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A05159 | Pages: 116 | Charts: 63 | Tables: 138 |
The global geothermal power market was valued at $4.6 billion in 2018, and is projected to reach $6.8 billion by 2026, growing at a CAGR of 5.0% from 2019 to 2026. Geothermal power is a stable and independent power generation system, which uses warm vitality of the earth's magma to produce power. Geothermal power plants utilize the steam that is produced from hot water found around a mile or more below the earth's surface to rotate turbines that start a generator, which further produces electricity.
In geothermal power plants steam is used to turn large turbines, which run electrical generators. The steam comes from reservoirs of hot water found a few miles or more below the earth's surface. At a geothermal power plant location, wells are drilled 1 or 2 miles deep into the Earth to pump steam or hot water to the surface. Geothermal power is considered a clean and environmentally friendly energy source. It produces minimal greenhouse gas emissions, has a small land footprint, and does not require water for cooling like traditional power plants. The environmental benefits of geothermal power, including air pollution reduction and water conservation.
Three types of geothermal power plants are operating presently, which include binary cycle, dry steam, and flash steam. Government organizations are putting in efforts to reduce the dependency on oil for domestic energy use. To do so, several activities are explored and exploited to use renewable energy resources as an alternative energy source. For achieving this goal, the Government of Indonesia formulated a National Energy Policy, which involves guidelines for intensification, conservation, and diversification of energy.
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Source: AMR analysis
The global shift towards renewable energy sources is a significant driver for the demand for geothermal power. As countries and regions strive to reduce their dependence on fossil fuels and mitigate climate change. Developing countries are actively seeking clean and sustainable energy alternatives. Geothermal power is a renewable energy source, which offers a reliable and constant supply of electricity without greenhouse gas emissions, making it an attractive option for achieving renewable energy targets.
Countries with significant geothermal resources often prioritize the development of geothermal power to enhance energy security and reduce vulnerability to fluctuations in fossil fuel prices and geopolitical tensions. Geothermal power can provide a stable and long-term energy supply, contributing to energy independence and reducing dependence on external energy sources.
Geothermal power plants offer a level of energy independence to industrial facilities. By utilizing local geothermal resources, industries can reduce their dependence on external energy sources. Geothermal power provides a domestic and indigenous energy supply, reducing risks associated with energy supply disruptions which rise up the Geothermal power plants market share in near future.
The global geothermal power market growth is driven by implementation of stringent government regulations related to climate change in developing and developed economies. In addition, factors such as volatile fossil fuel prices, limited presence of fossil fuels, rise in greenhouse gas emission, high capacity of geothermal power, cost-effectiveness of geothermal energy, reduction in pollution by geothermal power plants, and increase in demand for energy are driving the growth of the global geothermal power market. However, huge investment required for geothermal power plants and negative impact of geothermal energy on the environment are major growth barrier for this market. Moreover, the growing market of wind & solar energy restrains the growth of this market. On the contrary, increase in government financing and continuous developing technologies in the renewable energy sector are expected to offer lucrative opportunity for marker expansion over the next five years.
The cost of geothermal power generation has become increasingly competitive compared to other forms of renewable and conventional energy sources. Advances in geothermal technology, such as improved drilling techniques and resource assessment methods, have led to cost reductions and improved efficiency of geothermal power generation. As a result, geothermal power is becoming more economically viable, attracting investments for its development in coming years.
[POWERSTATIONTYPEGRAPH]
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The impact of government regulation on the global geothermal power market is positive. These regulations encourage the use of geothermal power for meeting the needs of electricity. National Renewable Energy Act 2015 was passed in India, which aims to promote the generation of energy by reducing emissions of greenhouse gases such as CO2. Law No. 4411960 was passed in Indonesia that covers mining rights, which mandate that oil and natural gas undertakings shall only be carried out by state enterprise under government registration. This is to ensure that development of every resources is carried out to full benefit of Indonesia as mentioned in Article 33 of the Constitution year of 1945.
According to geothermal power market analysis, Supportive government policies and incentives play a crucial role in driving the demand for geothermal power. Governments often implement feed-in tariffs, tax credits, grants, and other financial incentives to promote the development of geothermal projects. Policy frameworks that prioritize renewable energy deployment, carbon reduction goals, and clean energy targets can create a favorable environment for geothermal power growth.
The availability and accessibility of geothermal resources are significant drivers for the demand for geothermal power. Regions with abundant geothermal resources, such as geologically active areas, volcanic regions, or areas with high heat flow, are more likely to prioritize geothermal power development. The resource potential and feasibility of harnessing geothermal energy in a particular area play a crucial role to drive demand for geothermal power market.
Ongoing research and development efforts are focused on improving geothermal exploration techniques, drilling technologies, reservoir modeling, and power plant efficiency. Advancements in Enhanced Geothermal Systems (EGS) and other innovative geothermal technologies hold the potential to unlock previously untapped geothermal resources, which creates geothermal power market opportunities in coming years.
Geothermal power requires access to suitable geothermal resources, typically in areas with high heat flow, geothermal reservoirs, or volcanic activity. However, not all regions have accessible or commercially viable geothermal resources. The availability of geothermal resources can be limited geographically, which can restrain the potential locations for geothermal power market growth development.
The exploration and assessment of geothermal resources can be complex and expensive. The process involves drilling and testing wells to determine the temperature, flow rate, and sustainability of the geothermal reservoir. The uncertainty associated with resource estimation and long-term reservoir performance can pose challenges for project developers and investors related to project risks and costs.
By power station type, the market is classified into dry steam power station, flash steam power station and binary cycle power station. In 2022, binary cycle power station held the maximum market share as binary cycle power station enables the development of geothermal projects in a wider range of locations, expanding the utilization of geothermal resources and increasing the overall capacity for geothermal power generation. Binary cycle power stations can utilize lower temperature geothermal resources effectively and efficiently.
[ENDUSEGRAPH]
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The global geothermal power market is segmented into power station type, end use, and region. By power station type, the market is divided into dry steam power stations, flash steam power stations, and binary cycle power stations. On the basis of end use, it is segregated into residential, commercial, industrial, and others.
The geothermal power market analysis is done region-wise across North America, Europe, Asia-Pacific, and LAMEA. Among these regions, the Asia-Pacific region is expected to witness boom during the forecast period, owing to factors such as electrification of low-income & rural communities. India is one of the key players in the renewable energy market. India reiterated its commitment toward clean energy and reduced carbon emissions. Moreover, India’s increased focus on renewable energy is outlined in the national budget that aims on increasing share of renewable energy in the total energy production. The target is to increase production to 175 GW by 2022, which is anticipated to boost the growth of the geothermal power in the Asia-Pacific region.
By end use, it is segregated into residential, commercial, industrial, and others. In 2022, industrial dominate the market as geothermal power plants have higher energy conversion efficiency compared to many other forms of power generation. Geothermal power can achieve high thermal efficiency by utilizing the heat energy from the geothermal fluid directly to generate electricity for industrial application.By region, the market is classified into North America, Europe, Asia-Pacific and LAMEA
[REGIONGRAPH]
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Key players operating in the global geothermal power industry are Enel Green Power S.p.A., Ormat Technologies Inc., Kenya Pertamina Geothermal Energy, Electricity Generating Company PLC, Calpine Corporation, Aboitiz Power Corporation, Energy Development Corporation, Fuji Electric Co. Ltd., Toshiba Energy Systems & Solutions Corporation, Mitsubishi Gas Chemical Company Inc., and others.
These players have acquired various strategies such as acquisitions, partnerships, collaboration, joint ventures, agreements, expansions, and new product launches to gain strong consumer base and increase their geothermal power market share globally. In an instance, Japanese utility Electric Power Development Co., Ltd. announced the beginning of commercial operations at a 46.2-MW geothermal power plant in Japan’s Akita region. J-Power, Mitsubishi Materials Corporation, and Mitsubishi Gas Chemical Company Inc. partnered to build Wasabizawa Geothermal Power Plant.
On August 2019, Enel Green Power and ENAP decided to enter into joint venture to build a third generation unit of 33 MW at the geothermal power plant Cerro Pabellón. The overall geothermal plant will be able to generate 600 GWh per year, avoiding the emission of around 468,000 tons of CO2 into the atmosphere. This development helped the company to fulfil the increase in demand for power.
On November 2021, Pertamina Geothermal Energy (PGE) has planned to expand its installed geothermal power plant capacity in order to provide greater contribution to the reduction of greenhouse gas emissions in Indonesia, and support achieving the sustainable development goals (SDGs) on climate action, through implementing Environmental, Social, & Governance (ESG) based programs.
The impact of Russia and Ukraine on the geothermal power market size is relatively limited. Both countries have significant fossil fuel resources, particularly natural gas, and their energy sectors are predominantly focused on conventional sources. Geothermal power development in Russia and Ukraine has been relatively modest compared to other regions. However, geopolitical tensions or changes in energy policies in these countries could potentially impact the growth of geothermal power. Geothermal power markets are more influenced by factors such as renewable energy targets, resource potential and technological advancements.
The slowdown of economies can have both positive and negative impacts on the geothermal power market. Economic downturns may lead to reduced energy demand and investment, which could temporarily slow down the development of geothermal projects. Financial constraints and uncertainty make it challenging to secure funding for new ventures.
Key Market Segments
Key Market Players
CHAPTER 1: INTRODUCTION
1.1. Report description
1.2. Key benefits for stakeholders:
1.3. Key market segments
1.4. Research methodology
1.4.1. Primary research
1.4.2. Secondary research
1.4.3. Analyst tools and models
CHAPTER 2: EXECUTIVE SUMMARY
2.1. Key findings
2.1.1. Top investment pockets
2.2. CXO perspective
CHAPTER 3: MARKET OVERVIEW
3.1. Market definition and scope
3.2. Key forces shaping geothermal power market
3.3. Market evolution/industry roadmap
3.4. Impact of government regulations on the global geothermal power market
3.5. Patent analysis
3.5.1. By region, 2012–2017
3.6. Case study
3.7. Market dynamics
3.7.1. Drivers
3.7.1.1. Rise in demand for renewable energy
3.7.1.2. Rise in electricity consumption
3.7.2. Restraint
3.7.2.1. High cost for establishment of geothermal power plant
3.7.3. Opportunity
3.7.3.1. Potential growth opportunities offered by emerging economies
CHAPTER 4: GEOTHERMAL POWER MARKET, BY POWER STATION TYPE
4.1. Overview
4.2. Dry steam power stations
4.2.1. Key market trends, growth factors, and opportunities
4.2.2. Market size and forecast, by region
4.2.3. Market analysis by country
4.3. Flash steam power stations
4.3.1. Key market trends, growth factors, and opportunities
4.3.2. Market size and forecast, by region
4.3.3. Market analysis by country
4.4. Binary cycle power stations
4.4.1. Key market trends, growth factors, and opportunities
4.4.2. Market size and forecast, by region
4.4.3. Market analysis by country
CHAPTER 5: GEOTHERMAL POWER MARKET, BY END USE
5.1. Overview
5.2. Residential
5.2.1. Market size and forecast, by region
5.2.2. Market analysis by country
5.3. Commercial
5.3.1. Market size and forecast, by region
5.3.2. Market analysis by country
5.4. Industrial
5.4.1. Market size and forecast, by region
5.4.2. Market analysis by country
5.5. Others
5.5.1. Market size and forecast, by region
5.5.2. Market analysis by country
CHAPTER 6: GEOTHERMAL POWER MARKET, BY REGION
6.1. Overview
6.2. North America
6.2.1. Key market trends, growth factors, and opportunities
6.2.2. Market size and forecast, by power station type
6.2.3. Market size and forecast, by end use
6.2.4. Market analysis by country
6.2.4.1. U.S.
6.2.4.1.1. Market size and forecast, by power station type
6.2.4.1.2. Market size and forecast, by end use
6.2.4.2. Canada
6.2.4.2.1. Market size and forecast, by power station type
6.2.4.2.2. Market size and forecast, by end use
6.3. Europe
6.3.1. Key market trends, growth factors, and opportunities
6.3.2. Market size and forecast, by power station type
6.3.3. Market size and forecast, by end use
6.3.4. Market analysis by country
6.3.4.1. France
6.3.4.1.1. Market size and forecast, by power station type
6.3.4.1.2. Market size and forecast, by end use
6.3.4.2. Germany
6.3.4.2.1. Market size and forecast, by power station type
6.3.4.2.2. Market size and forecast, by end use
6.3.4.3. Iceland
6.3.4.3.1. Market size and forecast, by power station type
6.3.4.3.2. Market size and forecast, by end use
6.3.4.4. Italy
6.3.4.4.1. Market size and forecast, by power station type
6.3.4.4.2. Market size and forecast, by end use
6.3.4.5. Portugal
6.3.4.5.1. Market size and forecast, by power station type
6.3.4.5.2. Market size and forecast, by end use
6.3.4.6. Rest of Europe
6.3.4.6.1. Market size and forecast, by power station type
6.3.4.6.2. Market size and forecast, by end use
6.4. Asia-Pacific
6.4.1. Key market trends, growth factors, and opportunities
6.4.2. Market size and forecast, by power station type
6.4.3. Market size and forecast, by end use
6.4.4. Market analysis by country
6.4.4.1. Indonesia
6.4.4.1.1. Market size and forecast, by power station type
6.4.4.1.2. Market size and forecast, by end use
6.4.4.2. Japan
6.4.4.2.1. Market size and forecast, by power station type
6.4.4.2.2. Market size and forecast, by end use
6.4.4.3. Philippines
6.4.4.3.1. Market size and forecast, by power station type
6.4.4.3.2. Market size and forecast, by end use
6.4.4.4. Rest of Asia-Pacific
6.4.4.4.1. Market size and forecast, by power station type
6.4.4.4.2. Market size and forecast, by end use
6.5. LAMEA
6.5.1. Key market trends, growth factors, and opportunities
6.5.2. Market size and forecast, by power station type
6.5.3. Market size and forecast, by end use
6.5.4. Market analysis by country
6.5.4.1. Chile
6.5.4.1.1. Market size and forecast, by power station type
6.5.4.1.2. Market size and forecast, by end use
6.5.4.2. Turkey
6.5.4.2.1. Market size and forecast, by power station type
6.5.4.2.2. Market size and forecast, by end use
6.5.4.3. Kenya
6.5.4.3.1. Market size and forecast, by power station type
6.5.4.3.2. Market size and forecast, by end use
6.5.4.4. Rest of LAMEA
6.5.4.4.1. Market size and forecast, by power station type
6.5.4.4.2. Market size and forecast, by end use
CHAPTER 7: COMPETITIVE LANDSCAPE
7.1. Introduction
7.1.1. MARKET PLAYER POSITIONING, 2018
7.2. Competitive Heatmap
CHAPTER 8: COMPANY PROFILES
8.1. ABB
8.1.1. Company overview
8.1.2. Company snapshot
8.1.3. Operating business segments
8.1.4. Product portfolio
8.1.5. R&D expenditure
8.1.6. Business performance
8.2. EDF
8.2.1. Company overview
8.2.2. Company snapshot
8.2.3. Operating business segments
8.2.4. Plant Portfolio
8.2.5. Business performance
8.3. ENEL SPA
8.3.1. Company overview
8.3.2. Company snapshot
8.3.3. Plant Portfolio
8.3.4. Business performance
8.4. GENERAL ELECTRIC
8.4.1. Company overview
8.4.2. Company snapshot
8.4.3. Operating business segments
8.4.4. Plant portfolio
8.4.5. R&D expenditure
8.4.6. Business performance
8.5. THE TATA POWER COMPANY LIMITED (TATA POWER)
8.5.1. Company overview
8.5.2. Company snapshot
8.5.3. Operating business segments
8.5.4. Plant portfolio
8.5.5. Business performance
8.6. Mitsubishi Hitachi Power Systems Inc.
8.6.1. Company overview
8.6.2. Company snapshot
8.6.3. Plant portfolio
8.7. TOSHIBA CORPORATION
8.7.1. Company overview
8.7.2. Company snapshot
8.7.3. Operating business segments
8.7.4. Plant portfolio
8.7.5. Business performance
8.8. Korea Electric Power Corporation
8.8.1. Company overview
8.8.2. Company snapshot
8.8.3. Operating business segments
8.8.4. Plant portfolio
8.8.5. Business performance
8.9. Siemens AG
8.9.1. Company overview
8.9.2. Company snapshot
8.9.3. Operating business segments
8.9.4. Product portfolio
8.9.5. Business performance
8.10. Yokogawa Electric Corporation
8.10.1. Company overview
8.10.2. Company snapshot
8.10.3. Operating business segments
8.10.4. Product portfolio
8.10.5. Business performance
8.11. Other key player profiles
8.11.1. Key player snapshot
LIST OF TABLES
TABLE 01. GLOBAL GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018-2026 ($MILLION)
TABLE 02. GLOBAL GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018-2026 (GWH)
TABLE 03. DRY STEAM POWER STATIONS MARKET REVENUE, BY REGION, 2018–2026 ($MILLION)
TABLE 04. GEOTHERMAL POWER MARKET REVENUE FOR DRY STEAM POWER STATIONS, BY REGION, 2018–2026 (GWH)
TABLE 05. FLASH STEAM POWER STATIONS MARKET REVENUE FOR, BY REGION, 2018–2026 ($MILLION)
TABLE 06. FLASH STEAM POWER STATIONS MARKET REVENUE FOR, BY REGION, 2018–2026 (GWH)
TABLE 07. BINARY CYCLE POWER STATIONS MARKET REVENUE FOR, BY REGION, 2018–2026 ($MILLION)
TABLE 08. BINARY CYCLE POWER STATIONS MARKET REVENUE FOR, BY REGION, 2018–2026 (GWH)
TABLE 09. GLOBAL GEOTHERMAL POWER MARKET, BY END USE, 2018-2026 ($MILLION)
TABLE 10. GLOBAL GEOTHERMAL POWER MARKET, BY END USE, 2018-2026 (GWH)
TABLE 11. GEOTHERMAL POWER MARKET REVENUE FOR RESIDENTIAL SECTOR, BY REGION, 2018–2026 ($MILLION)
TABLE 12. GEOTHERMAL POWER MARKET REVENUE FOR RESIDENTIAL SECTOR, BY REGION, 2018–2026 (GWH)
TABLE 13. GEOTHERMAL POWER MARKET REVENUE FOR COMMERCIAL SECTOR , BY REGION, 2018–2026 ($MILLION)
TABLE 14. GEOTHERMAL POWER MARKET REVENUE FOR COMMERCIAL SECTOR , BY REGION, 2018–2026 (GWH)
TABLE 15. GEOTHERMAL POWER MARKET REVENUE FOR INDUSTRIAL SECTOR, BY REGION, 2018–2026 ($MILLION)
TABLE 16. GEOTHERMAL POWER MARKET REVENUE FOR INDUSTRIAL SECTOR, BY REGION, 2018–2026 (GWH)
TABLE 17. GEOTHERMAL POWER MARKET REVENUE FOR OTHER, BY REGION, 2018–2026 ($MILLION)
TABLE 18. GEOTHERMAL POWER MARKET REVENUE FOR OTHER, BY REGION, 2018–2026 (GWH)
TABLE 19. GLOBAL GEOTHERMAL POWER MARKET REVENUE, 2019–2026 ($MILLION)
TABLE 20. GLOBAL GEOTHERMAL POWER MARKET REVENUE, 2019–2026 (GWH)
TABLE 21. NORTH AMERICA GEOTHERMAL POWER MARKET REVENUE, BY POWER STATION TYPE, 2019–2026 ($MILLION)
TABLE 22. NORTH AMERICA GEOTHERMAL POWER MARKET REVENUE, BY POWER STATION TYPE, 2019–2026 (GWH)
TABLE 23. NORTH AMERICA GEOTHERMAL POWER MARKET REVENUE, BY END USE, 2019–2026 ($MILLION)
TABLE 24. NORTH AMERICA GEOTHERMAL POWER MARKET REVENUE, BY END USE, 2019–2026 (GWH)
TABLE 25. NORTH AMERICA GEOTHERMAL POWER MARKET REVENUE, BY COUNTRY, 2019–2026 ($MILLION)
TABLE 26. NORTH AMERICA GEOTHERMAL POWER MARKET REVENUE, BY COUNTRY, 2019–2026 (GWH)
TABLE 27. US GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 ($MILLION)
TABLE 28. US GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 (GWH)
TABLE 29. US GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 ($MILLION)
TABLE 30. US GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 (GWH)
TABLE 31. CANADA GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 ($MILLION)
TABLE 32. CANADA GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 (GWH)
TABLE 33. CANADA GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 ($MILLION)
TABLE 34. CANADA GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 (GWH)
TABLE 35. EUROPE GEOTHERMAL POWER MARKET REVENUE, BY POWER STATION TYPE, 2019–2026 ($MILLION)
TABLE 36. EUROPE GEOTHERMAL POWER MARKET REVENUE, BY POWER STATION TYPE, 2019–2026 (GWH)
TABLE 37. EUROPE GEOTHERMAL POWER MARKET REVENUE, BY END USE, 2019–2026 ($MILLION)
TABLE 38. EUROPE GEOTHERMAL POWER MARKET REVENUE, BY END USE, 2019–2026 (GWH)
TABLE 39. EUROPE GEOTHERMAL POWER MARKET REVENUE, BY COUNTRY, 2019–2026 ($MILLION)
TABLE 40. EUROPE GEOTHERMAL POWER MARKET REVENUE, BY COUNTRY, 2019–2026 (GWH)
TABLE 41. FRANCE GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 ($MILLION)
TABLE 42. FRANCE GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 (GWH)
TABLE 43. FRANCE GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 ($MILLION)
TABLE 44. FRANCE GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 (GWH)
TABLE 45. GERMANY GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 ($MILLION)
TABLE 46. GERMANY GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 (GWH)
TABLE 47. GERMANY GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 ($MILLION)
TABLE 48. GERMANY GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 (GWH)
TABLE 49. ICELAND GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 ($MILLION)
TABLE 50. ICELAND GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 (GWH)
TABLE 51. ICELAND GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 ($MILLION)
TABLE 52. ICELAND GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 (GWH)
TABLE 53. ITALY GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 ($MILLION)
TABLE 54. ITALY GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 (GWH)
TABLE 55. ITALY GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 ($MILLION)
TABLE 56. ITALY GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 (GWH)
TABLE 57. PORTUGAL GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 ($MILLION)
TABLE 58. PORTUGAL GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 (GWH)
TABLE 59. PORTUGAL GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 ($MILLION)
TABLE 60. PORTUGAL GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 (GWH)
TABLE 61. REST OF EUROPE GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 ($MILLION)
TABLE 62. REST OF EUROPE GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 (GWH)
TABLE 63. REST OF EUROPE GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 ($MILLION)
TABLE 64. REST OF EUROPE GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 (GWH)
TABLE 65. ASIA-PACIFIC GEOTHERMAL POWER MARKET REVENUE, BY POWER STATION TYPE, 2019–2026 ($MILLION)
TABLE 66. ASIA-PACIFIC GEOTHERMAL POWER MARKET REVENUE, BY POWER STATION TYPE, 2019–2026 (GWH)
TABLE 67. ASIA-PACIFIC GEOTHERMAL POWER MARKET VALUE, BY END USE, 2019–2026 ($MILLION)
TABLE 68. ASIA-PACIFIC GEOTHERMAL POWER MARKET VALUE, BY END USE, 2019–2026 (GWH)
TABLE 69. ASIA-PACIFIC GEOTHERMAL POWER MARKET VALUE, BY COUNTRY, 2019–2026 ($MILLION)
TABLE 70. ASIA-PACIFIC GEOTHERMAL POWER MARKET VALUE, BY COUNTRY, 2019–2026 (GWH)
TABLE 71. INDONESIA GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 ($MILLION)
TABLE 72. INDONESIA GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 (GWH)
TABLE 73. INDONESIA GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 ($MILLION)
TABLE 74. INDONESIA GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 (GWH)
TABLE 75. JAPAN GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 ($MILLION)
TABLE 76. JAPAN GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 (GWH)
TABLE 77. JAPAN GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 ($MILLION)
TABLE 78. JAPAN GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 (GWH)
TABLE 79. PHILIPPINES GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 ($MILLION)
TABLE 80. PHILIPPINES GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 (GWH)
TABLE 81. PHILIPPINES GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 ($MILLION)
TABLE 82. PHILIPPINES GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 (GWH)
TABLE 83. REST OF ASIA-PACIFIC GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 ($MILLION)
TABLE 84. REST OF ASIA-PACIFIC GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 (GWH)
TABLE 85. REST OF ASIA-PACIFIC GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 ($MILLION)
TABLE 86. REST OF ASIA-PACIFIC GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 (GWH)
TABLE 87. LAMEA GEOTHERMAL POWER MARKET REVENUE, BY POWER STATION TYPE, 2019–2026 ($MILLION)
TABLE 88. LAMEA GEOTHERMAL POWER MARKET REVENUE, BY POWER STATION TYPE, 2019–2026 (GWH)
TABLE 89. LAMEA GEOTHERMAL POWER MARKET VALUE, BY END USE, 2019–2026 ($MILLION)
TABLE 90. LAMEA GEOTHERMAL POWER MARKET VALUE, BY END USE, 2019–2026 (GWH)
TABLE 91. LAMEA GEOTHERMAL POWER MARKET VALUE, BY COUNTRY, 2019–2026 ($MILLION)
TABLE 92. LAMEA GEOTHERMAL POWER MARKET VALUE, BY COUNTRY, 2019–2026 (GWH)
TABLE 93. CHILE GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 ($MILLION)
TABLE 94. CHILE GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 (GWH)
TABLE 95. CHILE GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 ($MILLION)
TABLE 96. CHILE GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 (GWH)
TABLE 97. TURKEY GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 ($MILLION)
TABLE 98. TURKEY GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 (GWH)
TABLE 99. TURKEY GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 ($MILLION)
TABLE 100. TURKEY GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 (GWH)
TABLE 101. KENYA GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 ($MILLION)
TABLE 102. KENYA GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 (GWH)
TABLE 103. KENYA GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 ($MILLION)
TABLE 104. KENYA GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 (GWH)
TABLE 105. REST OF LAMEA GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 ($MILLION)
TABLE 106. REST OF LAMEA GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018–2026 (GWH)
TABLE 107. REST OF LAMEA GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 ($MILLION)
TABLE 108. REST OF LAMEA GEOTHERMAL POWER MARKET, BY END USE, 2018–2026 (GWH)
TABLE 109. ABB: COMPANY SNAPSHOT
TABLE 110. ABB: OPERATING SEGMENTS
TABLE 111. ABB: PRODUCT PORTFOLIO
TABLE 112. EDF ENERGY: COMPANY SNAPSHOT
TABLE 113. EDF ENERGY: OPERATING SEGMENTS
TABLE 114. EDF ENERGY: PLANT PORTFOLIO
TABLE 115. ENEL: COMPANY SNAPSHOT
TABLE 116. ENEL: PLANT PORTFOLIO
TABLE 117. GENERAL ELECTRIC: COMPANY SNAPSHOT
TABLE 118. GENERAL ELECTRIC: OPERATING SEGMENTS
TABLE 119. GENERAL ELECTRIC: PRODUCT PORTFOLIO
TABLE 120. TATA POWER: COMPANY SNAPSHOT
TABLE 121. TATA POWER: OPERATING SEGMENTS
TABLE 122. TATA POWER: PRODUCT PORTFOLIO
TABLE 123. MITSUBISHI HITACHI POWER SYSTEMS INC.: COMPANY SNAPSHOT
TABLE 124. MITSUBISHI HITACHI POWER SYSTEMS INC.: PLANT PORTFOLIO
TABLE 125. TOSHIBA CORPORATION: COMPANY SNAPSHOT
TABLE 126. TOSHIBA CORPORATION: OPERATING SEGMENTS
TABLE 127. TOSHIBA CORPORATION: PLANT PORTFOLIO
TABLE 128. KEPCO: COMPANY SNAPSHOT
TABLE 129. KEPCO: OPERATING SEGMENTS
TABLE 130. KEPCO: PLANT PORTFOLIO
TABLE 131. SIEMENS AG: COMPANY SNAPSHOT
TABLE 132. SIEMENS AG: OPERATING SEGMENTS
TABLE 133. SIEMENS AG: PRODUCT PORTFOLIO
TABLE 134. OVERALL FINANCIAL STATUS ($MILLION)
TABLE 135. YOKOGAWA ELECTRIC: COMPANY SNAPSHOT
TABLE 136. YOKOGAWA ELECTRIC: OPERATING SEGMENTS
TABLE 137. YOKOGAWA ELECTRIC: PRODUCT PORTFOLIO
TABLE 138. OVERALL FINANCIAL STATUS ($MILLION)
LIST OF FIGURES
FIGURE 01. KEY MARKET SEGMENTS
FIGURE 02. EXECUTIVE SUMMARY
FIGURE 03. TOP INVESTMENT POCKETS
FIGURE 04. HIGH BARGAINING POWER OF SUPPLIERS
FIGURE 05. HIGH THREAT OF NEW ENTRANTS
FIGURE 06. HIGH THREAT OF SUBSTITUTES
FIGURE 07. MODERATE COMPETITIVE RIVALRY
FIGURE 08. MODERATE BARGAINING POWER OF BUYERS
FIGURE 09. PATENT ANALYSIS, BY REGION
FIGURE 10. GLOBAL GEOTHERMAL POWER MARKET DYNAMICS
FIGURE 11. GLOBAL GEOTHERMAL POWER MARKET, BY POWER STATION TYPE, 2018 & 2026
FIGURE 12. COMPARATIVE ANALYSIS OF DRY STEAM POWER STATIONS MARKET, BY COUNTRY, 2018 VS 2026 ($ MILLION)
FIGURE 13. COMPARATIVE ANALYSIS OF FLASH STEAM POWER STATIONS MARKET, BY COUNTRY, 2018 & 2026 ($MILLION)
FIGURE 14. COMPARATIVE ANALYSIS OF BINARY CYCLE POWER STATIONS MARKET, BY COUNTRY, 2018 & 2026 ($MILLION)
FIGURE 15. GLOBAL GEOTHERMAL POWER MARKET, BY END USE, 2018 & 2026
FIGURE 16. COMPARATIVE ANALYSIS OF RESIDENTIAL GEOTHERMAL POWER MARKET, BY COUNTRY, 2018 VS 2026 ($MILLION)
FIGURE 17. COMPARATIVE ANALYSIS OF COMMERCIAL MARKET, BY COUNTRY, 2018 VS 2026 ($MILLION)
FIGURE 18. COMPARATIVE ANALYSIS OF INDUSTRIAL MARKET, BY COUNTRY, 2018 VS 2026 ($MILLION)
FIGURE 19. COMPARATIVE ANALYSIS OF OTHER MARKET, BY COUNTRY, 2018 VS 2026 ($MILLION)
FIGURE 20. US GEOTHERMAL POWER MARKET REVENUE, 2018-2026 ($MILLION)
FIGURE 21. CANADA GEOTHERMAL POWER MARKET REVENUE, 2018-2026 ($MILLION)
FIGURE 22. FRANCE GEOTHERMAL POWER MARKET REVENUE, 2018-2026 ($MILLION)
FIGURE 23. GERMANY GEOTHERMAL POWER MARKET REVENUE, 2018-2026 ($MILLION)
FIGURE 24. ICELAND GEOTHERMAL POWER MARKET REVENUE, 2018-2026 ($MILLION)
FIGURE 25. ITALY GEOTHERMAL POWER MARKET REVENUE, 2018-2026 ($MILLION)
FIGURE 26. PORTUGAL GEOTHERMAL POWER MARKET REVENUE, 2018-2026 ($MILLION)
FIGURE 27. REST OF EUROPE GEOTHERMAL POWER MARKET REVENUE, 2018-2026 ($MILLION)
FIGURE 28. INDONESIA GEOTHERMAL POWER MARKET REVENUE, 2018-2026 ($MILLION)
FIGURE 29. JAPAN GEOTHERMAL POWER MARKET REVENUE, 2018-2026 ($MILLION)
FIGURE 30. PHILIPPINES GEOTHERMAL POWER MARKET REVENUE, 2018-2026 ($MILLION)
FIGURE 31. REST OF ASIA-PACIFIC GEOTHERMAL POWER MARKET REVENUE, 2018-2026 ($MILLION)
FIGURE 32. CHILE GEOTHERMAL POWER MARKET REVENUE, 2018-2026 ($MILLION)
FIGURE 33. TURKEY GEOTHERMAL POWER MARKET REVENUE, 2018-2026 ($MILLION)
FIGURE 34. KENYA GEOTHERMAL POWER MARKET REVENUE, 2018-2026 ($MILLION)
FIGURE 35. REST OF LAMEA GEOTHERMAL POWER MARKET REVENUE, 2018-2026 ($MILLION)
FIGURE 36. MARKET PLAYER POSITIONING, 2018
FIGURE 37. COMPETITIVE HEATMAP OF KEY PLAYERS
FIGURE 38. ABB: R&D EXPENDITURE, 2016–2018 ($MILLION)
FIGURE 39. ABB: REVENUE, 2016–2018 ($MILLION)
FIGURE 40. ABB: REVENUE SHARE BY SEGMENT, 2018 (%)
FIGURE 41. ABB: REVENUE SHARE BY REGION, 2018 (%)
FIGURE 42. EDF ENERGY: REVENUE, 2016–2018 ($MILLION)
FIGURE 43. EDF ENERGY: REVENUE SHARE BY SEGMENT, 2018 (%)
FIGURE 44. ENEL: REVENUE, 2016–2018 ($MILLION)
FIGURE 45. ENEL: REVENUE SHARE BY REGION, 2018 (%)
FIGURE 46. GENERAL ELECTRIC: R&D EXPENDITURE, 2016–2018 ($MILLION)
FIGURE 47. GENERAL ELECTRIC: REVENUE, 2016–2018 ($MILLION)
FIGURE 48. GENERAL ELECTRIC: REVENUE SHARE BY SEGMENT, 2018 (%)
FIGURE 49. GENERAL ELECTRIC: REVENUE SHARE BY REGION, 2018 (%)
FIGURE 50. TATA POWER: NET SALES, 2015–2017 ($MILLION)
FIGURE 51. TATA POWER: REVENUE SHARE BY SEGMENT, 2017 (%)
FIGURE 52. TATA POWER: REVENUE SHARE BY REGION, 2017 (%)
FIGURE 53. TOSHIBA CORPORATION: NET SALES, 2017–2019 ($MILLION)
FIGURE 54. TOSHIBA CORPORATION: REVENUE SHARE BY SEGMENT, 2019 (%)
FIGURE 55. TOSHIBA CORPORATION: REVENUE SHARE BY REGION, 2019 (%)
FIGURE 56. KEPCO: REVENUE, 2015–2017 ($MILLION)
FIGURE 57. KEPCO: REVENUE SHARE BY SEGMENT, 2017 (%)
FIGURE 58. SIEMENS AG: REVENUE, 2016–2018 ($MILLION)
FIGURE 59. SIEMENS AG: REVENUE SHARE BY SEGMENT, 2018 (%)
FIGURE 60. SIEMENS AG: REVENUE SHARE BY REGION, 2018 (%)
FIGURE 61. YOKOGAWA ELECTRIC: REVENUE, 2016–2018 ($MILLION)
FIGURE 62. YOKOGAWA ELECTRIC: REVENUE SHARE BY SEGMENT, 2018 (%)
FIGURE 63. YOKOGAWA ELECTRIC: REVENUE SHARE BY REGION, 2018 (%)