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市場調査レポート

地熱発電の世界市場 2016-2026年:ドライスチーム・フラッシュスチーム・バイナリーサイクル・フラッシュバイナリー技術のCAPEX・OPEX・設備発電容量

Geothermal Power Market 2016-2026: Capex, Opex & Capacity Forecasts for Dry Steam, Flash Steam, Binary Cycle and Flash-Binary Technologies

発行 Visiongain Ltd 商品コード 244855
出版日 ページ情報 英文 235 Pages
納期: 即日から翌営業日
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地熱発電の世界市場 2016-2026年:ドライスチーム・フラッシュスチーム・バイナリーサイクル・フラッシュバイナリー技術のCAPEX・OPEX・設備発電容量 Geothermal Power Market 2016-2026: Capex, Opex & Capacity Forecasts for Dry Steam, Flash Steam, Binary Cycle and Flash-Binary Technologies
出版日: 2016年01月25日 ページ情報: 英文 235 Pages
概要

地熱発電への投資は世界的な温暖化やエネルギー安全保障に関する懸念から推進されています。また、初期の探鉱・掘削には比較的大きなリスクがあるものの、税制優遇や土地利用認可などの支援政策がさらなる開発を後押ししています。2016年における地熱発電開発へのCAPEXおよびOPEXは合計で79億9000万ドルと予測されています。2015年においては世界の25カ国が電力源として地熱を利用しており、現在では75カ国が地熱開発の実行をプランニングしています。

当レポートでは、世界の地熱発電の市場を調査し、および地熱直接利用を含めた地熱エネルギー市場の現状と見通しについて調査分析し、地熱発電の各種技術の概要、地熱発電市場への各種影響因子の分析、技術・主要国別のCAPEX&OPEX、設備発電容量の推移と予測、PEST分析、専門家の見解、主要機器サプライヤーのプロファイル、将来の展望と提言などをまとめています。

第1章 レポート概要

第2章 地熱エネルギー市場:イントロダクション

  • 地熱エネルギーの歴史
    • 地熱発電所技術
      • 主流技術
        • ドライスチーム発電所
        • フラッシュスチーム発電所
        • バイナリーサイクル発電所
        • フラッシュバイナリー発電所
      • その他の技術
        • 高温岩体地熱発電 (EGS:Enhanced Geothermal System)
        • 併産(co-production)
        • ハイブリッド発電
  • 地熱発電所の発展
  • 過去・現在の地熱利用

第3章 世界の地熱発電市場の予測

  • 世界の地熱発電市場の予測
    • CAPEX & OPEX
    • 設備発電容量
  • 市場力学
  • 環境因子
    • 大気汚染
    • サイトでの化学物質
    • 土壌への影響
    • 水への影響
    • 騒音
    • 環境評価と認可
  • 容量上の制約
  • 既存の地熱発電所のリスト

第4章 世界の地熱発電市場の予測:技術別

  • 技術別市場の予測
  • 過去の地熱発電の分析:技術別
  • バイナリーサイクル技術
    • CAPEX & OPEX
    • 設備発電容量
  • フラッシュバイナリー技術
    • CAPEX & OPEX
    • 設備発電容量
  • フラッシュスチーム技術
    • CAPEX & OPEX
    • 設備発電容量
  • ドライスチーム技術
    • CAPEX & OPEX
    • 設備発電容量
  • その他の技術
    • CAPEX & OPEX
    • 設備発電容量

第5章 世界の地熱発電市場の予測:主要国別

  • 米国
  • フィリピン
  • インドネシア
  • イタリア
  • メキシコ
  • ニュージーランド
  • アイスランド
  • ケニア
  • 日本
  • トルコ
  • その他の地域
    • これまでの設備発電容量の推移
    • CAPEX&OPEXの予測
    • 設備発電容量の予測
    • 開発動向

第6章 PEST分析

第7章 専門家の見解

  • Kalahari GeoEnergy Ltd
  • AltaRock Energy

第8章 主要機器サプライヤー

  • 三菱重工業 (MHI)
  • Ormat
  • 東芝
  • 富士電機
  • Ansaldo Energia
  • General Electric
  • Tas Energy
  • Alstom
    • 概要
    • 分析
    • 将来の展望

第9章 総論・提言

  • 市場の展望
  • 主要調査結果
  • 提言

図表

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目次
Product Code: ENE0048

Geothermal power investments are driven by pressing concerns over global warming and energy security. There are significant risks involved with initial exploration and drilling, but favourable regulatory environments - including tax incentives and land permits - can do much to facilitate further developments in the sector. Besides from being a clean and renewable energy source with a low levelised cost of electricity, geothermal power is also suitable for base load electricity generation and thus has the potential to become the backbone of local grid systems.

Visiongain forecasts that capital expenditure (capex) and operational expenditure (opex) on geothermal power developments will total $7.99bn in 2016. In 2015 there were 25 countries using geothermal sources to generate electricity. Currently there are 75 countries that are planning to carry out geothermal developments in the foreseeable future.

The report will answer questions such as:

  • How is the geothermal power market evolving?
  • What is driving and restraining the geothermal power market?
  • What are the market shares of the power plant types and leading national producers in the overall geothermal power market in 2016?
  • How will each geothermal power submarket segment grow over the forecast period and how much capex and opex will these submarkets account for in 2026?
  • How will the market shares for each geothermal power submarket develop from 2016-2026?
  • How will political and regulatory factors influence the leading national markets and technology submarkets?
  • Will leading national geothermal power producers broadly follow macroeconomic dynamics, or will individual country sectors outperform the rest of the economy?
  • How will the market shares of the national markets change by 2026 and which geographic region will lead the market up to this year?
  • Who are the leading players and what are their prospects over the forecast period?
  • What are the growth potentials for existing players and the prospects for new market entrants?

Five reasons why you must order and read this report today:

1. The report provides opex, capex and capacity forecasts from 2016 to 2026, plus analysis, for 10 national markets and the rest of the world, providing unique insight into geothermal power industry developments:

  • The USA
  • Philippines
  • Indonesia
  • Italy
  • Mexico
  • New Zealand
  • Iceland
  • Kenya
  • Japan
  • Turkey
  • Rest of the World

2. The report also offers opex, capex and capacity forecasts from 2016 to 2026 for 5 geothermal power plant types:

  • Dry steam
  • Flash steam
  • Flash-binary
  • Binary cycle
  • Other technologies

3. Expert opinion from Kalahari Geoenergy CEO Peter Vivian-Neal and AltaRock Energy President Susan Petty is provided, reflecting on:

  • Global geothermal developments
  • Geothermal developments in the US
  • Geothermal developments in Kenya
  • Project financing
  • The future of different power plant technologies

4. Tables and analysis detail the top 8 geothermal equipment suppliers, including their existing market shares:

  • Mitsubishi Heavy Industries
  • Ormat
  • Toshiba
  • Fuji Electric
  • Ansaldo Energia
  • General Electric
  • Tas Energy
  • Alstom

5. Existing and future geothermal installed capacity is heavily analysed:

  • Market share by power plant type
  • Market share by national market
  • List of existing geothermal power plants
  • List of announced geothermal projects

Don't miss out

This report is essential reading for anyone in the global geothermal market. Purchasing this report today will help you to recognise those important market opportunities and understand the possibilities that are out there. Order the Global Geothermal Power Market 2016-2026 now. We look forward to receiving your order.

visiongain is a trading partner with the US Federal Government.

Table of Contents

1. Report Overview

  • 1.1. Global Geothermal Power Market Overview
  • 1.2. Global Geothermal Power Market Segmentation
  • 1.3. Market Definition
  • 1.4. Methodology
  • 1.5. Key Questions Answered by This Analytical Report
  • 1.6. Why You Should Read This Report
  • 1.7. How This Report Delivers
  • 1.8. Frequently Asked Questions (FAQ)
  • 1.9. Associated Visiongain Reports
  • 1.10. About Visiongain

2. Introduction to the Global Geothermal Power Market

  • 2.1. History of Geothermal Energy
  • 2.2. Geothermal Power Plant Technologies
    • 2.2.1. Mainstream Geothermal Power Plant Technologies
      • 2.2.1.1. Dry Steam Power Plants
      • 2.2.1.2. Flash Steam Power Plants
      • 2.2.1.3. Binary Cycle Power Plants
      • 2.2.1.4. Flash-binary Power Plants
    • 2.2.2. Other Technologies
      • 2.2.2.1. Enhanced Geothermal Systems (EGS)
      • 2.2.2.2. Co-production
      • 2.2.2.3. Hybrid Generation
  • 2.3. Geothermal Power Plant Development
  • 2.4. Historical and Current Geothermal Power Usage

3. Global Geothermal Power Market Forecast 2016-2026

  • 3.1. Forecast of Global Geothermal Power Market 2016-2026
    • 3.1.1. Global Geothermal Power CAPEX & OPEX Forecast 2016-2026
    • 3.1.2. Global Geothermal Power Capacity Forecast 2016-2026
  • 3.2. Geothermal Power Market Dynamics
  • 3.3. Environmental Factors and the Geothermal Market
    • 3.3.1. Air Pollution
    • 3.3.2. On-Site Chemicals
    • 3.3.3. Land Impacts
    • 3.3.4. Water Impacts
    • 3.3.5. Noise Impacts
    • 3.3.6. Environmental Assessment and Permitting
  • 3.4. Geographical Limitations on Geothermal Capacity
  • 3.5. List of Existing Geothermal Power Plants

4. Technology Geothermal Power Market Forecasts 2016-2026

  • 4.1. Forecast of the Technology Geothermal Power Market 2016-2026
  • 4.2. Analysis of Historical Geothermal Production by Technology
  • 4.3. Binary Cycle Technology
    • 4.3.1. Binary Cycle Geothermal Power CAPEX & OPEX Forecast 2016-2026
    • 4.3.2. Binary Cycle Geothermal Power Capacity Forecast 2016-2026
  • 4.4. Flash-Binary Technology
    • 4.4.1. Flash-Binary Geothermal Power CAPEX & OPEX Forecast 2016-2026
    • 4.4.2. Flash-Binary Geothermal Power Capacity Forecast 2016-2026
  • 4.5. Flash Steam Technology
    • 4.5.1. Flash Steam Geothermal Power CAPEX & OPEX Forecast 2016-2026
    • 4.5.2. Flash Steam Geothermal Power Capacity Forecast 2016-2026
  • 4.6. Dry Steam Technology
    • 4.6.1. Dry Steam Geothermal Power CAPEX & OPEX Forecast 2016-2026
    • 4.6.2. Dry Steam Geothermal Power Capacity Forecast 2016-2026
  • 4.7. Other Technologies
    • 4.7.1. Other Technologies Geothermal Power OPEX & CAPEX Forecast 2016-2026
    • 4.7.2. Other Technologies Geothermal Power Capacity Forecast 2016-2026

5. Country Geothermal Power Market Forecasts 2016-2026

  • 5.1. The USA
    • 5.1.1. Analysis of Historical US Geothermal Power Production
    • 5.1.2. US Geothermal Power CAPEX & OPEX Forecast 2016-2026
    • 5.1.3. US Geothermal Power Capacity Forecast 2016-2026
    • 5.1.4. List of Announced US Geothermal Developments
  • 5.2. The Philippines
    • 5.2.1. Analysis of Historical Philippine Geothermal Power Production
    • 5.2.2. Philippine Geothermal Power CAPEX & OPEX Forecast 2016-2026
    • 5.2.3. Philippine Geothermal Power Capacity Forecast 2016-2026
    • 5.2.4. List of Announced Philippine Geothermal Developments
  • 5.3. Indonesia
    • 5.3.1. Analysis of Historical Indonesian Geothermal Power Production
    • 5.3.2. Indonesian Geothermal Power CAPEX & OPEX Forecast 2016-2016
    • 5.3.3. Indonesian Geothermal Power Capacity Forecast 2016-2016
    • 5.3.4. List of Announced Indonesian Geothermal Developments
  • 5.4. Italy
    • 5.4.1. Analysis of Historical Italian Geothermal Power Production
    • 5.4.2. Italian Geothermal Power CAPEX & OPEX Forecast 2016-2026
    • 5.4.3. Italian Geothermal Power Capacity Forecast 2016-2026
    • 5.4.4. List of Announced Italian Geothermal Power Developments
  • 5.5. Mexico
    • 5.5.1. Analysis of Historical Mexican Geothermal Power Production
    • 5.5.2. Mexican Geothermal Power CAPEX & OPEX Forecast 2016-2026
    • 5.5.3. Mexican Geothermal Power Capacity Forecast 2016-2026
    • 5.5.4. List of Announced Mexican Geothermal Power Developments
  • 5.6. New Zealand
    • 5.6.1. Analysis of Historical New Zealand Geothermal Production
    • 5.6.2. New Zealand Geothermal Power CAPEX & OPEX Forecast 2016-2026
    • 5.6.3. New Zealand Geothermal Power Capacity Forecast 2016-2026
    • 5.6.4. List of Announced New Zealand Geothermal Power Developments
  • 5.7. Iceland
    • 5.7.1. Analysis of Historical Icelandic Geothermal Production
    • 5.7.2. Icelandic Geothermal Power CAPEX & OPEX Forecast 2016-2026
    • 5.7.3. Icelandic Geothermal Power Capacity Forecast 2016-2026
    • 5.7.4. List of Announced Icelandic Geothermal Power Developments
  • 5.8. Kenya
    • 5.8.1. Analysis of Historical Kenyan Geothermal Power Production
    • 5.8.2. Kenyan Geothermal Power CAPEX & OPEX Forecast 2016-2026
    • 5.8.3. Kenyan Geothermal Power Capacity Forecast 2016-2026
    • 5.8.4. List of Announced Kenyan Geothermal Power Developments
  • 5.9. Japan
    • 5.9.1. Analysis of Historical Japanese Geothermal Power Production
    • 5.9.2. Japanese Geothermal Power CAPEX & OPEX Forecast 2016-2026
    • 5.9.3. Japanese Geothermal Power Capacity Forecast 2016-2026
    • 5.9.4. List of Announced Japanese Geothermal Developments
  • 5.10. Turkey
    • 5.10.1. Analysis of Historical Turkish Geothermal Production
    • 5.10.2. Turkish Geothermal Power CAPEX & OPEX Forecast 2016-2026
    • 5.10.3. Turkish Geothermal Power Capacity Forecast 2016-2026
    • 5.10.4. List of Announced Turkish Geothermal Developments
  • 5.11. Rest of the World
    • 5.11.1. Analysis of Historical RoW Geothermal Power Production
    • 5.11.2. RoW Geothermal Power CAPEX & OPEX Forecast 2016-2026
    • 5.11.3. RoW Geothermal Power Capacity Forecast 2016-2026
    • 5.11.4. List of Announced RoW Geothermal Developments

6. PEST Analysis

7. Expert Opinion

  • 7.1. Kalahari GeoEnergy Ltd
    • 7.1.1. Introduction
    • 7.1.2. The Overall Future of Geothermal Energy
    • 7.1.3. Main Drivers and Challenges of the Geothermal Market
    • 7.1.4. Geothermal Energy in Africa
    • 7.1.5. Geothermal Power Plant Technologies
  • 7.2. AltaRock Energy
    • 7.2.1. Introduction
    • 7.2.2. Growth in the US
    • 7.2.3. Private Investments
    • 7.2.4. Future Outlook for Enhanced Geothermal Systems
    • 7.2.5. Land Permissions in the US
    • 7.2.6. Future Outlook for the US Geothermal Power Sector

8. Leading Global Geothermal Equipment Suppliers

  • 8.1. Mitsubishi Heavy Industries (MHI)
    • 8.1.1. MHI Overview
    • 8.1.2. Analysis of MHI
    • 8.1.3. Future Outlook for MHI
  • 8.2. Ormat
    • 8.2.1. Ormat Overview
    • 8.2.2. Analysis of Ormat
    • 8.2.3. Future Outlook for Ormat
  • 8.3. Toshiba Corporation
    • 8.3.1. Toshiba Overview
    • 8.3.2. Analysis of Toshiba
    • 8.3.3. Future outlook for Toshiba
  • 8.4. Fuji Electric
    • 8.4.1. Fuji Electric Overlook
    • 8.4.2. Analysis of Fuji Electric
    • 8.4.3. Future Outlook for Fuji Electric
  • 8.5. Ansaldo Energia
    • 8.5.1. Ansaldo Energia Overview
    • 8.5.2. Analysis of Ansaldo Energia
    • 8.5.3. Future Outlook for Ansaldo Energia
  • 8.6. General Electric
    • 8.6.1. General Electric Overview
    • 8.6.2. Analysis of General Electric
    • 8.6.3. Future Outlook for General Electric
  • 8.7. Tas Energy
    • 8.7.1. Overview of Tas Energy
    • 8.7.2. Analysis of Tas Energy
    • 8.7.3. Future Outlook for Tas Energy
  • 8.8. Alstom
    • 8.8.1. Alstom Overview
    • 8.8.2. Analysis for Alstom
    • 8.8.3. Future Outlook for Alstom

9. Conclusions & Recommendations

  • 9.1. Market Outlook
  • 9.2. Key Findings
  • 9.3. Recommendations

List of Tables

  • Table 1.1: Example Global Geothermal Power Market Forecast 2016-2026, CAPEX ($mn), OPEX ($mn), CAPACITY (MW), AGR (%), CAGR (%)
  • Table 2.1: Layers of the Earth, Corresponding Temperature (°C), Depth (km) and Share in Volume of Earth (%)
  • Table 2.2: Types and Temperatures (°C) of Geothermal Sources
  • Table 2.3: Types of Geothermal Power Plants, Basic Methodology, Example, Description
  • Table 2.4: Phases of Geothermal Projects, Portion of Total Cost (%), Years
  • Table 3.1: Global Geothermal Power Market Total Spending Forecast 2016-2026, $mn, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 3.2: Global Geothermal Power Market Capacity Additions Forecast 2016-2026, MW, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 3.3: Contribution of Top 10 Geothermal Power Producers and Rest of the World to Total Spending ($mn), 2016-2026
  • Table 3.4: List of Existing Geothermal Power Plants 1911-2015
  • Table 4.1: Contribution of Geothermal Power Technologies to Total Spending ($mn), 2016-2026
  • Table 4.2: Binary Cycle Geothermal Power Market Total Spending Forecast 2016-2026, $mn, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 4.3: Binary Cycle Geothermal Power Market Capacity Forecast 2016-2026, MW, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 4.4: Flash-binary Geothermal Power Market Total Spending Forecast 2016-2026, $mn, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 4.5: Flash-binary Geothermal Power Market Capacity Forecast 2016-2026, MW, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 4.6: Flash Steam Geothermal Power Market Total Spending Forecast 2016-2026, $mn, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 4.7: Flash Steam Geothermal Power Market Capacity Forecast 2016-2026, MW, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 4.8: Dry Steam Geothermal Power Market Total Spending Forecast 2016-2026, $mn, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 4.9: Dry Steam Geothermal Power Market Capacity Forecast 2016-2026, MW, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 4.10: Other Geothermal Power Market Total Spending Forecast 2016-2026, $mn, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 4.11: Other Geothermal Power Market Capacity Forecast 2016-2026, MW, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 5.1: US Geothermal Power Market Total Spending Forecast 2016-2026, $mn, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 5.2: US Geothermal Power Market Capacity Forecast 2016-2026, MW, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 5.3: List of Announced US Geothermal Developments
  • Table 5.4: Philippine Geothermal Power Market Total Spending Forecast 2016-2026, $mn, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 5.5: Philippine Geothermal Power Market Capacity Forecast 2016-2026, MW, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 5.6: List of Announced Philippine Geothermal Developments
  • Table 5.7: Indonesian Geothermal Power Market Total Spending Forecast 2016-2026, $mn, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 5.8: Indonesian Geothermal Power Market Capacity Forecast 2016-2026, MW, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 5.9: List of Announced Indonesian Geothermal Developments
  • Table 5.10: Italian Geothermal Power Market Total Spending Forecast 2016-2026, $mn, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 5.11: Italian Geothermal Power Market Capacity Forecast 2016-2026, MW, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 5.12: List of Announced Italian Geothermal Power Developments
  • Table 5.13: Mexican Geothermal Power Market Total Spending Forecast 2016-2026, $mn, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 5.14: Mexican Geothermal Power Market Capacity Forecast 2016-2026, MW, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 5.15: List of Announced Mexican Geothermal Power Developments
  • Table 5.16: New Zealand Geothermal Power Market Total Spending Forecast2016-2026, $mn, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 5.17: New Zealand Geothermal Power Market Capacity Forecast 2016-2026, MW, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 5.18: List of Announced New Zealand Geothermal Power Developments
  • Table 5.19: Iceland Geothermal Power Market Total Spending Forecast2016-2026, $mn, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 5.20: Iceland Geothermal Power Market Capacity Forecast 2016-2026, MW, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 5.21: List of Announced Icelandic Geothermal Power Developments
  • Table 5.22: Kenyan Geothermal Power Market Total Spending Forecast2016-2026, $mn, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 5.23: Kenyan Geothermal Power Market Capacity Forecast 2016-2026, MW, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 5.24: List of Announced Kenyan Geothermal Power Developments
  • Table 5.25: Japanese Geothermal Power Market Total Spending Forecast 2016-2026, $mn, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 5.26: Japanese Geothermal Power Market Capacity Forecast 2016-2026, MW, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 5.27: List of Announced Japanese Geothermal Developments
  • Table 5.28: Turkish Geothermal Power Market Total Spending Forecast2016-2026, $mn, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 5.29: Turkish Geothermal Power Market Capacity Forecast 2016-2026, MW, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 5.30: List of Announced Turkish Geothermal Developments
  • Table 5.31: RoW Geothermal Power Market Total Spending Forecast 2016-2026, $mn, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 5.32: RoW Geothermal Power Market Capacity Forecast 2016-2026, MW, AGR (%), CAGR 2016-2021, CAGR 2021-2026, CAGR 2016-2026
  • Table 5.33: List of Announced RoW Geothermal Developments
  • Table 6.1: PEST Analysis of the Global Geothermal Power Market
  • Table 8.1: MHI Overview
  • Table 8.2: Ormat Overview
  • Table 8.3: Toshiba Overview
  • Table 8.4: Fuji Electric Overview
  • Table 8.5: Ansaldo Energia Overview
  • Table 8.6: General Electric Overview
  • Table 8.7: Tas Energy Overview
  • Table 8.8: Alstom Overview
  • Table 9.1: Top 10 Producers and RoW Geothermal Power Markets Forecast, 2016-2026, Capex ($mn), Opex ($mn), Capacity (MW)
  • Table 9.2: Technology Geothermal Power Markets Forecast, 2016-2026, Capex ($mn), Opex ($mn), Capacity (MW)

List of Figures

  • Figure 1.1: Estimated Total Levelised Cost of Electricity by Source ($/MWh)
  • Figure 1.2: Global Geothermal Power Market Segmentation
  • Figure 1.3: Cost Elements of CAPEX ($mn/MW) and OPEX ($/kWh)
  • Figure 2.1: Heat Flow Map of the World
  • Figure 2.2: History of Geothermal Energy
  • Figure 2.3: Global Cumulative Installed Capacity (MW), AGR (%), 1958-2015
  • Figure 2.4: Global Existing Capacity & New Capacity (MW), 1958-2015
  • Figure 2.5: Number of New Geothermal Power Plants, 1958-2015
  • Figure 2.6: New Geothermal Capacity (MW), 1958-2015
  • Figure 2.7: Share of Global Geothermal Installed Capacity, %, 2015
  • Figure 2.8: Number of Existing Geothermal Power Stations by Technology, 2015
  • Figure 2.9: Installed Capacity by Technology (MW), 2015
  • Figure 2.10: Share of Technologies in Total Installed Capacity (%), 2015
  • Figure 3.1: Global Energy Production by Source (Mtoe), 2010-2035
  • Figure 3.2: Global Energy Production by Source (%), 2010-2035
  • Figure 3.3: Share of Geothermal Power in Total Renewable Electricity Generation (%), 2015
  • Figure 3.4: Global Geothermal Power Market Total Spending Forecast 2016-2026, $mn, AGR (%)
  • Figure 3.5: Global Geothermal Power Market Capacity Additions Forecast 2016-2026, MW, AGR (%)
  • Figure 3.6: Global Geothermal Power Market Forecast, 2016-2026, Existing Capacity (MW), New Capacity (MW)
  • Figure 3.7: Installed Capacity of Top 10 Geothermal Power Producers in 2016 and 2026 (MW)
  • Figure 3.8: Percentage Shares of Top 10 Geothermal Power Producers and Rest of the World to Total Installed Capacity (%), 2016-2026
  • Figure 3.9: Contribution of The Top 10 Geothermal Power Producers and Rest of the World to Total Spending ($mn), 2016-2026
  • Figure 3.10: World Population Density Map
  • Figure 4.1: Share of Geothermal Technologies in Total Global Installed Capacity, 1911-2026, MW
  • Figure 4.2: Share of Geothermal Technologies in Global New Capacity Additions 2016-2026, MW
  • Figure 4.3: Share of Geothermal Technologies in Total Spending, 2016-2026, $mn
  • Figure 4.4: Contribution of Geothermal Technologies to Total Global Installed Capacity, 1958-2015, MW
  • Figure 4.5: Binary Cycle Geothermal Power Plants Capacity Additions, 1981-2015, MW
  • Figure 4.6: Dry Steam Geothermal Power Plants Capacity Additions, 1958-2015, MW
  • Figure 4.7: Flash Steam Geothermal Power Plants Capacity Additions, 1958-2015, MW
  • Figure 4.8: Flash-Binary Geothermal Power Plants Capacity Additions, 1975-2015, MW
  • Figure 4.9: Other Geothermal Power Plants Capacity Additions, 1989-2015, MW
  • Figure 4.10: Binary Cycle Geothermal Power Market Total Spending Forecast, 2016-2016, $mn, AGR (%)
  • Figure 4.11: Binary Cycle Geothermal New Capacity Forecast, 2016-2026, MW
  • Figure 4.12: Binary Cycle Geothermal Existing and New Capacity Forecast, 2016-2026, MW
  • Figure 4.13: Flash-Binary Geothermal Power Market Total Spending Forecast, 2016-2026, $mn, AGR (%)
  • Figure 4.14: Flash-binary Geothermal New Capacity Forecast, 2016-2026, MW
  • Figure 4.15: Flash-Binary Geothermal Existing and New Capacity Forecast, 2016-2026, MW
  • Figure 4.16: Flash Steam Geothermal Power Market Total Spending Forecast, 2016-2026, $mn, AGR (%)
  • Figure 4.17: Flash Steam Geothermal New Capacity Forecast, 2016-2026, MW
  • Figure 4.18: Flash Steam Geothermal Existing and New Capacity Forecast, 2016-2026, MW
  • Figure 4.19: Dry Steam Geothermal Power Market Total Spending Forecast, 2016-2026, $mn, AGR (%)
  • Figure 4.20: Dry Steam Geothermal New Capacity Forecast, 2016-2026, MW
  • Figure 4.21: Dry Steam Geothermal Existing and New Capacity Forecast, 2016-2026, MW
  • Figure 4.22: Other Technologies Geothermal Power Market Total Spending Forecast, 2016-2026, $mn, AGR (%)
  • Figure 4.23: Other Technologies Geothermal New Capacity Forecast, 2016-2016, MW
  • Figure 4.24: Other Technologies Geothermal Existing and New Capacity Forecast, 2016-2026, MW
  • Figure 5.1: US Heat Flow Map
  • Figure 5.2: Historical Total Capacity and AGR in the US, 1971-2015, MW, %
  • Figure 5.3: Existing Capacity and New Capacity in the US, 1971-2015, MW
  • Figure 5.4: US Market Share and Other Markets in Total Installed Capacity, 2000-2015, %
  • Figure 5.5: US Geothermal Power Market Total Spending Forecast, 2016-2026, $mn, AGR (%)
  • Figure 5.6: US Geothermal Power Market New Capacity Forecast, 2016-2026, MW, AGR (%)
  • Figure 5.7: US Geothermal Existing Capacity and New Capacity Forecast, 2016-2026, MW
  • Figure 5.8: Historical Total Capacity and AGR in the Philippines, 1979-2015, MW, %
  • Figure 5.9: Existing Capacity and New Capacity in the Philippines, 1979-2015, MW
  • Figure 5.10: Philippine Market Share and Other Markets in Total Installed Capacity, 2000-2015, %
  • Figure 5.11: Philippine Geothermal Power Market Total Spending Forecast, 2016-2026, $mn, AGR (%)
  • Figure 5.12: Philippine Geothermal Power Market Capacity Forecast, 2016-2026, MW, AGR (%)
  • Figure 5.13: Philippine Geothermal Existing Capacity and New Capacity Forecast, 2016-2026, MW
  • Figure 5.14: Geothermal Resources Map of Indonesia
  • Figure 5.15: Historical Total Capacity and AGR in Indonesia, 1983-2015, MW, %
  • Figure 5.16: Existing Capacity and New Capacity in Indonesia, 1983-2015, MW
  • Figure 5.17: Indonesian Market Share and Other Markets in Total Installed Capacity, 2000-2015, %
  • Figure 5.18: Indonesian Geothermal Power Market Total Spending Forecast, 2016-2026, $mn, AGR (%)
  • Figure 5.19: Indonesian Geothermal Power Market Capacity Forecast, 2016-2026, MW, AGR (%)
  • Figure 5.20: Indonesian Geothermal Existing Capacity and New Capacity Forecast, 2016-2026, MW
  • Figure 5.21: Geothermal Resources Map of Italy
  • Figure 5.22: Historical Total Capacity and AGR in Italy, 1966-2015, MW, %
  • Figure 5.23: Existing Capacity and New Capacity in Italy, 1966-2015, MW
  • Figure 5.24: Italian Market Share and Other Markets in Total Installed Capacity, 2000-2015, %
  • Figure 5.25: Italian Geothermal Power Market Total Spending Forecast, 2016-2026, $mn
  • Figure 5.26: Italian Geothermal Power Market Capacity Forecast, 2016-2026, MW
  • Figure 5.27: Italian Geothermal Existing Capacity and New Capacity Forecast, 2016-2026, MW
  • Figure 5.28: Geothermal Resources Map of Mexico
  • Figure 5.29: Historical Total Capacity and AGR in Mexico, 1973-2015, MW, %
  • Figure 5.30: Existing Capacity and New Capacity in Mexico, 1973-2015, MW
  • Figure 5.31: Mexican Market Share and Other Markets in Total Installed Capacity, 2000-2015, %
  • Figure 5.32: Mexican Geothermal Power Market Total Spending Forecast, 2016-2026, $mn, AGR (%)
  • Figure 5.33: Mexican Geothermal Power Market Capacity Forecast, 2016-2026, MW, AGR (%)
  • Figure 5.34: Mexican Geothermal Existing Capacity and New Capacity Forecast, 2016-2026, MW
  • Figure 5.35: Geothermal Resources Map of New Zealand
  • Figure 5.36: Historical Total Capacity and AGR in New Zealand, 1966-2015, MW, %
  • Figure 5.37: Existing Capacity and New Capacity in New Zealand, 1966-2015, MW
  • Figure 5.38: New Zealand Market Share and Other Markets in Total Installed Capacity, 2000-2015, %
  • Figure 5.39: New Zealand Geothermal Power Market Capex Forecast, 2016-2026, $mn, AGR (%)
  • Figure 5.40: New Zealand Geothermal Power Market Capacity Forecast, 2016-2026, MW, AGR (%)
  • Figure 5.41: New Zealand Geothermal Existing Capacity and New Capacity Forecast, 2016-2026, MW
  • Figure 5.42: Geological Resources Map of Iceland
  • Figure 5.43: Historical Total Capacity and AGR in Iceland, 1969-2015, MW, %
  • Figure 5.44: Existing Capacity and New Capacity in Iceland, 1969-2015, MW
  • Figure 5.45: Iceland Market Share and Other Markets in Total Installed Capacity, 2000-2015, %
  • Figure 5.46: Iceland Geothermal Power Market Total Spending Forecast, 2016-2026, $mn, AGR (%)
  • Figure 5.47: Iceland Geothermal New Capacity Forecast, 2016-2026, MW
  • Figure 5.48: Iceland Geothermal Existing Capacity and New Capacity Forecast, 2016-2026, MW
  • Figure 5.49: Geothermal Resources Map of Kenya
  • Figure 5.50: Historical Total Capacity and AGR in Kenya, 1981-2015, MW, %
  • Figure 5.51: Existing Capacity and New Capacity in Kenya, 1981-2015, MW
  • Figure 5.52: Kenya Market Share and Other Markets in Total Installed Capacity, 2000-2015, %
  • Figure 5.53: Kenyan Geothermal Power Market Total Spending Forecast, 2016-2026, $mn, AGR (%)
  • Figure 5.54: Kenyan Geothermal Power Market Capacity Forecast, 2016-2026, $mn, AGR (%)
  • Figure 5.55: Kenyan Geothermal Existing Capacity and New Capacity Forecast, 2016-2026, MW
  • Figure 5.56: Geothermal Resources Map of Japan
  • Figure 5.57: Historical Total Capacity and AGR in Japan, 1966-2015, MW, %
  • Figure 5.58: Existing Capacity and New Capacity in Japan, 1966-2015, MW
  • Figure 5.59: Japanese Market Share and Other Markets in Total Installed Capacity, 2000-2015, %
  • Figure 5.60: Japanese Geothermal Power Market Total Spending Forecast, 2016-2026, $mn, AGR (%)
  • Figure 5.61: Japanese Geothermal Power Market Capacity Forecast, 2016-2026, $mn, AGR (%)
  • Figure 5.62: Japanese Geothermal Existing Capacity and New Capacity Forecast, 2016-2026, MW
  • Figure 5.63: Geothermal Resources Map of Turkey
  • Figure 5.64: Historical Total Capacity and AGR in Turkey, 1984-2015, MW, %
  • Figure 5.65: Existing Capacity and New Capacity in Turkey, 1984-2015, MW
  • Figure 5.66: Turkish Market Share and Other Markets in Total Installed Capacity, 2000-2015, %
  • Figure 5.67: Turkish Geothermal Power Market Total Spending Forecast, 2016-2026, $mn, AGR (%)
  • Figure 5.68: Turkish Geothermal Power Market Capacity Forecast, 2016-2026, $mn, AGR (%)
  • Figure 5.69: Turkish Geothermal Existing Capacity and New Capacity Forecast, 2016-2026, MW
  • Figure 5.70: Historical Total Capacity and AGR in RoW, 1966-2015, MW, %
  • Figure 5.71: Existing Capacity and New Capacity in RoW, 1966-2015, MW
  • Figure 5.72: RoW Market Share and Other Markets in Total Installed Capacity, 2000-2015, %
  • Figure 5.73: RoW Geothermal Power Market Capex Forecast, 2016-2026, $mn, AGR (%)
  • Figure 5.74: RoW Geothermal New Capacity Forecast, 2016-2026, MW
  • Figure 5.75: RoW Geothermal Existing Capacity and New Capacity Forecast, 2016-2026, MW
  • Figure 7.1: Market Share of Leading Geothermal Equipment Suppliers in Total Installed Capacity, 2015, %

Companies Listed

  • AAE Systems
  • Aboitiz Power
  • Africa Geothermal
  • AGEOP
  • Agua Caliente, LLC
  • AI Farma
  • Akita Geothermal Energy Co
  • Alres A.S.
  • Alstom
  • Altarock Energy
  • Alternative Earth Resources, Inc.
  • Alterra Power
  • Amedee Geothermal Venture
  • Andean Geothermic Energy S.A.C
  • Ansaldo Energia
  • AP Renewables Inc (Subisidary Aboitiz Power Corp)
  • Basic Energy Corp.
  • Beowawe Power LLC
  • Bflat
  • Bleninser
  • BM Enerji
  • Borealis Geo Power
  • Bottle Rock Power PLC
  • BPPT
  • Burc Group
  • CalEnergy
  • Calpine
  • CDC Infrastructure
  • Celikler A.S.
  • Centram Geothermal ADAGE Ventures Inc.
  • CFG Services;
  • Chena Hot Springs
  • Chevron Energy
  • Chevron Geothermal India
  • Chevron Geothermal Philippines Holdings
  • Chuo Electric Power Co
  • Clean Rock Renewable Energy
  • Clean Source Energy
  • Compania Federal de Electricidad
  • Constellation
  • Constellation Energy
  • Contact Energy
  • Coso Operating Co.
  • Cyrq Energy
  • Dakotta Territory
  • Daldrup & Sohne AG
  • Davenport Newberry Holdings
  • Deep Earth Energy Production Corp
  • Dewhurst group
  • Dizamatra Powerindo
  • Drilling Corp.
  • East Japan Railway Co.,
  • Eco Energy
  • Edit Co.
  • Efla Engineering
  • EGE Energy
  • Electerre de France
  • ElectraTherm, Inc.
  • Electric Power Development Co
  • Electric Power Tibet
  • Emerging Markets Energy Pte Ltd
  • Empresa de Generacion de Energia Electrica del INDE
  • Empresa Nicaraguense de Electricidad (ENEL)
  • Empresa Transmisora de El Salvador (ETESAL)
  • ENDA Enerji
  • Enel
  • Energia Andina
  • Energy Corp Emerging Power Resource Holdings
  • Energy Development Corp.
  • EnergySource
  • Enex
  • Entiv Organic Energy
  • Erdem
  • Ergon Energy
  • Esu-Esu consultant
  • Ethiopian Electric Power Corporation
  • EU-FIRE & Manvit
  • Experimental-Industrial Verkhne-Mutnovskaya GeoPP
  • Filtech Energy
  • First Nation
  • Fonroche
  • Fuji Electric
  • Gafo Energy NZ,
  • GDF Suez (Engie)
  • General Electric
  • Geo Dipa Energy
  • Geodipa
  • Geodynamics
  • Geo-Energy Co.
  • GeoGlobal
  • Geonext Corporation
  • GeoSyndicate
  • Geoterceira, S.A
  • Geotermia Andina
  • Geotérmica para el Desarollo S.A.P.I de C.V.
  • Geotermica Quellaapacheta Peru S.A.C (GQP)
  • Geothermal Electric Limited
  • Geothermal Engineering
  • Geothermal Engineering Co.
  • Geothermal LLC
  • Geothermal Power
  • Geothermeon
  • Geothermie Bouilante
  • Geothermie SAS
  • Giri Indah Sejahtera
  • Global Geothermal Limited
  • Gradient Resources
  • Green Energy
  • Green Rock Energy
  • Greenco
  • GreenEco
  • GreenFire Energy
  • GT Energy
  • Gural Porselen
  • Guris Holdings
  • Gurmat A.S.
  • Habert Power
  • Harasho
  • Hera
  • Hirosaki City, Aomori
  • HL Power Company
  • Hokkaido Electric Power Co.
  • Home Stretch Geothermal
  • Hot Rock Limited
  • Hourei Co.
  • Hudson Ranch Energy Services
  • Iceland Drilling company
  • Idemitsu Kosan
  • Idemitsu Oita Geothermal
  • Infinergeo SpA
  • INPEX
  • Internaitonal
  • Isagen
  • Ishimatsu no-en
  • ITOCHU Copr. JV,
  • Izmir Jeotermal AS
  • Jamaica
  • JAPEX
  • Jeomar
  • JX Nippon Oil and Gas Exploration
  • Kalaharhi Geo Energy Limited
  • Karadeniz Holding
  • Kawasaki Heavy Industries
  • Kayi
  • KenGen
  • KITECH
  • Kodali Inc.
  • Kokushokankokai
  • Kujyu Kanko Hotel
  • Kyushu Electric Power
  • Kyushu Electric Power
  • Kyushu Electric Power Corp
  • Lihir Gold
  • Limak
  • LL Geothermal Inc
  • Lt. Scandinavia Corporation
  • Magma Energy (US) Corp
  • Maibarara Geothermal
  • Maren Enerji
  • Marubeni Co.
  • Medco Power
  • Menderes A.S.
  • Menderes Geothermal
  • Merve Group
  • Mexxus RG,
  • Mighty River Power
  • Minami Aso Villege Gov
  • Minera Escondidd
  • Mitsubishi Heavy Industries
  • Moberg Finance
  • MOECO
  • Mt Princeton Geothermal LLC
  • Nevis Renewable Energy
  • New World Energy
  • NGE Group
  • Nitetsu Kagoshima Geothermal Co/Kyushu Electric Power Co
  • Northern California Power Agency
  • NPO Nanto Genki
  • NPO REDS Syonan
  • Obayashi Corp
  • Ohyama Kanko Kaihatsu
  • Oita Venture Capital Co.
  • Okushiri Town, Hokkaido
  • ONGC
  • Optima Nusantara Energi
  • Origin Energy Chili
  • Orix Co.
  • Orkuveita Reykjavikur
  • Ormat
  • Orpower Twenty Two
  • Oserian Development Company
  • Pacific Geo Energy
  • PacificCorp
  • Pagosa Verde
  • PAN Papirna Industrija
  • Pawakom International Ltd.
  • Pertamina Geothermal Energy
  • Petratherm
  • Petroleum Corporation of Jamaica
  • Piling Engineering
  • PLN
  • PLTP
  • PPC Renewables
  • PT Medco Power Indonesia
  • Qualibou Energy
  • Quantam Power
  • Quantec Geoscience
  • Radius Gold Inc.
  • Ram Power
  • Ramsey
  • Rarik Turkison
  • Raser Technologies
  • Raya Group
  • Renewables
  • Resevior Capital Corp
  • Resources Corp
  • Resources Corp.
  • RESPEC Consulting & Services
  • Reykjavik Emera Inc
  • Rican Electricity
  • Sabang
  • Sanbeam
  • Saray Holding
  • SC Geoterm
  • Sejahtera Alam Energy
  • Simbol Material
  • Sintesa Banten Geothermal
  • SOGEO S.A.
  • Sol-E Suissel
  • Sorkik Merapi Geothermal
  • Sosian Energy
  • Soyak-Mis Enerji
  • Spring Energy
  • Star Energy Ltd
  • Suginoi Hotel
  • Summa Kumagai
  • Supreme Energy
  • Surprise Valley Electric Corp.
  • Syntesa Banten Geothermal (SBG)
  • Taiwan Bureau of
  • Takafuji Co.
  • Tanzania (GPT)
  • Tas Energy
  • Tawau Green Energy
  • Technologies, Inc.
  • Teknosatrial Energy/Layman
  • Terra-Gen Operating Co.
  • Timtas
  • Tohoku Electric Power
  • Tohoku Electric Power Co. Group
  • Tokyo Electric Power
  • Top Energy
  • Toshiba
  • Toya spa corp
  • Transmark Chile
  • Transmark Renewables
  • Transmark Turkey
  • Tsuchiyu onsen energy Co.
  • Tsujita Group
  • Tsurugakankokaiha tsu and Hokuden Sogo Sekkei Co.
  • Tuaropaki Power Company
  • Turcas BM Kuyucak Jeotermal Elektrik
  • U.S. Geothermal Inc.
  • Urayasudensetsu
  • Uretim
  • VITO
  • Wahana Sambadhasakti
  • Waita Geothermal Power Plant
  • Wasabi
  • Water
  • West Indies Power
  • Wijaya Karya Jabar Power
  • Yislan Group
  • Zaldivar Mining Company
  • Zorlu Enerji

List of Other Organisations Mentioned

  • African Union Commission (AUC)
  • Armenian Ministry of Energy and Natural Resources
  • BRGM (French overseas development)
  • Costa Rica Electricity Institute (ICE)
  • Costa Rica Geothermal Resources Service
  • Électricité de France Développement Environnement
  • European EGS Interest Group
  • Instituto Costaricense de Electricidad
  • International Geothermal Association
  • Korea Institute of Geosciences and Mineral Resources
  • Mexican Federal Electricity Commission (CFE)
  • Ministry of Natural Resources of Russia
  • Oregon Institute of Technology
  • Renewable Energy Organisation of Iran
  • The Research Council of Norway
  • US Department of Energy
  • UK Department for Energy & Climate Change, Cheshire East Council
  • United Nations
  • University of North Dakota
  • Wadia Institute of Himalayan Geology
  • World Bank
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