1. Introduction
Primary energy is the energy contained in primary energy carriers received directly from natural renewable and non-renewable resources. In 2020, the most commonly utilised primary sources of non-renewable energy in Poland were bituminous coal, lignite, natural gas, and petroleum, whose total part in the acquisition of primary energy amounted to 78.9% [
1]. On the other hand, energy from renewable sources is the energy originating from constantly recurring natural processes, and it is received from non-fossil renewable energy sources (RES) and the environment, as well as energy generated from solid, liquid, and gaseous biofuels, whose total share in the acquisition of primary energy equalled 21.1% in 2021 [
1]. Many countries are developing the renewable energy sector using public support. The aim of [
2] was to investigate the function of public support in renewable energy technologies in the setting of the emerging market of Poland. Public aid also has an effect on local authorities’ behaviour [
3]. Local governments play a very important role in the process of raising the production and utilisation of renewable energy at the local level. This applies to economic, social, and political conditions. The standing of the RES sector in Poland in the context of development tendencies around the world is presented in [
4]. In [
5], the forecasts for energy production from RES in Poland are presented. Artificial neural networks were employed to create the forecasts. The knowledge presented in this study can be utilised to formulate and execute climate policies in Europe and Poland. Investing in renewable energy sources can reduce energy poverty. To present changes in the degree of energy poverty in 2010–2018 in Poland, the authors of [
6] proposed the unification of various measures employed by researchers to create a new synthetic measure. The authors of [
7] aimed to illustrate the development of the renewable energy sector in Europe in the context of sustainable development in 2004–2019. The development of renewable energy sources concerns mainly solar energy and photovoltaics. The authors of [
8] presented a multivariate analysis comparing EU countries regarding renewable energy use. Seven variables were employed in the empirical research, defining the investigated complex phenomenon, gathered between 2011 and 2020 from 27 EU countries. The use of renewable energy in EU countries is quite diverse. However, there are natural limitations to green energy, meaning that there need to be other alternative sources of energy. A comparative analysis of the development of renewable energy is also presented in [
9] (Poland and Sweden) and [
10] (Poland and Lithuania).
Throughout the period of 2004–2021, a rising trend in the amount of primary energy derived from renewable sources was established in the context of the total primary energy in Poland (
Figure 1). The highest energy generation amounting to 12,804 Mtoe was indicated in 2021, whereas the lowest was 4354 Mtoe in 2004, meaning that the maximal relative change in energy production in this period was as much as 194%. The largest contribution of energy obtained from renewable sources in the context of the total primary energy in the country was indicated at the level of 21.2% in 2020, and the lowest was at 5.5% in 2004. The maximal change in the part of energy obtained in this period was 15.7 percentage points (p.p.).
2. Objective, Scope and Methodology of the Analysis
The objective of this analysis is to compare and evaluate the national generation of electricity from renewable energy sources in 2004–2021.
The scope of the analysis regards the main renewable energy sources used in Poland for generating energy, i.e., wind energy, solid biofuels, hydroelectricity, biogas, solar energy, municipal biodegradable waste, and liquid biofuels. The levels of obtaining electricity from these sources are continuously studied by the Production Department of the Central Statistical Office, and since 2015, they have been studied by the Energy Market Agency and the competent Ministry of Energy, based on reports gathered as part of the programme of statistical surveys of official statistics [
1].
The energy received from renewable sources is used in the production of electricity and heat. The studies prepared by the Central Statistical Office [
1] cover energy produced from wind, solid, liquid and gaseous biofuels, water, solar radiation, biodegradable municipal waste, geothermal resources, and the environment (heat pumps). The levels of electricity generation from individual renewable energy sources in Poland vary depending on the analysed year. The change in the electricity production structure divided into the used renewable energy sources was compared for the initial year (2004), the intermediate year (2013), and the final year (2021) of the conducted analysis (
Figure 2). In 2021, in comparison to 2004, there was an increment in the level of the production of electricity from all renewable energy sources, including the greatest for wind energy (w.e.), solid biofuels (s.b.), solar energy (s.e.), and biogas (g.b.), whereas the smallest was for liquid biofuels (l.b.) and biodegradable municipal waste (b.m.w.), with an almost unchanged level for hydropower (h.p.).
Overall, in the analysed period, the proportions of individual renewable energy sources in electricity production constituted (
Table 1) 43.67% for wind energy, 35.29% for solid biofuels, 14.4% for hydropower, 4.16% for biogas, 2.55% for solar energy, and less than 0.3% for other renewable energy sources, with 0.29% being biodegradable municipal waste and 0.01% being liquid biofuels.
The strategic aim of the Polish energy policy is to raise the contribution of energy obtained from renewable sources in the gross final consumption of energy to at least 23% in 2030, as stated in the adopted document on the Polish energy policy until 2040 [
11], and the index of energy obtained must not be less than 28% for heating and cooling, 32% for electricity, and 14% for transport. From the technical and economic points of view, it is possible to achieve the assumed goals when using proven and safe solutions in the area of renewable energy sourced primarily from biomass, hydropower, wind energy, and solar radiation [
12,
13,
14,
15,
16]. Incrementing the portion of renewable energy in the fuel structure lowers greenhouse gas emissions considerably, improves the security of the energy supply, contributes to supporting innovative sectors of the economy, and raises employment and development in every region of Poland.
The analysis makes it possible to establish the following, on a national scale, for each renewable energy source:
Maximum relative change in electricity production
where
Pmax and
Pmin constitute the largest and smallest levels of production from an energy source [toe].
Maximum change in the share of electricity production
where
SPmax and
SPmin represent the highest and lowest share of production from an energy source [%].
Periodic electricity production
where
P2004 and
P2021 constitute the national energy production in 2004 and 2021 [toe].
Periodic rate of changes in electricity production
Annual rate of changes in electricity production
where
Pi constitutes the production in the given (
i-th) calendar year, and
Pi+1 constitutes the production in the subsequent (
i + 1) calendar year [toe].
As there was no electricity generation for three sources of renewable energy in 2004, the analysis adopted the following as the relevant base year: 2009 for liquid biofuels, 2011 for solar energy, and 2016 for biodegradable municipal waste, for which the Central Statistical Office provided data confirming the production.
The analysis methodology adopted in this study regarding the method of gathering and processing information about annual levels of electricity production from the selected sources of renewable energy corresponds to the methodology proposed in [
1,
17,
18]. A Microsoft Excel spreadsheet was used to calculate the above indicators.
4. Conclusions
The authors of this work determined an increase in the acquisition of primary energy coming from renewable sources in the context of the total primary energy in Poland, from the level of 4354 Mtoe (5.5%) in 2004 to the level of 12,804 Mtoe (21.1%) in 2021. In 2004–2021, a total of 24.5 Mtoe of electricity from renewable sources was produced, including 10.71 Mtoe (43.7%) from wind energy, 8.66 Mtoe (35.3%) from solid biofuels, 3.44 Mtoe (14.0%) from hydropower, 1 Mtoe (4.2%) from biogas, 624 ktoe (2.5%) from solar energy, and 72 ktoe (0.3%) from other sources. Over the years, a change in the contribution of a given source to electricity production was established in relation to the total generation of electricity from renewable sources in Poland for wind energy (3.5 ÷ 61.8)%, solid biofuels (56.5 ÷ 21) %, hydropower (67.7 ÷ 7.5)%, biogas (2.7 ÷ 5.2)%, solar energy (0.01 ÷ 12.9)%, biodegradable municipal waste (0.06 ÷ 1.16)%, and liquid biofuels (0.035 ÷ 0.001)%. In the analysed period, the highest levels of the maximal relative change in electricity production (RCPmax) from renewable energy sources in Poland were found for solar energy and wind energy, whereas they were the lowest levels for hydroelectricity and solid biofuels. In the analysed period, the highest levels of the maximal change in the portion of electricity production (CSPmax) from renewable energy sources in Poland were found for hydropower, wind energy, and solid biofuels, whereas they were the lowest for liquid and biodegradable municipal waste biofuels. In the analysed period, the largest increments in periodic electricity production (Pp) from renewable energy sources in Poland were found for wind energy, solid biofuels, and solar energy, and the smallest were for liquid biofuels, hydropower, and biodegradable municipal waste. In the analysed period, the largest increases in the periodic rate of electricity generation changes (RCPp) from renewable energy sources in Poland were found for solar energy and wind energy, whereas they were the lowest for liquid biofuels and hydropower. In the analysed period, only positive values of the annual rate of changes in electricity production (RCPa) from renewable energy sources in Poland were established for biogas, solar energy, and biodegradable municipal waste, with mostly positive values for wind energy as well as solid biofuels and negative values for liquid biofuels, retaining the balance for hydropower.
The conclusions presented above are an analysis of data from 2004 to 2021. This was a period when the geopolitical situation of the world, and especially Europe, was different compared to the state of that after Russia’s attack on Ukraine on 24 February 2022. Before that date, Europe was on the brink of what could be the biggest energy crisis in history [
23]. Until recently, the European Union was dependent on Russian energy resources—EU countries for years withdrew from their own production and imported much cheaper, for those times, raw material from Russia. After the outbreak of hostilities, previous intentions became of little relevance.
In such circumstances, Poland also faced the problem of taking immediate action to solve the problem of energy security. Energy security concerns not only the generation of electricity but also the generation of heat. The lack of supplies of about 10 million tons of coal had to be covered overnight. The EU is currently not withdrawing from decarbonisation programs and reducing the part of fossil fuels in the energy industry. Implementing ambitious plans related to FIT for 55 activities may, however, affect the degree and scope of energy poverty. The costs of energy transformation are largely borne by individual recipients, and the implementation of decisions depends on rapidly and significantly changing global conditions and long-term financial risk. In this context, the energy mix plans [
23] adopted by Polish governments may be difficult to implement. All plans and forecasts for the use of RES are not able to take into account unexpected global changes. An example is the coronavirus pandemic, which caused a significant economic slowdown and reduced demand for electricity.
According to the Directive on Renewable Energy Sources (RED II), by 2050, European Union countries should achieve climate neutrality, i.e., a balance between emitting and absorbing greenhouse gases. According to the forecasts of the International Energy Agency (IEA), the percentage of RES in global energy production will grow to 30% by 2025. In the most optimistic scenario, RES may provide up to 80% of energy capacity by 2050.
According to the draft of the national plan for energy and climate for 2021–2030 [
24], the share of electricity in Poland generated from lignite and hard coal will gradually decrease (to 60% in 2030). Moreover, Poland will focus on the diversification of energy carriers, increasing the part of RES to 21% in the energy mix by 2025. In accordance with EU requirements, this plan will be updated in the near future. Currently, wind energy and photovoltaics are two segments of renewable energy sources that record the fastest development dynamics. In the longer term, biogas plants and biofuels, whose potential remains untapped, may gain a considerable portion in the mix.
Wind constitutes a source of energy independent of day and night or seasons, and wind turbine technology is becoming more and more advanced and efficient. In Poland, professional wind energy will be located in the form of offshore farms on the Baltic Sea. Around 2025, Polish wind farms on the Baltic Sea will start producing energy, according to government plans, and 10 GW of power will be installed in them. Optimistic forecasts assume that, in 2040, almost 60% of energy may come from offshore wind farms alone. In the case of offshore investments, changes in the way they are financed are crucial. Investors implementing offshore wind farm projects indicate the need to introduce certain mechanisms in the so-called offshore act to improve the economics of first projects. In the first phase of the system, which ended in mid-2021, support was granted for offshore wind farms having a total installed capacity of 5.9 GW by means of an administrative decision. These installations will be built in the period of 2026–2030 [
25]. In order to attain the new targets concerning the part of RES in the Polish energy mix, it will also be necessary to launch further investments in onshore wind energy, which is currently the cheapest energy production technology. Onshore wind energy currently has over 8.3 GW of capacity [
25].
Along with technological progress, the costs of photovoltaic installations have dropped significantly, and their efficiency has increased. For this reason, solar energy is becoming more and more competitive compared to traditional energy sources, even in countries with moderate insolation. The development of photovoltaics in Poland is mainly related to government financial programs. The use of photovoltaic panels integrated with buildings in prosumer installations is growing. This is a major contribution to the energy mix, as a result of which the efficiency of managing energy produced from RES increases. It is expected that interest in self-generation will continue to be high. Over the last 4 years, the number of PV micro-installations has increased from approx. 50,000 up to approx. 1.2 million. This is largely due to subsidies for prosumers. Today, the photovoltaic sector accounts for more than 12 GW of installed capacity [
25].
In December 2022, the installed capacity of all the generation sources in Poland equalled 60.24 GW [
26]. Renewable energy sources having a capacity of 22.67 GW already account for 37.6% of the installed capacity in the Polish energy mix. In December 2021, it was 16.9 GW. Currently, in the structure of the share in the installed capacity, the largest renewable source is photovoltaics (12,189 GW). Wind energy (8256 GW) is in second place, and hydro power plants (978 MW) come third, followed by biomass power plants (969 MW) and biogas power plants (279 MW).
Electricity production in Poland in 2022 reached a record level of 175 TWh. This was largely due to a large increase of almost 9 TWh in wind and solar power generation. In May 2023, solar and wind power plants accounted for 27.7% of electricity production in Poland [
27]. It is estimated that, by 2030, as much as 50 percent of the electricity demand in the country could be covered from renewable energy sources. Offshore and onshore wind farms are able to achieve an annual production of 77 TWh, and photovoltaics achieve 21 TWh.
In order to use RES resources productively, cooperation and balance between entities that generate, consume, store, and sell energy are necessary. Hence, the progress of the renewable energy sector on a macro scale depends on effective market management on a micro scale. The high growth in the efficiency of renewable energy sources is closely connected with the need to modernise the power grid. This modernisation will guarantee the flexibility of the system, i.e., the ability to adjust production to demand. Future EU action plans to invest in trans-European energy networks. With the development of energy produced from renewable energy sources, investments in modern IT technologies are necessary. Appropriate technological facilities will allow the connection of distributed renewable energy sources into an efficient energy system. IT platforms will make it possible to monitor the operation of distant wind and solar farms on an ongoing basis, to detect disturbances early enough, and to optimise the utilisation of energy generated from RES.
When analysing the RES development strategy in Poland, taking a look at the current energy mix as a whole is necessary. One of the key issues will be dynamic energy management, which will enable the movement of existing resources in the context of introducing unstable renewable sources into the system. The development of energy storage systems will be equally important, e.g., high-efficiency hydro pumped-storage power plants, above 80%.
Based on the available energy development scenarios until 2050 [
28], it can be concluded that further investments in renewable energy sources are justified and necessary. The outcomes of the current study demonstrate the need to conduct further research and analyses related to the energy mix of the European Union and Poland.