Future of Renewable Resources in an Area Burdened by Brown Coal Mining

This contribution is focused on a possible utilization of renewable energy resources in the Podkrušnohoří region (Chmomutov, Most, Teplice, Ústí nad Labem districts) in the northern part of the Czech Republic after the end of brown coal mining in 2055. Results of the research describe current share of renewable energy resources (solar, wind, water, biogas) in the model area, and a future energy potential in order to ensure sustainable development of an anthropogenically burdened region. Aim of this contribution is to determine, which renewable energy resources would be the most suitable for energy production after the end of brown coal mining. It also describes current and possible use of geothermal power as there are registered heat flow anomalies in the area.


Introduction
Renewable energy resources are mostly dependent on geographical, geomorphologic and climatic conditions.However, not every area can meet suitable conditions, and after future attenuation of energy production from fossil fuels, these areas will be dependent on energy importation.Therefore, every area should be treated individually with respect to its current economical, social, and environmental conditions to secure sustainable development of the region.Very specific areas are those affected by anthropogenic activities, such as coal mining.Heir structure has been destructed and their future development is unstable.An example The long-term burden on the environment in the previous period was the reason for its deterioration, and some of its components were also reflected in inhabitants' poor health.Thanks to the reclamation and restoration processes, the area is successfully restored; however the future of energy production after the coal mining is not taken into an account.
Not only the North Bohemia region, but the Czech Republic in general is dependent on energy from the heat power plants.• use of extracted brown coal in combustion processes for the production of electricity and heat on the territory of the Czech Republic [2].
With the suspension of mining limits, the anthropogenic burden on the landscape around the Bílina Quarry will also increase.After the end of brown coal mining in the Most basin, pressure will be placed here on the development of alternative energy sources.Thus, it is essential to analyze the potential of these forms of energy in the model area in order to fulfill the energy consumption requirements of everybody who is currently dependent on its production by the combustion of brown coal.

Materials and Methods
The

Results and Discussion
In order to ensure the sustainable development of the model area after the end of mining and the use of brown coal in the power industry, we have to carry out a detailed analysis of the potential of renewable sources to ensure that society's energy demands are covered.The essential part of our research was to indentify, and summarize the current installation of renewable energy resources.

Solar Power Stations
For now, the anthropogenically burdened territory of North Bohemia has the highest installed capacity within the scope of RES energy from solar sources (102.28MW), as set forth in Table 1 [4].The power plants are situated mostly in the central part of the region under the Ore Mountains.
However, this is not an efficient or sustainable choice, as this high installed capacity came about because the construction of a solar power station was economically advantageous while a subsidy program was in place.That is why all of the power plants in this region were built between the years 2008-2010.This was caused by the abnormal and unsuitable construction of solar farms without taking into account the return on investment or the suitability of the installation.
Moreover, the seasonal and changing climate does not guarantee stable conditions for the production of energy from the Sun.At the same time, valuable land was removed from the Agricultural Land Fund.

Wind Power Stations
As a landlocked state, the Czech Republic does not have very good conditions for the utilization of wind.However, contemporary technology can easily deal even with fluctuating wind velocity, relatively frequent change of wind direction and frost.The current trend is the construction of ever larger machines.The reasons are the lower specific costs of energy production, and the maximum utilization of localities, of which there is a limited number.However, thanks to geographic conditions, the model area has the potential for the utilization of wind energy, as the field of average wind velocity at an altitude of 100 m in the Ore Mountains area is 7.5 and over (Figure 1).To calculate the field of average wind velocity at an altitude of 10 m above the surface, the same process and input data was used as for the "wind map" at an altitude of 100 m above the ground.

Hydroelectric Power Stations
Energy obtained from hydroelectric power plants, particularly from power plants of above 10 MW, recorded a significant overall growth in the Czech Republic in 2016 compared to the previous year, from 793,010 MWh (in 2015) to 947,388 MWh (in 2016).It was the same in the case of small hydroelectric power plants of up to 10 MW, where the gross electricity generation increased from 1,001,797 MWh (in 2015) to 1,053,100 MWh (in 2016) [3].There are a total of 7 hydroelectric power plants in the model area, but only one of these is ranked as large.This is the Střekov constant load power plant, with an installed output of 19.5 MW, which is located on the locks of the Elbe River (Table 3).

Biogas
Biogas stations are modern and environmentally friendly facilities which are regularly operated in the Czech Republic and around the world.They process a wide range of materials and waste of organic origin via an anaerobic digestion process, without air access, in closed reactors.The result of the process is biogas, for now most commonly used for the production of electricity and heat, as well as digestate, which can be used as a high-quality fertilizer (similar to compost) [8].4).The largest biogas station is found in the municipality of Málkov in the Chomutov district.Its installed output is 800 kW, whereby the station accepts raw materials such as poultry bedding, corn silage, abattoir waste, kitchen waste, freshly mowed grass, sediment from treatment plants and digestate for recycling [9].

Geothermal Power
Geothermal energy is now becoming one of the most attractive sources of renewable energy.The geothermal potential in the individual parts of our region varies considerably, particularly in relation to geothermal, geological and hydrogeological conditions.When incorporating the territory of a certain region, we must divide it into areas that are most suitable for the utilization of geothermal energy for individual buildings and areas that are suitable for larger sources that can be used for the large-scale supply of heat or electrical energy production.
J. MW).This kind encounters problems especially with the constructions within the hydroelectric power plant and with the nature of the flow of rivers in the model area.In comparison with other renewable energy sources, the utilization of biogas is negligible (4.2 MW) (Figure 2), but wider use should be considered, because biogas power stations accept raw materials and waste from agriculture [9].
Geothermal energy has a considerable potential in the model area, but requires

Conclusion
The area of interest (Chomutov, Most, Teplice and Ústí nad Labem regions) has a unique opportunity to define future of energy sources.This topic should be dealt with now, before the termination of brown coal mining to ensure sustainable development of the area.Current installed capacities of individual kinds of renewable sources are: 108.21 MW of solar power, 86.80 MW of wind power, 43.24 MW of hydro electrical power and 4.2 MW of biogas power.The conclusion is that the best potential is in wind power thanks to the geographical conditions of the area, but further analysis of economical cost should be made in the future to prove this statement.Geothermal potential of the area is exceptional, but a further research of this energy source should be more supported.
How to cite this paper: Vráblíková, J., Vráblík, P., Wildová, E. and Blazková, M. (2017) Future of Renewable Resources in an Area Burdened by Brown Coal Mining.DOI: 10.4236/nr.2017.812046758 Natural Resources of this area is located in the northern Bohemia under the Ore Mountains (Chomutov, Most, Teplice, and Ústí nad Labem districts), where brown coal is surface mined for over 200 years.The area was once a part of the so-called Black Triangle which connected mining areas in Central Europe with the most polluted environment.The greatest problem in the entire Black Triangle area was air pollution from sources at thermal power stations, heating plants, open-cast coal mines, and chemical plants.
area of interest is the Most basin located in the northern part of the Czech Republic.Intensive extraction of brown coal has influenced a wide area, first of all the Chomutov, Most, Teplice and Ústí nad Labem districts.The greatest problem in the entire area is air pollution, caused by thermal power stations, heating plants, open surface coal mines and chemical plants.The long-term burden onthe environment in the past was the cause of its deteriorated condition, with some of its components also reflected in the poor health condition of the inhabitants.The area is severely damaged, not only from an environmental point of view (landscape degradation, air pollution, etc.), but economic and social problems also occur there.Landscape management of the area is based on restoration and reclamation processes, which ensure integration of the damaged landscape back to the environment.Essential material used for writing the article was Annual Report on the Operation of the Czech Energy System[3], which is focused on individual shares of energy sources, including renewable ones, in the Czech Republic.Installed capacities of specific renewable sources in the model area were available online within web pages of companies that are concentrated on specific renewable source of energy (see References).One of the methods was to study those materials very thoroughly.Professional experience and results of several researches done by Faculty of Environment of the J. E. Purkyne University provided necessary information to analyze potential of individual kind of renewable source considering geographical conditions of the model area.It must be said that economical aspect was not considered and further analysis is needed.The same cause is a geothermal potential of the area.Future of this source is significant for the area, but it requires more research support.There is a unique opportunity to define future of the area, with respect to the energy sources, after the termination of coal mining.The data analysis consisted of summing up the individual installed capacities (kW) of specific energy resource (solar, wind, water, biogas) in each district of the model area.The data were processed in Microsoft Excel.The overall comparison of installed capacities (MW) of renewable energy resources for the whole area was summarized into one graph also in Microsoft Excel.DOI: 10.4236/nr.2017.812046760 Natural Resources

Figure 1 .
Figure 1.Average wind speed in 100 m over the surface [6].

Figure 2 .
Figure 2. Overview of installed capacity of renewable resources in the model area [MW].

Table 1 .
Installed capacity of solar power in model area [kW] [4].
There are a total of 12 biogas stations in the model area, of which half process products from agriculture, 3 utilize waste from sewage treatment plants, and 3 utilize landfill DOI: 10.4236/nr.2017.812046762 Natural Resources

Table 4 .
[6]]as power stations in the model area [kW][10].Based on experience from other countries with similar geological structures, the Czech Republic also has potential geothermal energy sources.Heat flow anomalies have been registered in the area of the Ohárecko Rift, i.e. the Podkrusnohorí region, the western part of the Czech chalk table and the Ostravsko-Karvinská basin.These are so-called low temperature hydrothermal sources, i.e. to a tem-.11billion, of which part will be funded by the EU.The power plant is to have a thermal output of 50 MW and an electrical output of 5 MWe much better potential in higher areas of the model region, as there are favorable wind conditions there.A map of average wind speed in 100 m over the surface[6]goes hand in hand with our assumption, that this is a suitable renewable source, but economic costs are not considered in this case.In total, 86.8 MW have been installed in the model area, mainly in the Chomutov district (55.8 MW).In third place in the utilization of renewable energy sources are hydroelectric power plants, which have a share of 43.24 MW of the total installed output; of this, the largest power plant is in the Ústí nad Labem district (19.5 Vráblíková et al.DOI: 10.4236/nr.2017.812046763 Natural Resources trical energy.In the winter, the energy will be used mainly for heating, while in the summer it will be used to generate electrical energy.The costs of digging the boreholes and constructing the geothermal power plant are expected to be DOI: 10.4236/nr.2017.812046764 Natural Resources around CZK 1