With France, Belgium, Russia, Ukraine, UK, and Sweden leading the number of nuclear power plants, the Fukushima nuclear disaster has had a huge impact on the nuclear power industry in Europe, particularly Germany. Following the disaster, Germany permanently shut down eight of its nuclear reactors and also resolved to shut down the remaining nuclear reactors by 2022. Nuclear power has also not found favor in Italy, Switzerland, and Spain, who have banned the construct ruction of any new nuclear reactors. While Belgium, a leader in nuclear power in Europe at the moment, is also considering phasing out of its nuclear power plants by 2015.
In this industry scenario, it remains to be seen in the coming years is whether or not Europe can survive without the large amount of power that is generated from nuclear power every year in many countries across the continent. With the debate raging on strong about the use and safety of nuclear power, alternative sources of energies such as clean coal, LNG, renewable resources, etc., have come to the front as European nations decide whether to opt for nuclear energy in its future energy mix or not.
In order to understand the profitability and the dynamics of competitive structure of the global nuclear industry, Taiyou Research presents a Porter's Five Forces Analysis of the Nuclear Power Industry in Europe.
Michael Porter's Five Forces Model is one of the most effective analytical model for understanding and analyzing the competitive landscape in an industry. The model analyzes the bargaining power of buyers and suppliers; the competitive rivalry in the industry; the threat of new entrants and the threat of substitutes for the particular industry – in this case, coal faces the threat of substitution from the various renewable energy sources that are fast becoming popular today.
In our report, apart from the Porter’s Five Forces Model Analysis of the industry, we also analyze briefly what nuclear power is along with a definition of nuclear power, a profile of the nuclear power industry in Europe, including a market profile, market value and volume analysis, region-wise industry segmentation, and an industry forecast till 2015.
2. What is Nuclear Power?
2.1 Industry Definition
2.2 Overview of Nuclear Power
2.3 Current Use of Nuclear Power
2.4 Why Use Nuclear Power?
2.5 Safety of Nuclear Power
2.6 Nuclear Weapons Non-proliferation
3. Profile of the European Nuclear Power Industry
3.1 Market Profile
3.2 Industry Value & Volume Analysis
3.3 Region-wise Industry Segmentation
3.4 Industry Forecast
4. Nuclear Power Industry in Europe: Porter’s Five Forces Analysis
4.2 Power of Buyers
4.3 Power of Suppliers
4.4 Competitive Rivalry
4.5 New Entrants in the Industry
4.6 Presence of Substitutes
List of Figures
Figure 1: Share of Nuclear Power in Total Global Electricity Production (1971-2010)
Figure 2: Electricity Generation from Nuclear Power in 2010
Figure 3: Value of the European Nuclear Power Industry (USD Billion) 2006-2010
Figure 4: Volume of the European Nuclear Power Industry (Thousand GWh) 2006-2010
Figure 5: Market Share in the European Nuclear Power Industry (%), 2010
Figure 6: Value Forecast for the European Nuclear Power Industry (USD Billion) 2010-2015
Figure 7: Porter's Five Forces Analysis of the Nuclear Power Industry in Europe
List of Tables
Table 1: Value of the European Nuclear Power Industry (USD Billion) 2006-2010
Table 2: Volume of the European Nuclear Power Industry (Thousand GWh) 2006-2010
Table 3: Market Share in the European Nuclear Power Industry (%), 2010
Table 4: Value Forecast for the European Nuclear Power Industry (USD Billion) 2010-2015