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市場調查報告書

全球小規模水力發電產業分析

Analyzing the Global Small Hydropower Industry 2015

出版商 Aruvian's R'search 商品編碼 277155
出版日期 內容資訊 英文 240 Pages
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全球小規模水力發電產業分析 Analyzing the Global Small Hydropower Industry 2015
出版日期: 2015年02月01日 內容資訊: 英文 240 Pages
簡介

小規模水力發電,由於以低的設備投資,運用、維護成本即可,預期有高投資回報率(ROI)。

本報告提供全球小規模水力發電產業調查分析、能源/再生能源產業、小規模水力發電產業的統計(發電量、發電容量、產業規模、影響要素等)、法律規範、競爭環境相關驗證,並包含主要企業簡介,為您概述為以下內容。

摘要整理

全球再生能源產業:概要

關於水力發電及全球水力發電產業

  • 水力發電概要
  • 全球水力發電產業概要
  • 水力發電的發電量
  • 全球水力發電的容量
  • 產業規模
  • 對產業的影響要素

關於小規模水力發電產業

  • 小規模水力發電概要
  • 小規模水力發電的發電量
  • 小規模水力發電的經濟性

小規模水力發電渦輪機分析

  • 概要
  • 反動式汽輪機
  • 衝擊式汽輪機

全球小規模水力發電產業分析

  • 產業概要
  • 小規模水力發電的發電量
  • 小規模水力發電的設備容量

全球小規模水力發電對產業的影響要素

  • 小規模水力發電的優點
  • 風力發電的投資增加
  • 政府支援的缺乏

巴西的小規模水力發電市場

  • 產業概要
  • 小規模水力發電的發電量
  • 小規模水力發電的設備容量
  • 法律規範
  • 小規模水力發電的經濟性、產業投資
  • 產業課題

中國的小規模水力發電市場

  • 產業概要
  • 小規模水力發電的發電量
  • 小規模水力發電的設備容量
  • 法律規範
  • 小規模水力發電的經濟性、產業投資
  • 水力發電的電力價格
  • 產業課題
  • 主要企業

義大利的小規模水力發電市場

  • 產業概要
  • 小規模水力發電的發電量
  • 小規模水力發電的設備容量
  • 法律規範
  • 產業課題

日本的小規模水力發電市場

  • 產業概要
  • 小規模水力發電的發電量
  • 小規模水力發電的設備容量
  • 法律規範
  • 小規模水力發電的經濟性、產業投資
  • 水力發電的電力價格
  • 產業課題
  • 主要企業

美國的小規模水力發電市場

  • 產業概要
  • 小規模水力發電的發電量
  • 小規模水力發電的設備容量
  • 法律規範
  • 小規模水力發電的經濟性、產業投資
  • 水力發電的電力價格
  • 產業課題
  • 主要企業

主要企業

  • Alstom
  • Centrais Eletricas Brasileiras S.A. - Eletrobras
  • 中部電力
  • 中國電力
  • Companhia Energetica de Sao Paulo
  • Datang International Power Generation Company Limited
  • 電源開發
  • IHI
  • 關西電力
  • New York Power Authority
  • Norsk Hydro ASA
  • PG&E Corporation
  • Statkraft
  • Tennessee Valley Authority
  • 東京電力
  • Voith Hydro
  • American Hydro Corporation
  • Andritz Hydro
  • Centrais Eletricas do Norte do Brasil S.A.
  • China Three Gorges Corporation
  • Companhia Hidro Eletrica do Sao Francisco
  • Elkem AS
  • Enel Green Power SpA
  • State Development & Investment Corporation

詞彙表

圖表

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目錄

Small hydropower gives a higher return on investment due to the low capital investment and operational and maintenance costs. Small hydropower plants are easier to construct as the designs are simpler and hence the costs are lower as well. China is the largest market for small hydropower in the world. The small hydropower market in China is driven by rural electrification programs of the Chinese government. Issues with regulatory bodies are leading to a delay in small hydropower plant approvals and this has become a major challenge for the future development of small hydropower.

Aruvian Research analyzes the global small hydropower industry in its research offering Analyzing the Global Small Hydropower Industry. The report begins with an analysis of the global energy and renewable energy industry. Following an introduction to the basics of hydropower, we analyze the global hydropower industry through industry statistics, power generated from hydropower worldwide, the global capacity of hydropower, industry value and the factors impacting the industry.

An introduction to small hydropower is followed by the analysis of the global small hydropower industry which includes a look at power generated from small hydro, the economics of small hydropower, the types of turbines available for small hydropower, etc. Global installed capacity of small hydropower is also analyzed.

The key markets for small hydropower analyzed in this report includes Brazil, China, Italy, Japan and the United States. Each market is analyzed by power generation statistics from small hydropower, capacity of small hydro in the country, regulatory framework governing the industry, economics of small hydropower, industry challenges, amongst other factors.

An analysis of the major players in the global small hydropower industry completes this comprehensive research on the global small hydropower industry from Aruvian Research.

Table of Contents

A. Executive Summary

B. Global Renewable Energy Industry: Brief Profile

C. Introduction to Hydropower & the Global Hydropower Industry

  • C.1 Overview of Hydropower
  • C.2 Global Hydropower Industry Overview
  • C.3 Power Generated from Hydropower
  • C.4 Global Capacity of Hydropower
  • C.5 Industry Value
  • C.6 Factors Impacting the Industry

D. Introduction to Small Hydropower Industry

  • D.1 Overview of Small Hydropower
  • D.2 Power Generation from Small Hydro
  • D.3 Economics of Small Hydropower

E. Analysis of Small Hydropower Turbines

  • E.1 Overview
  • E.2 Reaction Turbine
  • E.3 Impulse Turbine

F. Analyzing the Global Small Hydropower Industry

  • F.1 Industry Overview
  • F.2 Power Generated from Small Hydropower
  • F.3 Small Hydropower Installed Capacity

G. Factors Impacting the Global Small Hydropower Industry

  • G.1 Benefits of Small Hydropower
  • G.2 Rising Investment in Wind Power
  • G.3 Lack of Government Support

H. Small Hydropower Market in Brazil

  • H.1 Industry Overview
  • H.2 Power Generated from Small Hydropower
  • H.3 Small Hydropower Installed Capacity
  • H.4 Regulatory Framework
  • H.5 Economics of Small Hydropower in Brazil & Industry Investment
  • H.6 Industry Challenges

I. Small Hydropower Market in China

  • I.1 Industry Overview
  • I.2 Power Generated from Small Hydropower
  • I.3 Small Hydropower Installed Capacity
  • I.4 Regulatory Framework
  • I.5 Economics of Small Hydropower in China & Industry Investment
  • I.6 Price of Electricity Produced from Hydropower
  • I.7 Industry Challenges
  • I.8 Major Players

J. Small Hydropower Market in Italy

  • J.1 Industry Overview
  • J.2 Power Generated from Small Hydropower
  • J.3 Small Hydropower Installed Capacity
  • J.4 Regulatory Framework
  • J.5 Industry Challenges

K. Small Hydropower Market in Japan

  • K.1 Industry Overview
  • K.2 Power Generated from Small Hydropower
  • K.3 Small Hydropower Installed Capacity
  • K.4 Regulatory Framework
  • K.5 Economics of Small Hydropower in Japan & Industry Investment
  • K.6 Price of Electricity Produced from Hydropower
  • K.7 Industry Challenges
  • K.8 Major Players

L. Small Hydropower Market in the US

  • L.1 Industry Overview
  • L.2 Power Generated from Small Hydropower
  • L.3 Small Hydropower Installed Capacity
  • L.4 Regulatory Framework
  • L.5 Economics of Small Hydropower in the US & Industry Investment
  • L.6 Price of Electricity Produced from Hydropower
  • L.7 Industry Challenges
  • L.8 Major Players

M. Major Industry Players

  • M.1 Alstom
    • M.1.1 Corporate Profile
    • M.1.2 Business Segment Analysis
    • M.1.3 Financial Analysis
    • M.1.4 SWOT Analysis
  • M.2 Centrais Eletricas Brasileiras S.A. - Eletrobras
    • M.2.1 Corporate Profile
    • M.2.2 Business Segment Analysis
    • M.2.3 Financial Analysis
    • M.2.4 SWOT Analysis
  • M.3 Chubu Electric Power Company
    • M.3.1 Corporate Profile
    • M.3.2 Business Segment Analysis
    • M.3.3 Financial Analysis
    • M.3.4 SWOT Analysis
  • M.4 Chugoku Electric Power
    • M.4.1 Corporate Profile
    • M.4.2 Business Segment Analysis
    • M.4.3 Financial Analysis
    • M.4.4 SWOT Analysis
  • M.5 Companhia Energetica de Sao Paulo
    • M.5.1 Corporate Profile
    • M.5.2 Business Segment Analysis
    • M.5.3 Financial Analysis
    • M.5.4 SWOT Analysis
  • M.6 Datang International Power Generation Company Limited
    • M.6.1 Corporate Profile
    • M.6.2 Business Segment Analysis
    • M.6.3 Financial Analysis
    • M.6.4 SWOT Analysis
  • M.7 Electric Power Development Co., Ltd
    • M.7.1 Corporate Profile
    • M.7.2 Business Segment Analysis
    • M.7.3 Financial Analysis
    • M.7.4 SWOT Analysis
  • M.8 IHI Corporation
    • M.8.1 Corporate Profile
    • M.8.2 Business Segment Analysis
    • M.8.3 Financial Analysis
    • M.8.4 SWOT Analysis
  • M.9 Kansai Electric Power Company
    • M.9.1 Corporate Profile
    • M.9.2 Business Segment Analysis
    • M.9.3 Financial Analysis
    • M.9.4 SWOT Analysis
  • M.10 New York Power Authority
    • M.10.1 Corporate Profile
    • M.10.2 Business Segment Analysis
    • M.10.3 Financial Analysis
    • M.10.4 SWOT Analysis
  • M.11 Norsk Hydro ASA
    • M.11.1 Corporate Profile
    • M.11.2 Business Segment Analysis
    • M.11.3 Financial Analysis
    • M.11.4 SWOT Analysis
  • M.12 PG&E Corporation
    • M.12.1 Corporate Profile
    • M.12.2 Business Segment Analysis
    • M.12.3 Financial Analysis
    • M.12.4 SWOT Analysis
  • M.13 Statkraft
    • M.13.1 Corporate Profile
    • M.13.2 Business Segment Analysis
    • M.13.3 Financial Analysis
    • M.13.4 SWOT Analysis
  • M.14 Tennessee Valley Authority
    • M.14.1 Corporate Profile
    • M.14.2 Business Segment Analysis
    • M.14.3 Financial Analysis
    • M.14.4 SWOT Analysis
  • M.15 Tokyo Electric Power Company
    • M.15.1 Corporate Profile
    • M.15.2 Business Segment Analysis
    • M.15.3 Financial Analysis
    • M.15.4 SWOT Analysis
  • M.16 Voith Hydro
    • M.16.1 Corporate Profile
    • M.16.2 Business Segment Analysis
    • M.16.3 Financial Analysis
    • M.16.4 SWOT Analysis
  • M.17 American Hydro Corporation
  • M.18 Andritz Hydro
  • M.19 Centrais Eletricas do Norte do Brasil S.A.
  • M.20 China Three Gorges Corporation
  • M.21 Companhia Hidro Eletrica do Sao Francisco
  • M.22 Elkem AS
  • M.23 Enel Green Power SpA
  • M.24 State Development & Investment Corporation

N. Glossary of Terms

List of Figures

  • Figure 1: Installed Capacity of the Global Renewable Energy Industry (in MW), 2000-2020
  • Figure 2: Global Renewable Energy Generation (in GWh), 2000-2020
  • Figure 3: Global Hydropower Industry Value Chain
  • Figure 4: Pros & Cons of Hydropower
  • Figure 5: Power Generated from Hydropower Globally (in TWh), 2006-2020
  • Figure 6: Installed Capacity of Hydropower Worldwide (in GW), 2006-2020
  • Figure 7: Hydropower Capacity by Country (%), 2014
  • Figure 8: Global Hydropower Industry Value (in USD Billion), 2006-2020
  • Figure 9: How Hydropower is Generated
  • Figure 10: Financial Benefits of Small Hydropower over Large Hydropower
  • Figure 11: Social Benefits of Small Hydropower over Large Hydropower
  • Figure 12: Advantages of Small Hydropower
  • Figure 13: Power Distribution Systems
  • Figure 14: Costs of Installing a Small Hydropower Plant
  • Figure 15: Operation Costs of a Small Hydropower Plant
  • Figure 16: Types of Small & Mini Hydropower Turbines
  • Figure 17: Turbine Classification by Head Height
  • Figure 18: Power Generated from Small Hydropower Worldwide (in GW), 2001-2020
  • Figure 19: Global Installed Capacity of Small Hydropower (in GW), 2001-2020
  • Figure 20: Power Generated from Small Hydropower in Brazil (in GWh), 2010, 2015, 2020
  • Figure 21: Installed Capacity of Small Hydropower in Brazil (in MW), 2010, 2015, 2020
  • Figure 22: Installed Capacity of Small Hydropower in Brazil on a Yearly Basis (in MW), 2001-2020
  • Figure 23: Investment in the Small Hydropower Industry in Brazil (in USD Million)
  • Figure 24: Emissions of CO2 from Energy Consumption in Brazil (in Million Metric Tons), 2004-2012
  • Figure 25: Power Generated from Small Hydropower in China (in GWh), 2010, 2015, 2020
  • Figure 26: Installed Capacity of Small Hydropower in China (in MW), 2010, 2015, 2020
  • Figure 27: Cost of Small Hydropower in China
  • Figure 28: Investment in the Small Hydropower Industry in China (in USD Million)
  • Figure 29: Emissions of CO2 from Energy Consumption in China (in Million Metric Tons), 2004-2012
  • Figure 30: Emissions of CO2 from Energy Consumption per Capita in China (in Metric tons of CO2 per person), 2004-2012
  • Figure 31: Emissions of CO2 from Coal Consumption in China (in Million Metric Tons), 2004-2012
  • Figure 32: Power Generated from Small Hydropower in Italy (in GWh), 2010, 2015, 2020
  • Figure 33: Installed Capacity of Small Hydropower in Italy (in MW), 2010, 2015, 2020
  • Figure 34: Installed Capacity of Small Hydropower in Italy on a Yearly Basis (in MW), 2010, 2015, 2020
  • Figure 35: Emissions of CO2 from Energy Consumption in Italy (in Million Metric Tons)
  • Figure 36: Power Generated from Small Hydropower in Japan (in GWh), 2010, 2015, 2020
  • Figure 37: Installed Capacity of Small Hydropower in Japan (in MW), 2010, 2015, 2020
  • Figure 38: Installed Capacity of Small Hydropower in Japan on a Yearly Basis (in MW), 2010-2020
  • Figure 39: GHG & CO2 Emissions in Japan (in Million Tons), 2004-2012
  • Figure 40: Total GHG Emissions in Japan by Gas Types (%), 2012
  • Figure 41: Emissions of CO2 from Energy Consumption per Capita in Japan (in Metric tons of CO2 per person), 2004-2012
  • Figure 42: Major Players in the Japan Small Hydropower Industry (%), 2014
  • Figure 43: Power Generated from Small Hydropower in the US (in GWh), 2010, 2015, 2020
  • Figure 44: Installed Capacity of Small Hydropower in the US (in MW), 2010, 2015, 2020
  • Figure 45: Installed Capacity of Small Hydropower in the US on a Yearly Basis (in MW), 2010-2020
  • Figure 46: Cost of Small Hydropower in the US
  • Figure 47: Investment in the Small Hydropower Industry in the US (in USD Million)
  • Figure 48: Emissions of CO2 from Energy Consumption in the US (in Million Metric Tons), 2004-2012
  • Figure 49: Emissions of CO2 from Energy Consumption per Capita in the US (in Metric tons of CO2 per person), 2004-2012
  • Figure 50: Emissions of CO2 from Coal Consumption in the US (in Million Metric Tons), 2004-2012

List of Tables

  • Table 1: Installed Capacity of the Global Renewable Energy Industry (in MW), 2000-2020
  • Table 2: Global Renewable Energy Generation (in GWh), 2000-2020
  • Table 3: Power Generated from Hydropower Globally (in TWh), 2006-2020
  • Table 4: Installed Capacity of Hydropower Worldwide (in GW), 2006-2020
  • Table 5: Global Hydropower Industry Value (in USD Billion), 2006-2020
  • Table 6: Turbine Classification
  • Table 7: Power Generated from Small Hydropower Worldwide (in GW), 2001-2020
  • Table 8: Global Installed Capacity of Small Hydropower (in GW), 2001-2020
  • Table 9: Power Generated from Small Hydropower in Brazil (in GWh), 2010, 2015, 2020
  • Table 10: Installed Capacity of Small Hydropower in Brazil (in MW), 2010, 2015, 2020
  • Table 11: Installed Capacity of Small Hydropower in Brazil on a Yearly Basis (in MW), 2001-2020
  • Table 12: Investment in the Small Hydropower Industry in Brazil (in USD Million)
  • Table 13: Emissions of CO2 from Energy Consumption in Brazil (in Million Metric Tons), 2004-2012
  • Table 14: Power Generated from Small Hydropower in China (in GWh), 2010, 2015, 2020
  • Table 15: Installed Capacity of Small Hydropower in China (in MW), 2010, 2015, 2020
  • Table 16: Chinese Government Incentives for Small Hydropower
  • Table 17: Rural Electrification Policies in China
  • Table 18: Investment in the Small Hydropower Industry in China (in USD Million)
  • Table 19: Emissions of CO2 from Energy Consumption in China (in Million Metric Tons), 2004-2012
  • Table 20: Emissions of CO2 from Energy Consumption per Capita in China (in Metric tons of CO2 per person), 2004-2012
  • Table 21: Emissions of CO2 from Coal Consumption in China (in Million Metric Tons), 2004-2012
  • Table 22: Power Generated from Small Hydropower in Italy (in GWh), 2010, 2015, 2020
  • Table 23: Installed Capacity of Small Hydropower in Italy (in MW), 2010, 2015, 2020
  • Table 24: Installed Capacity of Small Hydropower in Italy on a Yearly Basis (in MW), 2010, 2015, 2020
  • Table 25: Emissions of CO2 from Energy Consumption in Italy (in Million Metric Tons)
  • Table 26: Power Generated from Small Hydropower in Japan (in GWh), 2010, 2015, 2020
  • Table 27: Installed Capacity of Small Hydropower in Japan (in MW), 2010, 2015, 2020
  • Table 28: Installed Capacity of Small Hydropower in Japan on a Yearly Basis (in MW), 2010-2020
  • Table 29: GHG & CO2 Emissions (in Million Tons) in Japan
  • Table 30: GHG & CO2 Emissions in Japan (in Million Tons), 2004-2012
  • Table 31: Emissions of CO2 from Energy Consumption per Capita in Japan (in Metric tons of CO2 per person), 2004-2012
  • Table 32: Power Generated from Small Hydropower in the US (in GWh), 2010, 2015, 2020
  • Table 33: Installed Capacity of Small Hydropower in the US (in MW), 2010, 2015, 2020
  • Table 34: Installed Capacity of Small Hydropower in the US on a Yearly Basis (in MW), 2010-2020
  • Table 35: Investment in the Small Hydropower Industry in the US (in USD Million)
  • Table 36: Emissions of CO2 from Energy Consumption in the US (in Million Metric Tons), 2004-2012
  • Table 37: Emissions of CO2 from Energy Consumption per Capita in the US (in Metric tons of CO2 per person), 2004-2012
  • Table 38: Emissions of CO2 from Coal Consumption in the US (in Million Metric Tons), 2004-2012
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