Nuclear’s Role in the Energy Mix to 2020 - Regulations for Emission Reduction and Huge Power Demand in Emerging Economies Reviving the Industry

GBI Research, October 2010, Pages: 182

“Nuclear’s Role in the Energy Mix to 2020 - Regulations for Emission Reduction and Huge Power Demand in Emerging Economies Reviving the Industry” focuses on the future nuclear power industry in the world. The crude oil price fluctuation and increasing concerns about challenges to petroleum fuel production and supply disruptions have formed the catalyst for increased attention on nuclear industry in the world. The global nuclear sector offers enormous opportunities to industry players as there is an increased attention on the nuclear sector. The report examines the nuclear power industry in teh key countries and provides up-to-date information on the status of the nuclear facilities and projected power generation plans. The report also examines the growth opportunities in nuclear sector, upcoming reactor technologies, economics of nuclear power and the emerging nuclear power countries in the global arena

Scope

- In-depth analysis on the Nuclear power markets in the world
- Market data from 2001 to 2020
- Key drivers and challenges of each nuclear Energy Technology in different countries
- Key technological and research and development trends in the nuclear industry
- Analysis of nuclear industry based on the historical and forecasted information
- Analysis of nuclear industry in key regions
- Analysis of emerging nuclear power markets and opportunities

Reasons to buy

- Gain the most up to date and in-depth information on the Global nuclear power industry
- Identify the key growth technologies and opportunities in the global nuclear power markets
- Facilitate decision-making based on strong historic and forecast data
- Develop strategies based on the latest regulatory frameworks in the nuclear power producing countries
- Do deals with an understanding of how competitors are financed, and the mergers and partnerships that have shaped the nuclear energy market across the world
- Identify and analyze the potential opportunities in emerging nuclear power markets
- Identify key partners and business development opportunities
- Understand and respond to your competitors’ business structure, strategy and prospects
- Understand the opportunities and challenges in India’s nuclear equipment industry.
- Analyze the key nuclear power generation technologies and developments which drive the market

1.1 List of Tables
1.2 List of Figures

2 The Role of Nuclear in the Power Industry
2.1 Report Guidance

3 The Global Power Market to 2020
3.1 The Global Power Market, Overview
3.2 The Global Power Market, Installed Capacity and Generation 2000–2020
3.3 The Global Power Market, By Technology
3.4 Challenges Faced by the Global Power Market
3.4.1 Infrastructural Constraints
3.4.2 Low Growth of Alternative Energy
3.4.3 Ambiguity Concerning Climate Change Policy
3.4.4 Stricter Government Regulations
3.5 Key Opportunities in the Global Power Market
3.5.1 Government Subsidies and Increasing Investments
3.5.2 Rapid Economic and Population Growth
3.5.3 Change in the Power Mix
3.5.4 Increasing Private Public Partnerships

4 The Global Nuclear Power Market to 2020
4.1 The Global Nuclear Power Market, Overview
4.2 Global Nuclear Power Market, Installed Capacity and Generation 2000–2020
4.3 The Global Nuclear Power Market, Trend 2000–2020
4.4 The Global Nuclear Power Market, Cost Drivers
4.4.1 Capital cost
4.4.2 Operating Cost
4.4.3 Waste Disposal Cost
4.4.4 Decommissioning Cost
4.4.5 Insurance Cost
4.5 The Global Nuclear Power Market, Organizations, Regulations and Policies
4.6 The Global Nuclear Power Market, Mergers, Acquisitions and Deals
4.7 The Global Nuclear Power Market, Cost Comparison with Other Sources
4.8 Challenges Faced by the Global Nuclear Power Market
4.8.1 Disposal of Waste
4.8.2 Safety Concerns
4.8.3 High Installation Cost
4.8.4 Technological Factor
4.9 Key Opportunities in the Global Nuclear Power Market
4.9.1 Environmental Regulations
4.9.2 Low Operating and Maintenance Cost
4.9.3 Availability of Nuclear Fuel

5 The Asia-Pacific Region’s Nuclear Power Market to 2020
5.1 The Asia-Pacific Region’s Nuclear Power Market, Overview
5.2 Armenia, Nuclear Power Market
5.2.1 Armenia, Installed Capacity and Generation, 2000–2020
5.2.2 Armenia, Nuclear facilities and Regions
5.2.3 Armenia, Regulatory Policies and Framework
5.2.4 Armenia, Major Players and Competitive Scenario
5.2.5 Armenia, Business Viability
5.3 The China Nuclear Power Market
5.3.1 China, Installed Capacity and Generation, 2000–2020
5.3.2 China, Nuclear Facilities and Regions
5.3.3 China, Regulatory Policies and Framework
5.3.4 China, Major Players and Competitive Scenario
5.3.5 China, Business Viability
5.4 India, Nuclear Power Market
5.4.1 India, Installed Capacity and Generation, 2000–2020
5.4.2 India, Nuclear Facilities and Regions
5.4.3 India, Regulatory Policies and Framework
5.4.4 India, Major Players and Competitive Scenario
5.4.5 India, Business Viability
5.5 Japan, Nuclear Power Market
5.5.1 Japan, Installed Capacity and Generation, 2000–2020
5.5.2 Japan, Nuclear Facilities and Regions
5.5.3 Japan, Regulatory Policies and Framework
5.5.4 Japan, Major Players and Competitive Scenario
5.5.5 Japan, Business Viability
5.6 Pakistan, Nuclear Power Market
5.6.1 Pakistan, Installed Capacity and Generation, 2000–2020
5.6.2 Pakistan, Nuclear Facilities and Regions
5.6.3 Pakistan, Regulatory Policies and Framework
5.6.4 Pakistan, Major Players and Competitive Scenario
5.6.5 Pakistan, Business Viability
5.7 South Korea, Nuclear Power Market
5.7.1 South Korea, Installed Capacity and Generation, 2000–2020
5.7.2 South Korea, Nuclear Facilities and Regions
5.7.3 South Korea, Regulatory Policies and Framework
5.7.4 South Korea, Major Players and Competitive Scenario
5.7.5 South Korea, Business Viability
5.8 Taiwan, Nuclear Power Market
5.8.1 Taiwan, Installed Capacity and Generation, 2000–2020
5.8.2 Taiwan, Nuclear Facilities and Regions
5.8.3 Taiwan, Regulatory Policies and Framework
5.8.4 Taiwan, Major Players and Competitive Scenario
5.8.5 Taiwan, Business Viability

6 Europe, Nuclear Power Market to 2020
6.1 Europe, Nuclear Power Market, Overview
6.2 Belgium, Nuclear Power Market
6.2.1 Belgium, Installed Capacity and Generation, 2000–2020
6.2.2 Belgium, Nuclear Facilities and Regions
6.2.3 Belgium, Regulatory Policies and Framework
6.2.4 Belgium, Major Players and Competitive Scenario
6.2.5 Belgium, Business Viability
6.3 Bulgaria, Nuclear Power Market
6.3.1 Bulgaria, Installed Capacity and Generation, 2000–2020
6.3.2 Bulgaria, Nuclear Facilities and Regions
6.3.3 Bulgaria, Regulatory Policies and Framework
6.3.4 Bulgaria, Major Players and Competitive Scenario
6.3.5 Bulgaria, Business Viability
6.4 The Czech Republic, Nuclear Power Market
6.4.1 The Czech Republic, Installed Capacity and Generation, 2000–2020
6.4.2 The Czech Republic, Nuclear Facilities and Regions
6.4.3 The Czech Republic, Regulatory Policies and Framework
6.4.4 Czech Republic, Major Players and Competitive Scenario
6.4.5 The Czech Republic, Business Viability
6.5 Finland, Nuclear Power Market
6.5.1 Finland, Installed Capacity and Generation, 2000–2020
6.5.2 Finland, Nuclear Facilities and Regions
6.5.3 Finland, Regulatory Policies and Framework
6.5.4 Finland, Major Players and Competitive Scenario
6.5.5 Finland, Business Viability
6.6 France, Nuclear Power Market
6.6.1 France, Installed Capacity and Generation, 2000–2020
6.6.2 France, Nuclear Facilities and Regions
6.6.3 France, Regulatory Policies and Framework
6.6.4 France, Major Players and Competitive Scenario
6.6.5 France, Business Viability
6.7 Germany, Nuclear Power Market
6.7.1 Germany, Installed Capacity and Generation, 2000–2020
6.7.2 Germany, Nuclear Facilities and Regions
6.7.3 Germany, Regulatory Policies and Framework
6.7.4 Germany, Major Players and Competitive Scenario
6.7.5 Germany, Business Viability
6.8 Hungary, Nuclear Power Market
6.8.1 Hungary, Installed Capacity and Generation, 2000–2020
6.8.2 Hungary, Nuclear Facilities and Regions
6.8.3 Hungary, Regulatory Policies and Framework
6.8.4 Hungary, Major Players and Competitive Scenario
6.8.5 Hungary, Business Viability
6.9 Lithuania, Nuclear Power Market
6.9.1 Lithuania, Installed Capacity and Generation, 2000–2020
6.9.2 Lithuania, Nuclear Facilities and Regions
6.9.3 Lithuania, Regulatory Policies and Framework
6.9.4 Lithuania, Major Players and Competitive Scenario
6.9.5 Lithuania, Business Viability
6.10 The Netherlands, Nuclear Power Market
6.10.1 The Netherlands, Installed Capacity and Generation, 2000–2020
6.10.2 The Netherlands, Nuclear Facilities and Regions
6.10.3 The Netherlands, Regulatory Policies and Framework
6.10.4 The Netherlands, Major Players and Competitive Scenario
6.10.5 The Netherlands, Business Viability
6.11 Romania, Nuclear Power Market
6.11.1 Romania, Installed Capacity and Generation, 2000–2020
6.11.2 Romania, Nuclear Facilities and Regions
6.11.3 Romania, Regulatory Policies and Framework
6.11.4 Romania, Major Players and Competitive Scenario
6.11.5 Romania, Business Viability
6.12 Russia, Nuclear Power Market
6.12.1 Russia, Installed Capacity and Generation, 2000–2020
6.12.2 Russia, Nuclear Facilities and Regions
6.12.3 Russia, Regulatory Policies and Framework
6.12.4 Russia, Major Players and Competitive Scenario
6.12.5 Russia, Business Viability
6.13 Slovakia, Nuclear Power Market
6.13.1 Slovakia, Installed Capacity and Generation, 2000–2020
6.13.2 Slovakia, Nuclear Facilities and Regions
6.13.3 Slovakia, Regulatory Policies and Framework
6.13.4 Slovakia, Major Players and Competitive Scenario
6.13.5 Slovakia, Business Viability
6.14 Slovenia, Nuclear Power Market
6.14.1 Slovenia, Installed Capacity and Generation, 2000–2020
6.14.2 Slovenia, Nuclear Facilities and Regions
6.14.3 Slovenia, Regulatory Policies and Framework
6.14.4 Slovenia, Major Players and Competitive Scenario
6.14.5 Slovenia, Business Viability
6.15 Spain, Nuclear Power Market
6.15.1 Spain, Installed Capacity and Generation, 2000–2020
6.15.2 Spain, Nuclear Facilities and Regions
6.15.3 Spain, Regulatory Policies and Framework
6.15.4 Spain, Major Players and Competitive Scenario
6.15.5 Spain, Business Viability
6.16 Sweden, Nuclear Power Market
6.16.1 Sweden, Installed Capacity and Generation, 2000–2020
6.16.2 Sweden, Nuclear Facilities and Regions
6.16.3 Sweden, Regulatory Policies and Framework
6.16.4 Sweden, Major Players and Competitive Scenario
6.16.5 Sweden, Business Viability
6.17 Switzerland, Nuclear Power Market
6.17.1 Switzerland, Installed Capacity and Generation, 2000–2020
6.17.2 Switzerland, Nuclear Facilities and Regions
6.17.3 Switzerland, Regulatory Policies and Framework
6.17.4 Switzerland, Major Players and Competitive Scenario
6.17.5 Switzerland, Business Viability
6.18 Ukraine, Nuclear Power Market
6.18.1 Ukraine, Installed Capacity and Generation, 2000–2020
6.18.2 Ukraine, Nuclear Facilities and Regions
6.18.3 Ukraine, Regulatory Policies and Framework
6.18.4 Ukraine, Major Players and Competitive Scenario
6.18.5 Ukraine, Business Viability
6.19 The UK, Nuclear Power Market
6.19.1 The UK, Installed Capacity and Generation, 2000–2020
6.19.2 The UK, Nuclear Facilities and Regions
6.19.3 The UK, Regulatory Policies and Framework
6.19.4 The UK, Major Players and Competitive Scenario
6.19.5 The UK, Business Viability

7 The Middle East and Africa, Nuclear Power Market to 2020
7.1 The Middle East and Africa, Nuclear Power Market, Overview
7.2 Iran, Nuclear Power Market
7.2.1 Iran, Installed Capacity and Generation, 2000–2020
7.2.2 Iran, Nuclear Facilities and Regions
7.2.3 Iran, Regulatory Policies and Framework
7.2.4 Iran, Major Players and Competitive Scenario
7.2.5 Iran, Business Viability
7.3 South Africa, Nuclear Power Market
7.3.1 South Africa, Installed Capacity and Generation, 2000–2020
7.3.2 South Africa, Nuclear Facilities and Regions
7.3.3 South Africa, Regulatory Policies and Framework
7.3.4 South Africa, Major Players and Competitive Scenario
7.3.5 South Africa, Business Viability

8 South and Central America, Nuclear Power Market to 2020
8.1 South and Central America, Nuclear Power Market, Overview
8.2 Argentina, Nuclear Power Market
8.2.1 Argentina, Installed Capacity and Generation, 2000–2020
8.2.2 Argentina, Nuclear Facilities and Regions
8.2.3 Argentina, Regulatory Policies and Framework
8.2.4 Argentina, Major Players and Competitive Scenario
8.2.5 Argentina, Business Viability
8.3 Brazil, Nuclear Power Market
8.3.1 Brazil, Installed Capacity and Generation, 2000–2020
8.3.2 Brazil, Nuclear Facilities and Regions
8.3.3 Brazil, Regulatory Policies and Framework
8.3.4 Brazil, Major Players and Competitive Scenario
8.3.5 Brazil, Business Viability
8.4 Mexico, Nuclear Power Market
8.4.1 Mexico, Installed Capacity and Generation, 2000–2020
8.4.2 Mexico, Nuclear Facilities and Regions
8.4.3 Mexico, Regulatory Policies and Framework
8.4.4 Mexico, Major Players and Competitive Scenario
8.4.5 Mexico, Business Viability

9 North America, Nuclear Power Market to 2020
9.1 North America, Nuclear Power Market, Overview
9.2 Canada, Nuclear Power Market
9.2.1 Canada, Installed Capacity and Generation, 2000–2020
9.2.2 Canada, Nuclear Facilities and Regions
9.2.3 Canada, Regulatory Policies and Framework
9.2.4 Canada, Major Players and Competitive Scenario
9.2.5 Canada, Business Viability
9.3 The US, Nuclear Power Market
9.3.1 The US, Installed Capacity and Generation, 2000–2020
9.3.2 The US, Nuclear Facilities and Regions
9.3.3 The US, Regulatory Policies and Framework
9.3.4 The US, Major Players and Competitive Scenario
9.3.5 The US, Business Viability

10 Nuclear Power Generation Technologies
10.1 Existing Technologies
10.1.1 Generation I
10.1.2 Generation II
10.1.3 Generation III
10.2 Future Technologies
10.2.1 Generation IV
10.2.2 Generation V

11 Emerging And Future Nuclear Power Market
11.1 Emerging and Future Nuclear Power Market, Opportunities
11.2 Emerging and Future Nuclear Power Market, Regulatory Frameworks

List of Tables

Table 1: Global, Number of Upcoming Reactors Under Construction by Year of Start of Operation, 2010
Table 2: Nuclear Power Market, Deals, Mergers and Acquisitions, Global, Oct 2008-July 2010
Table 3: Cost Comparison of Electricity Generation Techniques, 2010
Table 4: Operable Nuclear Power Reactors in Armenia, 2009
Table 5: Upcoming Nuclear Power Reactors in Armenia
Table 6: Nuclear Reactors in Armenia, By Ownership
Table 7: Operable Nuclear Power Reactors in China, 2009
Table 8: Upcoming Nuclear Reactors in China
Table 9: Nuclear Reactors in China, By Ownership
Table 10: Operable Nuclear Power Reactors in India, 2009
Table 11: Upcoming Nuclear Power Reactors in India
Table 12: Nuclear Reactors in India, By Ownership
Table 13: Operable Nuclear Power Reactors in Japan, 2009
Table 14: Upcoming Nuclear Reactors in Japan
Table 15: Nuclear Reactors in Japan, By Ownership
Table 16: Operable Nuclear Power Reactors in Pakistan, 2009
Table 17: Upcoming Nuclear Power Reactors in Pakistan
Table 18: Nuclear Reactors in Pakistan, By Ownership
Table 19: Operable Nuclear Power Reactors in South Korea, 2009
Table 20: Upcoming Nuclear Power Reactors in South Korea
Table 21: Nuclear Reactors in South Korea, By Ownership
Table 22: Operable Nuclear Power Reactors in Taiwan, 2009
Table 23: Upcoming Nuclear Power Reactors in Taiwan
Table 24: Nuclear Reactors in Taiwan, By Ownership
Table 25: Operable Nuclear Power Reactors in Belgium, 2009
Table 26: Nuclear Reactors in Belgium, By Ownership
Table 27: Operable Nuclear Power Reactors in Bulgaria, 2009
Table 28: Upcoming Nuclear Power Reactors in Bulgaria
Table 29: Nuclear Reactors in Bulgaria, By Ownership
Table 30: Operable Nuclear Power Reactors in the Czech Republic, 2009
Table 31: Nuclear Reactors in Czech Republic, By Ownership
Table 32: Operable Nuclear Power Reactors in Finland, 2009
Table 33: Upcoming Nuclear Power Reactors in Finland
Table 34: Nuclear Reactors in Finland, By Ownership
Table 35: Operable Nuclear Power Reactors in France, 2009
Table 36: Upcoming Nuclear Power Reactors in France
Table 37: Nuclear Reactors in France, By Ownership
Table 38: Operable Nuclear Power Reactors in Germany, 2009
Table 39: Nuclear Reactors in Germany, By Ownership
Table 40: Operable Nuclear Power Reactors in Hungary, 2009
Table 41: Nuclear Reactors in Hungary, By Ownership
Table 42: Operable Nuclear Power Reactors in the Netherlands, 2009
Table 43: Nuclear Reactors in Netherlands, By Ownership
Table 44: Operable Nuclear Power Reactors in Romania, 2009
Table 45: Upcoming Nuclear Power Reactors in Romania
Table 46: Nuclear Reactors in Romania, By Ownership
Table 47: Operable Nuclear Power Reactors in Russia, 2009
Table 48: Upcoming Nuclear Power Reactors in Russia
Table 49: Nuclear Reactors in Russia, By Ownership
Table 50: Operable Nuclear Power Reactors in Slovakia, 2009
Table 51: Upcoming Nuclear power reactors in Slovakia
Table 52: Nuclear Reactors in Slovakia, By Ownership
Table 53: Operable Nuclear Power Reactors in Slovenia, 2009
Table 54: Nuclear Reactors in Slovenia, By Ownership
Table 55: Operable Nuclear Power Reactors in Spain, 2009
Table 56: Nuclear Reactors in Spain, By Ownership
Table 57: Operable Nuclear Power Reactors in Sweden, 2009
Table 58: Nuclear Reactors in Sweden, By Ownership
Table 59: Operable Nuclear Power Reactors in Switzerland, 2009
Table 60: Nuclear Reactors in Switzerland, By Ownership
Table 61: Operable Nuclear Power Reactors in Ukraine, 2009
Table 62: Upcoming Nuclear Power Reactors in Ukraine
Table 63: Nuclear Reactors in Ukraine, By Ownership
Table 64: Operable Nuclear Power Reactors in the UK, 2009
Table 65: Upcoming Nuclear Power Reactors in the UK
Table 66: Nuclear Reactors in The UK, By Ownership
Table 67: Upcoming Nuclear Power Reactors in Iran
Table 68: Operable Nuclear Power Reactors in South Africa, 2009
Table 69: Upcoming Nuclear Power Reactors in South Africa
Table 70: Nuclear Reactors in South Africa, By Ownership
Table 71: Operable Nuclear Power Reactors in Argentina, 2009
Table 72: Upcoming Nuclear Power Reactors in Argentina
Table 73: Nuclear Reactors in Argentina, By Ownership
Table 74: Operable Nuclear Power Reactors in Brazil, 2009
Table 75: Upcoming Nuclear Power Reactors in Brazil
Table 76: Nuclear Reactors in Brazil, By Ownership
Table 77: Operable Nuclear Power Reactors in Mexico, 2009
Table 78: Nuclear Reactors in Mexico, By Ownership
Table 79: Operable Nuclear Power Reactors in Canada, 2009
Table 80: Nuclear Reactors in Canada, By Ownership
Table 81: Operable Nuclear Power Reactors in the US, 2009
Table 82: Upcoming Nuclear Power Reactors in the US
Table 83: Nuclear Reactors in The US, By Ownership
Table 84: Emerging Nuclear Power Countries, By Region, 2010
Table 85: Upcoming Reactors in Emerging Markets, 2010
Table 86: Major Deals and Agreements in the Emerging Markets, October 2008- June 2010

List of Figures

Figure 1: Global Power Market, Installed Capacity and Generation, 2000–2020
Figure 2: Global Power Market, By Technology, 2009
Figure 3: Installed Capacity and Generation, Global, 2000–2020
Figure 4: Number of Operable Reactors, Global, By Type, 2010
Figure 5: Number of Operable Reactors, Global, By Region, 2010
Figure 6: Nuclear Capacity and Generation in Asia-Pacific, 2000–2020
Figure 7: Share of Nuclear in Electricity Production in Armenia, 2009
Figure 8: Nuclear Capacity and Generation in Armenia, 2000–2020
Figure 9: Share of Nuclear In Electricity Production in China, 2009
Figure 10: Nuclear Capacity and Generation in China, 2000–2020
Figure 11: Share of Nuclear In Electricity Production in India, 2009
Figure 12: Nuclear Capacity and Generation in India,2000–2020
Figure 13: Share of Nuclear In Electricity Production in Japan, 2009
Figure 14: Nuclear Capacity and Generation in Japan,2000–2020
Figure 15: Share of Nuclear In Electricity Production in Pakistan, 2009
Figure 16: Nuclear Capacity and Generation in Pakistan,2000–2020
Figure 17: Share of Nuclear In Electricity Production in South Korea, 2009
Figure 18: Nuclear Capacity and Generation in South Korea,2000–2020
Figure 19: Share of Nuclear In Electricity Production in Taiwan, 2009
Figure 20: Nuclear Capacity and Generation in Taiwan, 2000–2020
Figure 21: Nuclear Capacity and Generation in Europe, 2000–2020
Figure 22: Share of Nuclear In Electricity Production in Belgium, 2009
Figure 23: Nuclear Capacity and Generation in Belgium,2000–2020
Figure 24: Share of Nuclear In Electricity Production in Bulgaria, 2009
Figure 25: Nuclear Capacity and Generation in Bulgaria,2000–2020
Figure 26: Share of Nuclear In Electricity Production in the Czech Republic, 2009
Figure 27: Nuclear Capacity and Generation in the Czech Republic,2000–2020
Figure 28: Share of Nuclear In Electricity Production in Finland, 2009
Figure 29: Nuclear Capacity and Generation in Finland,2000–2020
Figure 30: Share of Nuclear In Electricity Production in France, 2009
Figure 31: Nuclear Capacity and Generation in France, 2000–2020
Figure 32: Share of Nuclear In Electricity Production in Germany, 2009
Figure 33: Nuclear Capacity and Generation in Germany,2000–2020
Figure 34: Share of Nuclear In Electricity Production in Hungary, 2009
Figure 35: Nuclear Capacity and Generation in Hungary, 2000–2020
Figure 36: Share of Nuclear In Electricity Production in Lithuania, 2009
Figure 37: Nuclear Capacity and Generation in Lithuania, 2000–2020
Figure 38: Share of Nuclear In Electricity Production in the Netherlands, 2009
Figure 39: Nuclear Capacity and Generation in the Netherlands,2000–2020
Figure 40: Share of Nuclear In Electricity Production in Romania, 2009
Figure 41: Nuclear Capacity and Generation in Romania, 2000–2020
Figure 42: Share of Nuclear In Electricity Production in Russia, 2009
Figure 43: Nuclear Capacity and Generation in Russia, 2000–2020
Figure 44: Share of Nuclear In Electricity Production in Slovakia, 2009
Figure 45: Nuclear Capacity and Generation in Slovakia, 2000–2020
Figure 46: Share of Nuclear In Electricity Production in Slovenia, 2009
Figure 47: Nuclear Capacity and Generation in Slovenia, 2000–2020
Figure 48: Share of Nuclear in Electricity Production in Spain, 2009
Figure 49: Nuclear Capacity and Generation in Spain, 2000–2020
Figure 50: Share of Nuclear In Electricity Production in Sweden, 2009
Figure 51: Nuclear Capacity and Generation in Sweden, 2000–2020
Figure 52: Share of Nuclear In Electricity Production in Switzerland, 2009
Figure 53: Nuclear Capacity and Generation in Switzerland, 2000–2020
Figure 54: Share of Nuclear In Electricity Production in Ukraine, 2009
Figure 55: Nuclear Capacity and Generation in Ukraine, 2000–2020
Figure 56: Share of Nuclear In Electricity Production in the UK, 2009
Figure 57: Nuclear Capacity and Generation in the UK, 2000–2020
Figure 58: Nuclear Capacity and Generation in the Middle East and Africa, 2000–2020
Figure 59: Share of Nuclear In Electricity Production in Iran, 2009
Figure 60: Nuclear Capacity and Generation in Iran, 2000–2020
Figure 61: Share of Nuclear In Electricity Production in South Africa, 2009
Figure 62: Nuclear Capacity and Generation in South Africa, 2000–2020
Figure 63: Nuclear Capacity and Generation in South and Central America, 2000–2020
Figure 64: Share of Nuclear In Electricity Production in Argentina, 2009
Figure 65: Nuclear Capacity and Generation in Argentina, 2000–2020
Figure 66: Share of Nuclear In Electricity Production in Brazil, 2009
Figure 67: Nuclear Capacity and Generation in Brazil, 2000–2020
Figure 68: Share of Nuclear In Electricity production in Mexico, 2009
Figure 69: Nuclear Capacity and Generation in Mexico, 2000–2020
Figure 70: Nuclear Capacity and Generation in North America, 2000–2020
Figure 71: Share of Nuclear In Electricity Production in Canada, 2009
Figure 72: Nuclear Capacity and Generation in Canada, 2000–2020
Figure 73: Share of Nuclear In Electricity Production in the US, 2009
Figure 74: Nuclear Capacity and Generation in the US, 2000–2020

“Nuclear’s Role in the Energy Mix to 2020 - Regulations for Emission Reduction and Huge Power Demand in Emerging Economies Reviving the Industry”, that provides an insight into the Global Nuclear market. The study, which is an offering from the company’s Energy Research Group, provides an in-depth analysis of the nuclear market across the world and highlights the various concerns, shifting trends and major players in the region. It provides forecasts for the nuclear capacity and generation, major nuclear facilities and the emerging markets till 2020. The research also provides the business viability in different geographic regions. The report provides analysis of the key trends and challenges in the nuclear market across the world. An analysis of the competitive scenario in different countries is also provided. The report is built using the data and information sourced from proprietary databases, primary and secondary research and in-house analysis by a team of industry experts.

Stringent emission regulations and increasing power demand will help the nuclear power market to grow

The power demand in the global market has increased at a very fast pace in the 21st century. The increasing power demand is attributed to the increasing standard of living, high economic growth and the increased use of electronic and electrical appliances. The power consumption has increased to a level where the world has started to look out for other alternative sources of power.

With the increasing use of thermal sources for generating power, the Green House gas (GHG) emissions have soared to a new high. The environmental effects from the GHG emissions are detrimental to the atmosphere. The world environmental bodies have put stringent regulations on the emission norm. The global power market needed the alternative sources with reduced carbon emission which could help to bridge the gap between power generation and power consumption. The nuclear power provides a solution for both the problems. The nuclear energy produces zero carbon emission power. The role of nuclear power in the share of power generation is expected to increase in the future years.

The nuclear capacity is expected to increase at an AAGR of 1.35% for the period 2009-2020 and reach 495.6GW.The nuclear generation is expected to increase to 3252.5 Billion KWh by 2020 showing an AAGR of 2.13% for the period 2009-2020

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