美國原子能市場之展望 是由出版商RNCOS E-Services Pvt. Ltd.在2008年11月所出版的。
這份英文市場調查報告書包含55 Pages 價格從美金400起跳。
Abstract
Nuclear power plays a major role in the US energy industry as the country,
after coal and natural gas, produces its maximum amount of electricity from
nuclear power plants. Oil and hydropower are the next biggest sources of
energy. But the US heavily depends on imported uranium for its nuclear power
industry. And with China, India and Russia planning for massive deployments in
nuclear power, the country may have tough times ahead in procuring raw
material (uranium) for its nuclear reactors, says gUS Nuclear Energy Outlookh,
our recent research report.
This report outlines the growing importance of the US nuclear industry at
global level. It analyzes the present status of the industry and assesses the
opportunities available for investment. It thoroughly studies the current
market trends and evolving areas in the US nuclear industry, and gives future
forecasts on the industry. However, the forecast given in this report is not
based on a complex economic model, but is intended as a rough guide to the
direction in which the market is likely to move.
Key Findings of the Report
- At global level, China, Japan, India, the US, Russia and the Republic of
Korea are expected to see most significant increase in their installed
capacity by 2030.
- Decision to invest commercially in new nuclear plants will be largely
affected by the fossil fuel prices and regulatory environment in the US.
- Due to deregulation, the US nuclear industry is projected to continue to
witness ownership consolidation, presenting opportunities for investors trying
to attain synergy.
- The nuclear plant construction has become extremely expensive with time
due to progression to large plants before gaining much experience, failure of
the expected economies of scale to materialize, and design changes and
equipment retrofit. This may spoil the plans of the US to expand its nuclear
power industry.
Key Issues and Facts Analyzed in the Report
- What are the potential growth area and market opportunities for the US
nuclear industry?
- What is the current state and future prospects for the industry?
- How are different states performing in the US nuclear industry?
- What is the scenario of uranium availability in the US?
- What are the forces challenging the US nuclear industry?
Research Methodology Used in the Report
Information Sources
Information in this report has been sourced from books, newspapers, trade
journals, white papers, industry portals, government agencies, trade
associations, monitoring industry news and developments, and through access to
more than 3000 paid databases.
Analysis Method
RNCOS industry forecast and analysis is based on various macro- and
microeconomic factors, sector and industry specific databases, and our
in-house statistical and analytical model. This model takes into account the
past and current trends in an economy, and more specifically in an industry,
to bring out an objective market analysis.
Our industry experts study the relationship between various industry and
economic variables to ensure the required accuracy and desired check on the
quality of data and information given in the report.
Table of Contents
1. Analyst View
2. Global Nuclear Power Industry - Statistics
- 2.1 Installed Capacity
- 2.2 Power Generation
- 2.3 Reactor Status
- 2.4 Future Outlook
3. Why US is Supporting Nuclear Industry?
- 3.1 Competitiveness
- 3.2 Energy Security
- 3.3 Public Acceptance
- 3.4 Government Policies
4. US Nuclear Industry - Current & Future Scenario
- 4.1 Uranium - Demand & Supply
- 4.2 Power Generation
5. Nuclear Power Industry - By State
- 5.1 Connecticut
- 5.2 Illinois
- 5.3 New Hampshire
- 5.4 New Jersey
- 5.5 Pennsylvania
- 5.6 South Carolina
- 5.7 Tennessee
- 5.8 Vermont
- 5.9 Nebraska
- 5.10 Virginia
6. Opportunity Areas
- 6.1 Consolidation
- 6.2 Improved Plant Designs
- 6.3 Export Destination
7. Roadblocks
- 7.1 Fuel Shortage
- 7.2 Safety Concerns
- 7.3 Waste Management
- 7.4 Economic Issues
- 7.5 Nuclear Proliferation
List of Figures:
- Figure 2-1: Global - Installed Capacity of Nuclear Reactors (in GWe),
2006, 2007 & Sep 2008
- Figure 2-2: Global - Nuclear Power Generation by Region (%), 2007E
- Figure 2-3: Global - Forecast for Nuclear Energy Generation* (in Billion
KWh), 2010, 2015, 2020, 2025 & 2030
- Figure 4-1: US - Uranium Mining (in Metric Tons), 2002-2007
- Figure 4-2: US - Uranium Supply (in Metric Tons), 2006 & 2007
- Figure 4-3: US - Forecast for Minimum Contracted Uranium Deliveries (in
' 000 Metric Tons), 2008-2017
- Figure 4-4: US - Forecast for Uranium Demand-Supply Gap (in ' 000 Metric
Tons), 2010-2017
- Figure 4-5: US - Share of Nuclear Energy in Power Generation (%),
2001-2007*
- Figure 4-6: US - Forecast for Nuclear Energy Consumption (in Billion KWh),
2010, 2015 & 2030
- Figure 4-7: US - Forecast for Nuclear Energy Consumption Share in World
(%), 2030
- Figure 4-8: US - Cumulative Nuclear Capacity Addition (in MWe), 1977 to
1999 & 2000-2013F
- Figure 5-1: Connecticut - Nuclear Power Generation (in TWh), 2006 & 2007
- Figure 5-2: Illinois - Nuclear Power Generation (in TWh), 2006 & 2007
- Figure 5-3: New Hampshire - Nuclear Power Generation (in TWh), 2006 & 2007
- Figure 5-4: New Jersey - Nuclear Power Generation (in TWh), 2006 & 2007
- Figure 5-5: Pennsylvania - Nuclear Power Generation (in TWh), 2006 & 2007
- Figure 5-6: South Carolina - Nuclear Power Generation (in TWh), 2006 & 2007
- Figure 5-7: Tennessee - Nuclear Power Generation (in TWh), 2006 & 2007
- Figure 5-8: Vermont - Nuclear Power Generation (in TWh), 2006 & 2007
- Figure 5-9: Nebraska - Nuclear Power Generation (in TWh), 2006 & 2007
- Figure 5-10: Virginia - Nuclear Power Generation (in TWh), 2006 & 2007
List of Tables:
- Table 2-1: Global - Power Generation by Source (%), 2006
- Table 2-2: Global - Nuclear Power Generation by Country (in TWh), 2006 &
2007
- Table 2-3: Global - Top Ten Nuclear Power Generation Countries (%), 2007
- Table 2-4: Global - Nuclear Power Reactor Statistics by Country (Sep 2008)
- Table 2-5: Global - Forecast for Nuclear Power Generation Capacity by
Region (in GW), 2010, 2015, 2020, 2025 & 2030
- Table 2-6: Global - Forecast for Nuclear Power Consumption by Region (in
Billion KWh), 2010, 2015, 2020, 2025 & 2030
- Table 3-1: US - Electricity Production Cost by Fuel (in Cents/KWh),
2001-2007
- Table 3-2: Global - Comparative Study of Sources Used for Power Generation
- Table 4-1: US - Nuclear Power Generation (in TWh), 2001-2007*
- Table 4-2: US - Power Generation by Fuel (%), 2001-2007*
- Table 5-1: US - Power Generation at State-level by Fuel (%), 2007*
- Table 5-2: Connecticut - Nuclear Power Generation by Plant (in TWh), 2007
- Table 5-3: Illinois - Nuclear Power Generation by Plant (in TWh), 2007
- Table 5-4: New Hampshire - Nuclear Power Generation by Plant (in TWh), 2007
- Table 5-5: New Jersey - Nuclear Power Generation by Plant (in TWh), 2007
- Table 5-6: Pennsylvania - Nuclear Power Generation by Plant (in TWh), 2007
- Table 5-7: South Carolina - Nuclear Power Generation by Plant (in TWh),
2007
- Table 5-8: Tennessee - Nuclear Power Generation by Plant (in TWh), 2007
- Table 5-9: Vermont - Nuclear Power Generation by Plant (in TWh), 2007
- Table 5-10: Nebraska - Nuclear Power Generation by Plant (in TWh), 2007
- Table 5-11: Virginia - Nuclear Power Generation by Plant (in TWh), 2007
- Table 6-1: US - Nuclear Power Plant Purchases
- Table 6-2: US - Nuclear Industry Consolidation (1995 & 2007)
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