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オーストラリアにおける地熱発電市場分析

Analyzing Geothermal Power in Australia

発行 Aruvian's R'search 商品コード 249066
出版日 ページ情報 英文 139 Pages
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オーストラリアにおける地熱発電市場分析 Analyzing Geothermal Power in Australia
出版日: 2013年03月01日 ページ情報: 英文 139 Pages
概要

オーストラリアにおける地熱エネルギー資源の利用は少量にとどまっています。オーストラリアの地熱産業は現在、探査段階にあり、地熱資源からの商業規模の生産は、まだこれからです。地熱発電容量は、2022年までに0.075GWに増加すると予測されています。

当レポートでは、オーストラリアの地熱発電市場について調査し、地熱エネルギーの利用、地熱資源の格付け、地熱発電の利用技術、新興技術などを分析しており、アジア太平洋地域およびオーストラリアにおける地熱発電市場の分析、および主要企業のプロファイルなどをまとめ、概略以下の構成でお届けいたします。

エグゼクティブサマリー

地熱発電のイントロダクション

  • 地熱エネルギーの認識:歴史的見解
  • 地熱エネルギーの利用:現在
  • 地熱エネルギー発生の源
  • 地核からのエネルギー:地熱システム
  • 地熱活動貯留層の特定
  • 地熱資源の格付け
  • 地熱資源の商業的探査
  • 地熱資源の探査プロセス
  • 地熱探査プログラム:リスクvs.コスト
  • 地熱発電に利用されている技術
  • 新しい技術
  • 地熱ドリル技術とコスト

世界の地熱発電産業

  • イントロダクション
  • 地熱資源による発電
  • 世界の地熱発電設置容量

アジア太平洋地域における地熱発電産業

  • 産業概要
  • アジア太平洋地域における地熱資源からの発電
  • アジア太平洋地域における地熱発電の設置容量
  • 産業の地域別セグメント
  • 主な産業契約

オーストラリアにおける地熱発電産業

  • 産業概要
  • オーストラリアにおける地熱資源からの発電
  • オーストラリアにおける地熱発電の設置容量
  • 産業セグメント
  • 産業規制
  • 主要企業

産業の主要企業

  • Ergon Energy
    • 企業プロファイル
    • ビジネスセグメント分析
    • SWOT分析
  • 富士電機
    • 企業プロファイル
    • ビジネスセグメント分析
    • 産業プレゼンス
    • SWOT分析
  • 三菱重工業
    • 企業プロファイル
    • ビジネスセグメント分析
    • 産業プレゼンス
    • SWOT分析
  • 東芝
    • 企業プロファイル
    • ビジネスセグメント分析
    • 産業プレゼンス
    • SWOT分析

付録

調査手法

用語集

図表

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目次

Australia continues to make modest use of its geothermal energy resources. The country's geothermal industry is currently in the exploration phase and is yet to start commercial scale production from geothermal resources. The geothermal production capacity is expected to increase over 0.075 GW by 2022.

Geothermal energy is still an emerging industry in Australia, with exploration being conducted in all states and the Northern Territory. While significant resources have been identified and there are several companies in advanced stages of exploration, presently there is no commercial production of geothermal energy in Australia. That said, there is significant potential for geothermal energy in Australia. It is estimated that one percent of the geothermal energy shallower than five kilometers and hotter than 150 degrees could supply Australia's total energy requirements for 26,000 years.

Currently, drilling technology limits economic development of geothermal resources to a maximum depth of about five kilometers. Thus companies are exploring for regions of elevated temperatures at five kilometers deep or less. The temperature at five kilometers depth varies across the continent due to a range of geologic factors. It is possible to identify areas of higher potential through the use of a variety of geoscience data.

Despite its huge potential, only a minimal amount of power is being extracted from geothermal resources. However, with increasing pressure to reduce greenhouse gas emissions, the Australian government has started to promote investments in the geothermal industry. In Australia, geothermal resources are primarily found in South Australia and Tasmania and along the southern Victorian coastline. Also, Western Australia contains some of the most prospective areas that are in the Perth Basin (including the Perth metropolitan area) and Pilbara region (Carnarvon Basin).

Aruvians Rsearch analyzes the Geothermal Power in Australia in its latest research offering Analyzing Geothermal Power in Australia.

The report is a comprehensive coverage of the geothermal industry in the region as well as in Australia.

The report begins with an introduction to geothermal power. We analyze the utilization of geothermal energy, the grading of geothermal resources, technologies used in geothermal power generation, emerging technologies, amongst others.

We analyze the global geothermal power market before the analysis of the geothermal market in Australia and in Asia Pacific. We first analyze the global geothermal power industry through power generated from geothermal resources worldwide and global geothermal power installed capacity. We further look at the factors impacting the global geothermal power industry such as growth drivers and challenges facing the global geothermal industry.

Geothermal power in Asia Pacific is analyzed through power generated from geothermal resources, installed capacity of geothermal power, regional segmentation of the industry and the major industry deals that have taken place in recent years.

For the geothermal industry in Indonesia, we analyze the power generated from geothermal resources, geothermal power installed capacity, industry segmentation by renewable energy technologies, regulatory frameworks governing the market in Australia, and major industry projects, both existing and upcoming.

Major global industry players are analyzed through a corporate profile, an analysis of their major business segments, the presence of these companies in the geothermal market, and a SWOT analysis.

Aruvians Rsearch's report Analyzing Geothermal Power in Australia is a complete guide to this rapidly growing industry.

Table of Contents

A. Executive Summary

B. Introduction to Geothermal Power

  • B.1. The Recognition of Geothermal Energy - Historical Perspective
  • B.2. Utilization of Geothermal Energy - Current Day
  • B.3. Source of Geothermal Energy Generation
  • B.4. Energy from the Earth's Core - Geothermal Systems
  • B.5. Identifying Geothermal Activity Reservoirs
  • B.6. Grading Geothermal Resources
  • B.7. Exploring Geothermal Resources Commercially
  • B.8. Geothermal Resource Exploration Process
  • B.9. Geothermal Exploration Programs - Risk vs. Cost
  • B.10. Technologies Used in Geothermal Power Generation
    • B.10.1. Binary Cycle Plant Technology
    • B.10.2. Conventional Steam Turbine Technology
  • B.11. Emerging Technologies
    • B.11.1. Enhanced Geothermal System
    • B.11.2. Mixed Working Fluid Technology
  • B.12. Geothermal Drilling Technology and Costs

C. Global Geothermal Power Industry

  • C.1. Introduction
  • C.2. Power Generation from Geothermal Resources
  • C.3. Global Geothermal Power Installed Capacity

D. Geothermal Power Industry in Asia Pacific

  • D.1. Industry Overview
  • D.2. Power Generation from Geothermal Resources in Asia Pacific
  • D.3. Geothermal Power Installed Capacity in Asia Pacific
  • D.4. Regional Segmentation of the Industry
  • D.5. Major Industry Deals

E. Geothermal Power Industry in Australia

  • E.1. Industry Overview
  • E.2. Power Generation from Geothermal Resources in Australia
  • E.3. Geothermal Power Installed Capacity in Australia
  • E.4. Industry Segmentation
  • E.5. Industry Regulations
  • E.6. Major Industry Projects

F. Major Industry Players

  • F.1. Ergon Energy
    • F.1.1. Corporate Profile
    • F.1.2. Business Segment Analysis
    • F.1.3. SWOT Analysis
  • F.2. Fuji Electric Co Ltd
    • F.2.1. Corporate Profile
    • F.2.2. Business Segment Analysis
    • F.2.3. Industry Presence
    • F.2.4. SWOT Analysis
  • F.3. Mitsubishi Heavy Industries
    • F.3.1. Corporate Profile
    • F.3.2. Business Segment Analysis
    • F.3.3. Industry Presence
    • F.3.4. SWOT Analysis
  • F.4. Toshiba Corporation
    • F.4.1. Corporate Profile
    • F.4.2. Business Segment Analysis
    • F.4.3. Industry Presence
    • F.4.4. SWOT Analysis

G. Appendix

  • G.1. Global Geothermal Associations
  • G.2. Figures & Tables

H. Research Methodology

I. Glossary of Terms

List of Figures

  • Figure 1: The Earth's Crust, Mantle, & Core. Top Right: A Section through the Crust & the Uppermost Mantle
  • Figure 2: Schematic Cross-Section Showing Plate Tectonic Processes
  • Figure 3: World Pattern of Plates, Oceanic Ridges, Oceanic Trenches, Subduction Zones, & Geothermal Fields
  • Figure 4: Representation of an Ideal Geothermal System
  • Figure 5: Model of a Geothermal System
  • Figure 6: Formation of a Geothermal Reservoir
  • Figure 7: Diagram Showing the Different Categories of Geothermal Resources
  • Figure 8: Workings of a Binary Cycle Geothermal Plant
  • Figure 9: Workings of a Flash/Binary Cycle Geothermal Plant
  • Figure 10: Workings of a Dry Steam Geothermal Power Plant
  • Figure 11: Workings of a Flash Steam Geothermal Power Plant
  • Figure 12: Workings of a Double Flash Steam Geothermal Power Plant
  • Figure 13: Completed Oil, Gas, and Geothermal Well Costs as a Function of Depth
  • Figure 14: Ring of Fire
  • Figure 15: Geothermal Electricity Production by Countries, and Installed Capacities (MW), 2011
  • Figure 16: Global Power Generated from Geothermal Resources (GWh), 2002-2022
  • Figure 17: Installed Capacity of Geothermal Power Worldwide (MW), 2002-2022
  • Figure 18: Power Generated from Geothermal Resources in Asia Pacific (GWh), 2002-2022
  • Figure 19: Installed Capacity of Geothermal Power in Asia Pacific (MW), 2002-2022
  • Figure 20: Share of Geothermal Power Market in Asia Pacific by Country (%), 2011
  • Figure 21: Number of Geothermal Project Deals in Recent Times in Asia Pacific
  • Figure 22: Types of Geothermal Deals in the Industry in Recent Times
  • Figure 23: Geothermal Fields in Australia
  • Figure 24: Power Generated from Geothermal Resources in Australia (GWh), 2002-2022
  • Figure 25: Installed Capacity of Geothermal Power in Australia (MW), 2002-2022
  • Figure 26: Renewable Power Generation in Australia by Technologies (%), 2011
  • Figure 27: Conceptual Two-Well Enhanced Geothermal System in Hot Rock in a Low-Permeability Crystalline Basement Formation
  • Figure 28: Estimated Total Geothermal Resource Base and Recoverable Resource Given in EJ or 1018 Joules
  • Figure 29: An Atmospheric Exhaust Geothermal Power-Plant
  • Figure 30: A Condensing Geothermal Power-Plant
  • Figure 31: A Geothermal Binary Power Plant
  • Figure 32: Flow Diagram of the Geothermal District Heating System of Reykjavik
  • Figure 33: Application of Ground-Coupled Heat Pump System
  • Figure 34: A Heat Pump in Heating Mode
  • Figure 35: Binary Cycle Plant
  • Figure 36: Dry Steam Plant
  • Figure 37: Flashed Steam Plant
  • Figure 38: Cascade Uses of Geothermal Energy

List of Tables

  • Table 1: Classification of Geothermal Resources (°C)
  • Table 2: Different Types of Technologies Used by Geothermal Plants
  • Table 3: Global Power Generated from Geothermal Resources (GWh), 2002-2022
  • Table 4: Installed Capacity of Geothermal Power Worldwide (MW), 2002-2022
  • Table 5: Power Generated from Geothermal Resources in Asia Pacific (GWh), 2002-2022
  • Table 6: Installed Capacity of Geothermal Power in Asia Pacific (MW), 2002-2022
  • Table 7: Share of Geothermal Power Market in Asia Pacific by Country (%), 2011
  • Table 8: Number of Geothermal Project Deals in Recent Times in Asia Pacific
  • Table 9: Types of Geothermal Deals in the Industry in Recent Times
  • Table 10: Major Geothermal Deals in Asia Pacific in Recent Times
  • Table 11: Power Generated from Geothermal Resources in Australia (GWh), 2002-2022
  • Table 12: Installed Capacity of Geothermal Power in Australia (MW), 2002-2022
  • Table 13: Renewable Power Generation in Australia by Technologies (%), 2011
  • Table 14: Geothermal Projects in Australia
  • Table 15: Upcoming/Under Development Geothermal Projects in Australia
  • Table 16: Summary of Nonhydrothermal US Geothermal Resource-Base Estimates
  • Table 17: Energy & Investment Costs for Electric Energy Production from Renewables
  • Table 18: Energy & Investment Costs for Direct Heat from Renewables
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