Intensive modernization and reconstruction of the energy sector takes place throughout the
world. The EU climate and energy policy will have a huge impact on the development of the energy
sector in the coming years. The European Union has adopted ambitious goals of transforming
towards a low-carbon economy and the integration of the energy market. In June 2015, the G7 countries
announced that they will move away from coal fired energy generation. Germany, which
has adopted one of the most ambitious energy transformation programs among all industrialized
countries, is leading these transformations. The long-term strategy, which has been implemented
for many years, allowed for planning the fundamental transformation of the energy sector; after the
Fukushima Daiichi nuclear disaster, Germany opted for a total withdrawal from nuclear energy and
coal in favor of renewable energy. The German energy transformation is mainly based on wind and
solar energy. Germany is the fifth economic power in the world and the largest economy in Europe.
Therefore, the German energy policy affects the energy policy of the neighboring countries. The
article presents the main assumptions of the German energy policy (referred to as Energiewende).
It also presents the impact of changes in the German energy sector on the development of energy
systems in selected European countries.
The future and the development of power industry are the one of the major issues in the domestic and global policy. The impact of the power sector on the earth climate changes and the attention for sufficient funds of energy in the following years are the primary challenges which the power industry is facing. The article delineates the current state of the domestic sector of energy production. In the prospect of the next few years, it will draw on conventional power engineering nevertheless, with the growing involvement of renewable energy sources. However, it is important to develop the new energy strategy, which will point the direction of domestic energy production sector changes. What is more relevant, the new legal regulations connected with environmental protection will definitely restrict using fossil fuels in the power industry. In addition, the paper discusses the most important aspects involved in creating a country’s energy mix. The first aspect is the current state of the energy sector in Poland, i.e. the percentage of particular technologies in the present power and electrical energy balances, the technical state of the manufacturing sector’s infrastructure. Based on historical data of Polskie Sieci Elektroenergetyczne SA regarding the energy consumption and demand, a mathematical estimation for electricity demand and its consumption forecast was performed. The obtained forecasts were then used to conduct a simulation of power and energy demand fulfillment in the national power system. Finally, several possible scenarios were presented, taking different factors affecting the energy sector in Poland into consideration.
The paper presents the results of the energy analysis of the conversion of solar radiation energy into electrical energy in Polish weather conditions. The effect of sunlight and working temperature on the photovoltaic module on its power curve P = f(U) is shown. STC and NOCT conditions are described for which the manufacturers specify the parameters of the photovoltaic modules. The manufacturers of photovoltaic panels should give the PPV = f(E) characteristic for the different values of the operating temperature of the modules. An analysis of the economic efficiency of a photovoltaic power plant investment of 1 MWp taking the current legal regulations for the three variants into account was presented. Variant I – the investor benefits from the support of public aid of operational only, Variant II – the investor benefits from the support of public aid for investment in the amount of PLN 1 million, Variant III – the investor benefits from the support of public aid for investment in the amount of PLN 2 million. For all variants, indicators for assessing the economic effectiveness of the investment and the value of the auction price from the maximum price to the price at which the project loses its profitability are determined.