by application, 2018 – 2030

8.4.7    Japan

8.4.7.1    Japan market, 2018 – 2030

8.4.7.2    Japan market by design, 2018 – 2030

8.4.7.3    Japan market by rated power, 2018 – 2030

8.4.7.4    Japan market by mode of operation, 2018 – 2030

8.4.7.5    Japan market by application, 2018 – 2030

8.4.8    South Korea

8.4.8.1    South Korea market, 2018 – 2030

8.4.8.2    South Korea market by design, 2018 – 2030

8.4.8.3    South Korea market by rated power, 2018 – 2030

8.4.8.4    South Korea market by mode of operation, 2018 – 2030

8.4.8.5    South Korea market by application, 2018 – 2030

8.4.9    India

8.4.9.1    India market, 2018 – 2030

8.4.9.2    India market by design, 2018 – 2030

8.4.9.3    India market by rated power, 2018 – 2030

8.4.9.4    India market by mode of operation, 2018 – 2030

8.4.9.5    India market by application, 2018 – 2030

8.4.10    Australia

8.4.10.1    Australia market, 2018 – 2030

8.4.10.2    Australia market by design, 2018 – 2030

8.4.10.3    Australia market by rated power, 2018 – 2030

8.4.10.4    Australia market by mode of operation, 2018 – 2030

8.4.10.5    Australia market by application, 2018 – 2030

8.4.11    Indonesia

8.4.11.1    Indonesia market, 2018 – 2030

8.4.11.2    Indonesia market by design, 2018 – 2030

8.4.11.3    Indonesia market by rated power, 2018 – 2030

8.4.11.4    Indonesia market by mode of operation, 2018 – 2030

8.4.11.5    Indonesia market by application, 2018 – 2030

8.4.12    Singapore

8.4.12.1    Singapore market, 2018 – 2030

8.4.12.2    Singapore market by design, 2018 – 2030

8.4.12.3    Singapore market by rated power, 2018 – 2030

8.4.12.4    Singapore market by mode of operation, 2018 – 2030

8.4.12.5    Singapore market by application, 2018 – 2030

8.4.13    Malaysia

8.4.13.1    Malaysia market, 2018 – 2030

8.4.13.2    Malaysia market by design, 2018 – 2030

8.4.13.3    Malaysia market by rated power, 2018 – 2030

8.4.13.4    Malaysia market by mode of operation, 2018 – 2030

8.4.13.5    Malaysia market by application, 2018 – 2030

8.4.14    Philippines

8.4.14.1    Philippines market, 2018 – 2030

8.4.14.2    Philippines market by design, 2018 – 2030

8.4.14.3    Philippines market by rated power, 2018 – 2030

8.4.14.4    Philippines market by mode of operation, 2018 – 2030

8.4.14.5    Philippines market by application, 2018 – 2030

8.5    Middle East & Africa

8.5.1    Middle East & Africa market, 2018 – 2030

8.5.2    Middle East & Africa market by design, 2018 – 2030

8.5.3    Middle East & Africa market by rated power, 2018 – 2030

8.5.4    Middle East & Africa market by mode of operation, 2018 – 2030

8.5.5    Middle East & Africa market by application, 2018 – 2030

8.5.6    UAE

8.5.6.1    UAE market, 2018 – 2030

8.5.6.2    UAE market by design, 2018 – 2030

8.5.6.3    UAE market by rated power, 2018 – 2030

8.5.6.4    UAE market by mode of operation, 2018 – 2030

8.5.6.5    UAE market by application, 2018 – 2030

8.5.7    Saudi Arabia

8.5.7.1    Saudi Arabia market, 2018 – 2030

8.5.7.2    Saudi Arabia market by design, 2018 – 2030

8.5.7.3    Saudi Arabia market by rated power, 2018 – 2030

8.5.7.4    Saudi Arabia market by mode of operation, 2018 – 2030

8.5.7.5    Saudi Arabia market by application, 2018 – 2030

8.5.8    Qatar

8.5.8.1    Qatar market, 2018 – 2030

8.5.8.2    Qatar market by design, 2018 – 2030

8.5.8.3    Qatar market by rated power, 2018 – 2030

8.5.8.4    Qatar market by mode of operation, 2018 – 2030

8.5.8.5    Qatar market by application, 2018 – 2030

8.5.9    Oman

8.5.9.1    Oman market, 2018 – 2030

8.5.9.2    Oman market by design, 2018 – 2030

8.5.9.3    Oman market by rated power, 2018 – 2030

8.5.9.4    Oman market by mode of operation, 2018 – 2030

8.5.9.5    Oman market by application, 2018 – 2030

8.5.10    Kuwait

8.5.10.1    Kuwait market, 2018 – 2030

8.5.10.2    Kuwait market by design, 2018 – 2030

8.5.10.3    Kuwait market by rated power, 2018 – 2030

8.5.10.4    Kuwait market by mode of operation, 2018 – 2030

8.5.10.5    Kuwait market by application, 2018 – 2030

8.5.11    Egypt

8.5.11.1    Egypt market, 2018 – 2030

8.5.11.2    Egypt market by design, 2018 – 2030

8.5.11.3    Egypt market by rated power, 2018 – 2030

8.5.11.4    Egypt market by mode of operation, 2018 – 2030

8.5.11.5    Egypt market by application, 2018 – 2030

8.5.12    South Africa

8.5.12.1    South Africa market, 2018 – 2030

8.5.12.2    South Africa market by design, 2018 – 2030

8.5.12.3    South Africa market by rated power, 2018 – 2030

8.5.12.4    South Africa market by mode of operation, 2018 – 2030

8.5.12.5    South Africa market by application, 2018 – 2030

8.5.13    Nigeria

8.5.13.1    Nigeria market, 2018 – 2030

8.5.13.2    Nigeria market by design, 2018 – 2030

8.5.13.3    Nigeria market by rated power, 2018 – 2030

8.5.13.4    Nigeria market by mode of operation, 2018 – 2030

8.5.13.5    Nigeria market by application, 2018 – 2030

8.6    Latin America

8.6.1    Latin America market, 2018 – 2030

8.6.2    Latin America market by design, 2018 – 2030

8.6.3    Latin America market by rated power, 2018 – 2030

8.6.4    Latin America market by mode of operation, 2018 – 2030

8.6.5    Latin America market by application, 2018 – 2030

8.6.6    Brazil

8.6.6.1    Brazil market, 2018 – 2030

8.6.6.2    Brazil market by design, 2018 – 2030

8.6.6.3    Brazil market by rated power, 2018 – 2030

8.6.6.4    Brazil market by mode of operation, 2018 – 2030

8.6.6.5    Brazil market by application, 2018 – 2030

8.6.7    Argentina

8.6.7.1    Argentina market, 2018 – 2030

8.6.7.2    Argentina market by design, 2018 – 2030

8.6.7.3    Argentina market by rated power, 2018 – 2030

8.6.7.4    Argentina market by mode of operation, 2018 – 2030

8.6.7.5    Argentina market by application, 2018 – 2030

8.6.8    Chile

8.6.8.1    Chile market, 2018 – 2030

8.6.8.2    Chile market by design, 2018 – 2030

8.6.8.3    Chile market by rated power, 2018 – 2030

8.6.8.4    Chile market by mode of operation, 2018 – 2030

8.6.8.5    Chile market by application, 2018 – 2030

8.6.9    Peru

8.6.9.1    Peru market, 2018 – 2030

8.6.9.2    Peru market by design, 2018 – 2030

8.6.9.3    Peru market by rated power, 2018 – 2030

8.6.9.4    Peru market by mode of operation, 2018 – 2030

8.6.9.5    Peru market by application, 2018 – 2030

Chapter 9   Company Profiles

9.1    John Wood Group PLC

9.1.1    Business Overview

9.1.2    Financial Data

9.1.3    Product Landscape

9.1.4    SWOT Analysis

9.2    Kawasaki Heavy Industries, Ltd.

9.2.1    Business Overview

9.2.2    Financial Data

9.2.3    Product Landscape

9.2.4    Strategic Outlook

9.2.5    SWOT Analysis

9.3    Babcock & Wilcox Enterprises, Inc.

9.3.1    Business Overview

9.3.2    Financial Data

9.3.3    Product Landscape

9.3.4    Strategic Outlook

9.3.5    SWOT Analysis

9.4    Larsen & Toubro Limited

9.4.1    Business Overview

9.4.2    Financial Data

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Market Insights, By Design

  • Horizontal Drum
  • Vertical Drum

Market Insights, By Rated Power

  • 0 30 MW
  • >30 50 MW
  • >50 100 MW
  • >100 200 MW
  • >200 MW

Market Insights, By Mode of Operation

  • Cogeneration
  • Combined Cycle

Market Insights, By Application

  • Utilities
  • Commercial
  • Chemicals
  • Refineries
  • Pulp & Paper
  • Others

John Wood Group PLC, Kawasaki Heavy Industries, Babcock & Wilcox Enterprises, Larsen & Toubro Limited, Bharat Heavy Electricals Limited (BHEL), Cleaver-Brooks, Clayton Industries, John Cockerill, Mitsubishi Heavy Industries, General Electric, Siemens Energy, Sofinter S.p.a, Rentech Boilers, Thermax Limited, Kelvion Holding GmbH, and S.A. HAMON.

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