“Global Gas Turbine Upgrades for Performance Enhancement Market by Turbine Cycle Type (Simple Cycle & Combined Cycle), by Upgrade Type (Comprehensive Upgrade, Hot Section Coating, Comprehensive Upgrade, Compressor Coating, Inlet Air Fogging, Evaporative Cooling, Fogging, Inlet Chilling and Others) and by Region – Industry Analysis, Size, Share, Growth, Trends and Forecast 2019 – 2026”

Global Gas Turbine Upgrades for Performance Enhancement Market size is expected to reach US$ 18.33 Bn by 2026, at a CAGR of 7.1% during the forecast period. Looking at global scenario, gas turbines are the most widely used power generating technology, in today’s era. A gas turbine is a type of combustion engine which can convert flammable natural gas or other liquid fuels to mechanical energy. It utilizes hot gases produced from the combustion of air-fuel mixtures to rotate turbine blades and produce energy. Energy generated from gas turbine then drives a generator that can produce electrical energy. A gas turbine is a combustion engine which can be used for generating power. Gas turbines can be operated through various fuels like, fuel oil, natural gas & synthetic fuel. The major driving forces for gas turbine upgrades for performance enhancement market are carbon emission norms with regards to gas turbine for emitting minimum toxics, automation and digitalization, cost-effective operations & high operating speed, growing infrastructural expansion, and many others, which are illustrated in report. To know about the Research Methodology:-Request Free Sample Report For analyzing the market globally, we have considered globe as different regions as North America, Europe, Asia Pacific and LAMEA. Out of which, Asia Pacific holds the maximum share in the Gas Turbine Upgrades for Performance Enhancement Market. Asia Pacific is the region with the maximum share of more than 32.5% over the globe and keeping the trend continue with CAGR 8.1% for the coming years.Europe also holds a good market share in the global market. Which also supposed to experience the growth, in the forecasted period with the CAGR of 6.4%. The report study has analyzed revenue impact of covid-19 pandemic on the sales revenue of market leaders, market followers and disrupters in the report and same is reflected in our analysis.

Global Gas Turbine Upgrades for Performance Enhancement Market by Segmentation:

For better & deep understanding of global gas turbine upgrades for performance enhancement market, Maximize Market Research has studied the market by segmenting it, by upgrade type, by turbine cycle, and by region. All segments have been analyzed here on present and future scenarios. The report consists of regional analysis as North America, Europe, Asia Pacific, Latin America, and Middle East & Africa, which includes current and forecasted demand of gas turbine upgrades for performance enhancement market. The report also covers demand for individual end-user segments in all the regions.

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Global Gas Turbine Upgrades for Performance Enhancement Market By Turbine Cycle:

 Simple Cycle  Combined Cycle

Global Gas Turbine Upgrades for Performance Enhancement Market By Upgrade type:

 Comprehensive Upgrade  Hot Section Coating  Compressor Coating  Inlet Air Fogging  Evaporative Cooling  Fogging  Inlet Chilling  Others

Global Gas Turbine Upgrades for Performance Enhancement Market Region wise Market Analysis & Forecast:

The report covers a geographic breakdown and a detailed analysis of each of the before said segments across North America, Europe, Asia Pacific, and LAMEA, and each countries under it – • North America  U.S.  Canada  Mexico • Europe  Germany  France  UK  Italy  Spain  Rest of Europe • Asia Pacific  Japan  China  India  Rest of Asia-Pacific • LAMEA  Latin America  Middle East  Africa

Global Gas Turbine Upgrades for Performance Enhancement Market Competitive Dynamics:

The need for renewable sources of energy and continuous requirement of power generation, the need for innovations in existing gas turbines has registered a remarkable urgency. The major players in the market are anticipated to make profit & benefit the industry by coming up with strategic alliances with global players in the gas turbine upgrades for performance enhancement market. The study provides detail discussion on profiles of major companies in the global gas turbine upgrades for performance enhancement market.

Global Gas Turbine Upgrades for Performance Enhancement Market Company Profiles –

The Key players in the gas turbine upgrades for performance enhancement market, are: • General Electric, • Mitsubishi Heavy Industries, Ltd., • Siemens AG, • Stellar Energy, • Mee Industries Inc., • ENRGISTX, • Araner • Integrated Turbine Systems • Centrax • Dresser-Rand • BandB-AGEMA • EthosEnergy Abu Dhabi LLC • JASC Corporation • Hitachi, Ltd. Details – Basic Overview, Geographical Presence is illustrated in report.

Global Gas Turbine Upgrades for Performance Enhancement Market

1. Preface 1.1. Report Scope and Market Segmentation 1.2. Research Highlights 1.3. Research Objectives 2. Assumptions and Research Methodology 2.1. Report Assumptions 2.2. Abbreviations 2.3. Research Methodology 2.3.1. Secondary Research 2.3.1.1. Secondary data 2.3.1.2. Secondary Sources 2.3.2. Primary Research 2.3.2.1. Data from Primary Sources 2.3.2.2. Breakdown of Primary Sources 3. Executive Summary: Global Gas Turbine Upgrades for Performance Enhancement Market Size, by Market Value (US$ Bn) and Volume (Units) 4. Market Overview 4.1. Introduction 4.2. Market Indicator 4.2.1. Drivers 4.2.2. Restraints 4.2.3. Opportunities 4.2.4. Challenges 4.3. Porter’s Analysis 4.4. Value Chain Analysis 4.5. Market Risk Analysis 4.6. SWOT Analysis 4.7. Industry Trends and Emerging Technologies 4.8. Patent Registration 5. Supply Side and Demand Side Indicator 6. Global Gas Turbine Upgrades for Performance Enhancement Market Analysis and Forecast 6.1. Global Gas Turbine Upgrades for Performance Enhancement Market Size & Y-o-Y Growth Analysis 6.1.1. North America 6.1.2. Europe 6.1.3. Asia Pacific 6.1.4. Middle East & Africa 6.1.5. South America 7. Global Gas Turbine Upgrades for Performance Enhancement Market Analysis and Forecast, By Turbine Cycle 7.1. Introduction and Definition 7.2. Key Findings 7.3. Global Gas Turbine Upgrades for Performance Enhancement Market Value Share Analysis, By Turbine Cycle 7.4. Global Gas Turbine Upgrades for Performance Enhancement Market Size (US$ Bn) Forecast, By Turbine Cycle 7.5. Global Gas Turbine Upgrades for Performance Enhancement Market Analysis, By Turbine Cycle 7.6. Global Gas Turbine Upgrades for Performance Enhancement Market Attractiveness Analysis, By Turbine Cycle 8. Global Gas Turbine Upgrades for Performance Enhancement Market Analysis and Forecast, By Upgrade type 8.1. Introduction and Definition 8.2. Key Findings 8.3. Global Gas Turbine Upgrades for Performance Enhancement Market Value Share Analysis, By Upgrade type 8.4. Global Gas Turbine Upgrades for Performance Enhancement Market Size (US$ Bn) Forecast, By Upgrade type 8.5. Global Gas Turbine Upgrades for Performance Enhancement Market Analysis, By Upgrade type 8.6. Global Gas Turbine Upgrades for Performance Enhancement Market Attractiveness Analysis, By Upgrade type 9. Global Gas Turbine Upgrades for Performance Enhancement Market Analysis, by Region 9.1. Global Gas Turbine Upgrades for Performance Enhancement Market Value Share Analysis, by Region 9.2. Global Gas Turbine Upgrades for Performance Enhancement Market Size (US$ Bn) Forecast, by Region 9.3. Global Gas Turbine Upgrades for Performance Enhancement Market Attractiveness Analysis, by Region 10. North America Gas Turbine Upgrades for Performance Enhancement Market Analysis 10.1. Key Findings 10.2. North America Gas Turbine Upgrades for Performance Enhancement Market Overview 10.3. North America Gas Turbine Upgrades for Performance Enhancement Market Value Share Analysis, By Turbine Cycle 10.4. North America Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Turbine Cycle 10.4.1. Simple Cycle 10.4.2. Combined Cycle 10.5. North America Gas Turbine Upgrades for Performance Enhancement Market Value Share Analysis, By Upgrade type 10.6. North America Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Upgrade type 10.6.1. Comprehensive Upgrade 10.6.2. Hot Section Coating 10.6.3. Compressor Coating 10.6.4. Inlet Air Fogging 10.6.5. Evaporative Cooling 10.6.6. Fogging 10.6.7. Inlet Chilling 10.6.8. Others 10.7. North America Gas Turbine Upgrades for Performance Enhancement Market Value Share Analysis, by Country 10.8. North America Gas Turbine Upgrades for Performance Enhancement Market Forecast, by Country 10.8.1. U.S. 10.8.2. Canada 10.9. North America Gas Turbine Upgrades for Performance Enhancement Market Analysis, by Country 10.10. U.S. Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Turbine Cycle 10.10.1. Simple Cycle 10.10.2. Combined Cycle 10.11. U.S. Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Upgrade type 10.11.1. Comprehensive Upgrade 10.11.2. Hot Section Coating 10.11.3. Compressor Coating 10.11.4. Inlet Air Fogging 10.11.5. Evaporative Cooling 10.11.6. Fogging 10.11.7. Inlet Chilling 10.12. Others Canada Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Turbine Cycle 10.12.1. Simple Cycle 10.12.2. Combined Cycle 10.13. Canada Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Upgrade type 10.13.1. Comprehensive Upgrade 10.13.2. Hot Section Coating 10.13.3. Compressor Coating 10.13.4. Inlet Air Fogging 10.13.5. Evaporative Cooling 10.13.6. Fogging 10.13.7. Inlet Chilling 10.14. Others North America Gas Turbine Upgrades for Performance Enhancement Market Attractiveness Analysis 10.14.1. By Turbine Cycle 10.14.2. By Upgrade type 10.15. PEST Analysis 10.16. Key Trends 10.17. Key Development 11. Europe Gas Turbine Upgrades for Performance Enhancement Market Analysis 11.1. Key Findings 11.2. Europe Gas Turbine Upgrades for Performance Enhancement Market Overview 11.3. Europe Gas Turbine Upgrades for Performance Enhancement Market Value Share Analysis, By Turbine Cycle 11.4. Europe Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Turbine Cycle 11.4.1. Simple Cycle 11.4.2. Combined Cycle 11.5. Europe Gas Turbine Upgrades for Performance Enhancement Market Value Share Analysis, By Upgrade type 11.6. Europe Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Upgrade type 11.6.1. Comprehensive Upgrade 11.6.2. Hot Section Coating 11.6.3. Compressor Coating 11.6.4. Inlet Air Fogging 11.6.5. Evaporative Cooling 11.6.6. Fogging 11.6.7. Inlet Chilling 11.7. Others Europe Gas Turbine Upgrades for Performance Enhancement Market Value Share Analysis, by Country 11.8. Europe Gas Turbine Upgrades for Performance Enhancement Market Forecast, by Country 11.8.1. Germany 11.8.2. U.K. 11.8.3. France 11.8.4. Italy 11.8.5. Spain 11.8.6. Rest of Europe 11.9. Europe Gas Turbine Upgrades for Performance Enhancement Market Analysis, by Country 11.10. Germany Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Turbine Cycle 11.10.1. Simple Cycle 11.10.2. Combined Cycle 11.11. Germany Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Upgrade type 11.11.1. Comprehensive Upgrade 11.11.2. Hot Section Coating 11.11.3. Compressor Coating 11.11.4. Inlet Air Fogging 11.11.5. Evaporative Cooling 11.11.6. Fogging 11.11.7. Inlet Chilling 11.12. Others U.K. Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Turbine Cycle 11.12.1. Simple Cycle 11.12.2. Combined Cycle 11.13. U.K. Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Upgrade type 11.13.1. Comprehensive Upgrade 11.13.2. Hot Section Coating 11.13.3. Compressor Coating 11.13.4. Inlet Air Fogging 11.13.5. Evaporative Cooling 11.13.6. Fogging 11.13.7. Inlet Chilling 11.14. Others France Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Turbine Cycle 11.14.1. Simple Cycle 11.14.2. Combined Cycle 11.15. France Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Upgrade type 11.15.1. Comprehensive Upgrade 11.15.2. Hot Section Coating 11.15.3. Compressor Coating 11.15.4. Inlet Air Fogging 11.15.5. Evaporative Cooling 11.15.6. Fogging 11.15.7. Inlet Chilling 11.16. Others Italy Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Turbine Cycle 11.16.1. Simple Cycle 11.16.2. Combined Cycle 11.17. Italy Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Upgrade type 11.17.1. Comprehensive Upgrade 11.17.2. Hot Section Coating 11.17.3. Compressor Coating 11.17.4. Inlet Air Fogging 11.17.5. Evaporative Cooling 11.17.6. Fogging 11.17.7. Inlet Chilling 11.18. Others Spain Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Turbine Cycle 11.18.1. Simple Cycle 11.18.2. Combined Cycle 11.19. Spain Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Upgrade type 11.19.1. Comprehensive Upgrade 11.19.2. Hot Section Coating 11.19.3. Compressor Coating 11.19.4. Inlet Air Fogging 11.19.5. Evaporative Cooling 11.19.6. Fogging 11.19.7. Inlet Chilling 11.20. Others Rest of Europe Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Turbine Cycle 11.20.1. Simple Cycle 11.20.2. Combined Cycle 11.21. Rest of Europe Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Upgrade type 11.21.1. Comprehensive Upgrade 11.21.2. Hot Section Coating 11.21.3. Compressor Coating 11.21.4. Inlet Air Fogging 11.21.5. Evaporative Cooling 11.21.6. Fogging 11.21.7. Inlet Chilling 11.22. Others Europe Gas Turbine Upgrades for Performance Enhancement Market Attractiveness Analysis 11.22.1. By Turbine Cycle 11.22.2. By Upgrade type 11.23. PEST Analysis 11.24. Key Trend 11.25. Key Development 12. Asia Pacific Gas Turbine Upgrades for Performance Enhancement Market Analysis 12.1. Key Findings 12.2. Asia Pacific Gas Turbine Upgrades for Performance Enhancement Market Overview 12.3. Asia Pacific Gas Turbine Upgrades for Performance Enhancement Market Value Share Analysis, By Turbine Cycle 12.4. Asia Pacific Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Turbine Cycle 12.4.1. Simple Cycle 12.4.2. Combined Cycle 12.5. Asia Pacific Gas Turbine Upgrades for Performance Enhancement Market Value Share Analysis, By Upgrade type 12.6. Asia Pacific Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Upgrade type 12.6.1. Comprehensive Upgrade 12.6.2. Hot Section Coating 12.6.3. Compressor Coating 12.6.4. Inlet Air Fogging 12.6.5. Evaporative Cooling 12.6.6. Fogging 12.6.7. Inlet Chilling 12.7. Others Asia Pacific Gas Turbine Upgrades for Performance Enhancement Market Value Share Analysis, by Country 12.8. Asia Pacific Gas Turbine Upgrades for Performance Enhancement Market Forecast, by Country 12.8.1. China 12.8.2. India 12.8.3. Japan 12.8.4. ASEAN 12.8.5. Rest of Asia Pacific 12.9. Asia Pacific Gas Turbine Upgrades for Performance Enhancement Market Analysis, by Country 12.10. China Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Turbine Cycle 12.10.1. Simple Cycle 12.10.2. Combined Cycle 12.11. China Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Upgrade type 12.11.1. Comprehensive Upgrade 12.11.2. Hot Section Coating 12.11.3. Compressor Coating 12.11.4. Inlet Air Fogging 12.11.5. Evaporative Cooling 12.11.6. Fogging 12.11.7. Inlet Chilling 12.11.8. Others 12.12. India Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Turbine Cycle 12.12.1. Simple Cycle 12.12.2. Combined Cycle 12.13. India Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Upgrade type 12.13.1. Comprehensive Upgrade 12.13.2. Hot Section Coating 12.13.3. Compressor Coating 12.13.4. Inlet Air Fogging 12.13.5. Evaporative Cooling 12.13.6. Fogging 12.13.7. Inlet Chilling 12.13.8. Others 12.14. Japan Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Turbine Cycle 12.14.1. Simple Cycle 12.14.2. Combined Cycle 12.15. Japan Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Upgrade type 12.15.1. Comprehensive Upgrade 12.15.2. Hot Section Coating 12.15.3. Compressor Coating 12.15.4. Inlet Air Fogging 12.15.5. Evaporative Cooling 12.15.6. Fogging 12.15.7. Inlet Chilling 12.16. Others Others ASEAN Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Turbine Cycle 12.16.1. Simple Cycle 12.16.2. Combined Cycle 12.17. ASEAN Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Upgrade type 12.17.1. Comprehensive Upgrade 12.17.2. Hot Section Coating 12.17.3. Compressor Coating 12.17.4. Inlet Air Fogging 12.17.5. Evaporative Cooling 12.17.6. Fogging 12.17.7. Inlet Chilling 12.18. Others Rest of Asia Pacific Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Turbine Cycle 12.18.1. Simple Cycle 12.18.2. Combined Cycle 12.19. Rest of Asia Pacific Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Upgrade type 12.19.1. Comprehensive Upgrade 12.19.2. Hot Section Coating 12.19.3. Compressor Coating 12.19.4. Inlet Air Fogging 12.19.5. Evaporative Cooling 12.19.6. Fogging 12.19.7. Inlet Chilling 12.20. Others Asia Pacific Gas Turbine Upgrades for Performance Enhancement Market Attractiveness Analysis 12.20.1. By Turbine Cycle 12.20.2. By Upgrade type 12.21. PEST Analysis 12.22. Key Trend 12.23. Key Development 13. Middle East & Africa Gas Turbine Upgrades for Performance Enhancement Market Analysis 13.1. Key Findings 13.2. Middle East & Africa Gas Turbine Upgrades for Performance Enhancement Market Overview 13.3. Middle East & Africa Gas Turbine Upgrades for Performance Enhancement Market Value Share Analysis, By Turbine Cycle 13.4. Middle East & Africa Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Turbine Cycle 13.4.1. Simple Cycle 13.4.2. Combined Cycle 13.5. Middle East & Africa Gas Turbine Upgrades for Performance Enhancement Market Value Share Analysis, By Upgrade type 13.6. Middle East & Africa Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Upgrade type 13.6.1. Comprehensive Upgrade 13.6.2. Hot Section Coating 13.6.3. Compressor Coating 13.6.4. Inlet Air Fogging 13.6.5. Evaporative Cooling 13.6.6. Fogging 13.6.7. Inlet Chilling 13.7. Others Middle East & Africa Gas Turbine Upgrades for Performance Enhancement Market Value Share Analysis, by Country 13.8. Middle East & Africa Gas Turbine Upgrades for Performance Enhancement Market Forecast, by Country 13.8.1. GCC 13.8.2. South Africa 13.8.3. Rest of Middle East & Africa 13.9. Middle East & Africa Gas Turbine Upgrades for Performance Enhancement Market Analysis, by Country 13.10. GCC Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Turbine Cycle 13.10.1. Simple Cycle 13.10.2. Combined Cycle 13.11. GCC Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Upgrade type 13.11.1. Comprehensive Upgrade 13.11.2. Hot Section Coating 13.11.3. Compressor Coating 13.11.4. Inlet Air Fogging 13.11.5. Evaporative Cooling 13.11.6. Fogging 13.11.7. Inlet Chilling 13.11.8. Others 13.12. South Africa Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Turbine Cycle 13.12.1. Simple Cycle 13.12.2. Combined Cycle 13.13. South Africa Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Upgrade type 13.13.1. Comprehensive Upgrade 13.13.2. Hot Section Coating 13.13.3. Compressor Coating 13.13.4. Inlet Air Fogging 13.13.5. Evaporative Cooling 13.13.6. Fogging 13.13.7. Inlet Chilling 13.14. Others Rest of Middle East & Africa Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Turbine Cycle 13.14.1. Simple Cycle 13.14.2. Combined Cycle 13.15. Rest of Middle East & Africa Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Upgrade type 13.15.1. Comprehensive Upgrade 13.15.2. Hot Section Coating 13.15.3. Compressor Coating 13.15.4. Inlet Air Fogging 13.15.5. Evaporative Cooling 13.15.6. Fogging 13.15.7. Inlet Chilling 13.16. Others Middle East & Africa Gas Turbine Upgrades for Performance Enhancement Market Attractiveness Analysis 13.16.1. By Turbine Cycle 13.16.2. By Upgrade type 13.17. PEST Analysis 13.18. Key Trend 13.19. Key Development 14. South America Gas Turbine Upgrades for Performance Enhancement Market Analysis 14.1. Key Findings 14.2. South America Gas Turbine Upgrades for Performance Enhancement Market Overview 14.3. South America Gas Turbine Upgrades for Performance Enhancement Market Value Share Analysis, By Turbine Cycle 14.4. South America Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Turbine Cycle 14.4.1. Simple Cycle 14.4.2. Combined Cycle 14.5. Cytokine Immunotherapy (IL-2)South America Gas Turbine Upgrades for Performance Enhancement Market Value Share Analysis, By Upgrade type 14.6. South America Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Upgrade type 14.6.1. Comprehensive Upgrade 14.6.2. Hot Section Coating 14.6.3. Compressor Coating 14.6.4. Inlet Air Fogging 14.6.5. Evaporative Cooling 14.6.6. Fogging 14.6.7. Inlet Chilling 14.7. Others South America Gas Turbine Upgrades for Performance Enhancement Market Value Share Analysis, by Country 14.8. South America Gas Turbine Upgrades for Performance Enhancement Market Forecast, by Country 14.8.1. Brazil 14.8.2. Mexico 14.8.3. Rest of South America 14.9. Brazil Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Turbine Cycle 14.9.1. Simple Cycle 14.9.2. Combined Cycle 14.10. Brazil Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Upgrade type 14.10.1. Comprehensive Upgrade 14.10.2. Hot Section Coating 14.10.3. Compressor Coating 14.10.4. Inlet Air Fogging 14.10.5. Evaporative Cooling 14.10.6. Fogging 14.10.7. Inlet Chilling 14.11. Others Mexico Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Turbine Cycle 14.11.1. Simple Cycle 14.11.2. Combined Cycle 14.12. Mexico Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Upgrade type 14.12.1. Comprehensive Upgrade 14.12.2. Hot Section Coating 14.12.3. Compressor Coating 14.12.4. Inlet Air Fogging 14.12.5. Evaporative Cooling 14.12.6. Fogging 14.12.7. Inlet Chilling 14.13. Others Rest of South America Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Turbine Cycle 14.13.1. Simple Cycle 14.13.2. Combined Cycle 14.14. Rest of South America Gas Turbine Upgrades for Performance Enhancement Market Forecast, By Upgrade type 14.14.1. Comprehensive Upgrade 14.14.2. Hot Section Coating 14.14.3. Compressor Coating 14.14.4. Inlet Air Fogging 14.14.5. Evaporative Cooling 14.14.6. Fogging 14.14.7. Inlet Chilling 14.14.8. Others) 14.15. South America Gas Turbine Upgrades for Performance Enhancement Market Attractiveness Analysis 14.15.1. By Turbine Cycle 14.15.2. By Upgrade type 14.16. PEST Analysis 14.17. Key Trend 14.18. Key Development 15. Company Profiles 15.1. Market Share Analysis, by Company 15.2. Competition Matrix 15.2.1. Competitive Benchmarking of key players by price, presence, market share, Applications and R&D investment 15.2.2. New Product Launches and Product Enhancements 15.2.3. Market Consolidation 15.2.3.1. M&A by Regions, Investment and Applications 15.2.3.2. M&A Key Players, Forward Integration and Backward Integration 15.3. Company Profiles: Key Players 15.3.1. General Electric 15.3.1.1. Company Overview 15.3.1.2. Financial Overview 15.3.1.3. Product Portfolio 15.3.1.4. Business Strategy 15.3.1.5. Recent Developments 15.3.1.6. Company Footprint 15.3.2. Mitsubishi Heavy Industries, Ltd., 15.3.3. Siemens AG, 15.3.4. Stellar Energy, 15.3.5. Mee Industries Inc., 15.3.6. ENRGISTX, 15.3.7. Araner 15.3.8. Integrated Turbine Systems 15.3.9. Centrax 15.3.10. Dresser-Rand 15.3.11. BandB-AGEMA 15.3.12. EthosEnergy Abu Dhabi LLC 15.3.13. JASC Corporation 15.3.14. Hitachi, Ltd.

About This Report

Report ID 40454
Category Automation & Process Control
Published Date Dec 2019
Updated Date Oct 2020
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