How to search?
advanced search

Search results

Filters

  • Journals
  • Authors
  • Keywords
  • Date
  • Type

Search results

Number of results: 4
items per page: 25 50 75
Sort by:

Regulatory policy of renewable energy sources in the European national economies

Viktor Koval Yevheniia Sribna Sylwester Kaczmarzewski Alla Shapovalova Viktor Stupnytskyi
Polityka Energetyczna - Energy Policy Journal | 2021 | vol. 24 | No 3 | 61-78
Keywords renewable energy „green” tariff preferential taxation state regulation of renewable energy solar power plants
Download PDF Download RIS Download Bibtex

Abstract

The article analyzes and evaluates the development of renewable energy from the standpoint of state regulation and incentives. It is noted that the global production of renewable electricity has increased by 15% over the last year. The periods of introduction of the “green tariff” as an economic stimulus for the development of solar energy, which became the starting point for the development of alternative generation in different countries, are analyzed. The role of institutional factors in the development of renewable energy, such as the free issuance of licenses for electricity generation, stimulating the creation of specialized research areas, technology development and production of relevant equipment, was observed. The necessity of taking into account the regional peculiarity in the state stimulation of the development of renewable energy is proved. The economic efficiency of the state regulation of alternative energy in time measurement per conditional unit of alternative renewable energy stations was calculated, taking the coefficient of proportionality into account. Therefore, the calculation indicates the high effectiveness of government policy in regulating energy in terms of only short-term lag (α = 1.3) and the number of stations 80 percent of full saturation relative to the basic needs of energy consumption. A separate further stage in the development of renewable energy without the introduction and expansion of the “green tariff” has been identified. This approach was introduced in Poland, which ensured the country not only the inflow of foreign investment, but also the formation of free competition among investors.
Go to article

Bibliography

Barbose, G.L. 2021. US Renewables Portfolio Standards 2021 Status Update: Early Release. Berkeley, United States: Lawrence Berkeley National Laboratory (LBNL).
Bazaluk et al. 2021a – Bazaluk, O., Havrysh, V. and Nitsenko, V. 2021a. Energy and environmental assessment of straw production for power generation. E3S Web of Conferences 228, DOI: 10.1051/e3sconf/202122801010.
Bazaluk et al. 2021b – Bazaluk, O., Havrysh, V., Fedorchuk, M. and Nitsenko, V. 2021b. Energy Assessment of Sorghum Cultivation in Southern Ukraine. Agriculture 11(8), DOI: 10.3390/agriculture11080695.
BMWi 2010. Bundesministerium für Wirtschaft und Technologie (BMWi) 2010. Energiekonzept für eine umweltschonende, zuverlässige und bezahlbare Energieversorgung. Berlin: Bundesministerium für Wirtschaft und Technologie.
Cader et al. 2021 – Cader, J., Olczak, P. and Koneczna, R. 2021. Regional dependencies of interest in the “My Electricity” photovoltaic subsidy program in Poland. Polityka Energetyczna – Energy Policy Journal 24(2), pp. 97–116, DOI: 10.33223/epj/133473.
Climate Change Act 2008. [Online] https://www.legislation.gov.uk/ukpga/2008/27/contents [Accessed: 2021-09-05].
Climate Change Laws of the World 2016. 13th Five-Year Plan. [Online] https://www.climate-laws.org/geographies/china/policies/13th-five-year-plan [Accessed: 2021-09-05].
Edie Newsroom 1999. GERMANY: Shell opens solar cell factory in Europe’s ‘Solar Valley’. [Online] https://www.edie.net/news/0/GERMANY-Shell-opens-solar-cell-factory-in-Europes-Solar-Valley/1977 [Accessed: 2021-09-05].
EISA 2007. Energy Independence and Security Act of 2007. [Online] https://www.govinfo.gov/content/ pkg/BILLS-110hr6enr/pdf/BILLS-110hr6enr.pdf [Accessed: 2021-09-05].
Energy Act 2004. UK Public General Acts. [Online] https://www.legislation.gov.uk/ukpga/2004/20/contents [Accessed: 2021-09-05].
Energy Act 2008. UK Public General Acts. [Online] https://www.legislation.gov.uk/ukpga/2008/32/contents [Accessed: 2021-09-05].
Energy Act 2010. [Online] https://www.legislation.gov.uk/ukpga/2010/27/pdfs/ukpga_20100027_en.pdf [Accessed: 2021-09-05].
Energy Act 2013. [Online] https://www.legislation.gov.uk/ukpga/2013/32/pdfs/ukpga_20130032_en.pdf [Accessed: 2021-09-05].
Energy Act 2016. UK Public General Acts. [Online] https://www.legislation.gov.uk/ukpga/2016/20/contents/enacted [Accessed: 2021-09-05].
EPAct 2005. Energy Policy Act of 2005, Public Law 109-58. [Online] https://www.congress.gov/109/ plaws/publ58/PLAW-109publ58.pdf [Accessed: 2021-09-05].
Erneuerbare-Energien-Gesetz 2000. [Online] https://www.clearingstelle-eeg-kwkg.de/eeg2000 [Accessed: 2021-09-05].
Erneuerbare-Energien-Gesetz 2004. [Online] https://www.clearingstelle-eeg-kwkg.de/eeg2004 [Accessed: 2021-09-05].
Erneuerbare-Energien-Gesetz 2009. [Online] https://www.clearingstelle-eeg-kwkg.de/eeg2009 [Accessed: 2021-09-05].
Erneuerbare-Energien-Gesetz 2014. Retrieved from https://www.clearingstelle-eeg-kwkg.de/eeg2014 [Accessed: 2021-09-05].
Gestore Rete Trasmissione Nazionale 2002. Provisional Data on Operation of the Italian Power System. [Online] http://collaudo.download.terna.it/terna/0000/0124/06.PDF [Accessed: 2021-09-05].
GSE 2014. Incentivazionedellaproduzione di energiaelettrica da impianti a fontirinnovabilidiversidai fotovoltaici. [Online] https://www.gse.it [Accessed: 2021-09-05].
GSE 2021. Energy consumption. [Online] https://www.gse.it/ [Accessed: 2021-09-05].
IRENA 2015. Renewable Energy Prospects: United States of America. [Online] https://www.irena.org/publications/2015/Jan/Renewable-Energy-Prospects-United-States-of-America [Accessed: 2021-09-05].
IRENA 2020. Country Rankings. [Online] https://www.irena.org/Statistics/View-Data-by-Topic/Capacity-and-Generation/Country-Rankings [Accessed: 2021-09-05].
Kholiavko et al. 2020 – Kholiavko, N., Popova, L., Marych, M., Hanzhurenko, I., Koliadenko, S. and Nitsenko, V. 2020. Comprehensive methodological approach to estimating the research component influence on the information economy development. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu 4(178), pp. 192–199, DOI: 10.33271/nvngu/2020-4/192.
Kohler, T. 2021. Renewable Energies marketing models Poland. [Online] https://www.roedl.com/renewable-energy-consulting/markets/countries/marketing-models-poland [Accessed: 2021-09-05].
Koval et al. 2021 – Koval, V., Hrymalyuk, A., Kulish, A., Kontseva, V., Boiko, N. and Nesenenko, P. 2021. Economic policy of industrial development and investment approach to the analysis of the national economy. Estudios De Economia Aplicada 39(6), DOI: 10.25115/eea.v39i6.5263.
Koval et al. 2019 – Koval, V., Sribna, Y. and Gaska, K. 2019. Energy cooperation Ukraine-Poland to strengthen energy security. E3S Web Conference 132, 01009, DOI: 10.1051/e3sconf/201913201009.
Labunska et al. 2017 – Labunska, Sv., Petrova, M. and Prokopishyna, O. 2017. Asset and cost management for innovation activity. Economic Annals – XXI 165(5–6), pp. 13–18, DOI: 10.21003/ea.V165-03.
Ministry of Economic Development of Italy 2018. Proposta di piano nazionaleintegrato per l’energia e il clima. [Online] https://www.mise.gov.it/images/stories/documenti/Proposta_di_Piano_Nazionale_Integrato_ per_Energia_e_il_Clima_Italiano.pdf [Accessed: 2021-09-05] (in Italian).
MOFCOM 2013. Renewable Energy Law of the People’s Republic of China. [Online] http://english.mofcom.gov.cn/article/policyrelease/Businessregulations/201312/20131200432160.shtml [Accessed: 2021-09-05].
National Development and Reform Comission 2019. [Online] https://web.archive.org/web/20190511191431/http://www.ndrc.gov.cn/gzdt/201509/t20150921_751695.html [Accessed: 2021-09-05].
National Energy Administration 2021. [Online] http://english.www.gov.cn/state_council/2014/10/01/content_ 281474991089761.htm [Accessed: 2021-09-05].
Olczak at al. 2020 – Olczak, P., Matuszewska, D. and Kryzia, D. 2020. “Mój Prąd” as an example of the photovoltaic one off grant program in Poland. Polityka Energetyczna – Energy Policy Journal 23(2), pp. 123–138, DOI: 10.33223/epj/122482.
Olczak at al. 2021a – Olczak, P., Kryzia, D., Matuszewska, D. and Kuta, M. 2021a. “My Electricity” Program Effectiveness Supporting the Development of PV Installation in Poland. Energies 14(1), 231, DOI: 10.3390/en14010231.
Olczak et al. 2021b – Olczak, P., Przemysław, J., Kryzia, D., Matuszewska, D., Fyk, M. and Dyczko, A. 2021b. Analyses of duck curve phenomena potential in polish PV prosumer households’ installations. Energy Reports 7, November 2021, pp. 4609–4622, DOI: 10.1016/j.egyr.2021.07.038.
Piper et al. 2019 – Piper, S., Cotting, A., Wilson, A., O’Reilly, J., Hlinka, M., Lehmann, J. and Hering, G. 2019. The 2020 US renewable energy outlook. [Online] https://www.spglobal.com/marketintelligence/en/news-insights/research/the-2020-us-renewable-energy-outlook [Accessed: 2021-09-05].
Pukala, R. and Petrova, M. 2019. Application of the AHP method to select an optimal source of financing innovation in the mining sector. E3S Web of Conferences 105, DOI: 10.1051/e3sconf/201910504034.
REN21 2018. A comprehensive annual overview of the state of renewable energy. [Online] https://www.ren21.net/wp-content/uploads/2019/08/Full-Report-2018.pdf [Accessed: 2021-09-05].
Shmygol et al. 2020 – Shmygol, N., Schiavone, F., Trokhymets, O., Pawliszczy, D., Koval, V., Zavgorodniy, R. and Vorfolomeiev, A. 2020. Model for assessing and implementing resource-efficient strategy of industry. CEUR Workshop Proceedings 2713, pp. 277–294.
Rogalski, T. 2018. A guide to support for Polish renewable energy sources following the 2018 amendments. [Online] https://www.nortonrosefulbright.com/de-de/wissen/publications/5932a770/a-guide-to-support -for-polish-renewable-energy-sources-following-the-2018-amendments [Accessed: 2021-09-05].
Tsimoshynska et al. 2021 – Tsimoshynska, O., Koval, M., Kryshtal, H., Filipishyna, L., Arsawan, W.E. and Koval, V. 2021. Investing in road construction infrastructure projects under public-private partnership in the form of concession. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu 2, pp. 184–192, DOI: 10.33271/nvngu/2021-2/184.
Yankovyi et al. 2021 – Yankovyi, O., Koval, V., Lazorenko, L., Poberezhets, O., Novikova, M. and Gonchar, V. 2021. Modeling Sustainable Economic Development Using Production Functions. Estudios de Economia Aplicada 39(5), DOI: 10.25115/eea.v39i5.5090.
Go to article

Authors and Affiliations

Viktor Koval
1
ORCID: ORCID
Yevheniia Sribna
2
ORCID: ORCID
Sylwester Kaczmarzewski
3
ORCID: ORCID
Alla Shapovalova
4
Viktor Stupnytskyi
5
  1. National Academy of Sciences of Ukraine, Ukraine
  2. National University of Water and Environmental Engineering, Ukraine
  3. Mineral and Energy Economy Research Institute Polish Akademy of Sciences, Kraków, Poland
  4. V.I. Vernadsky Taurida National University, Ukraine
  5. Dubno Branch Higher Education Institution «Open International University of Human Development «Ukraine», Ukraine

The design of a model for a 1 MW parabolic trough concentrated solar power plant in Sudan using TRNSYS software

Abdelkareem Abdallah Abdelkareem Jebreel Hamad Mohamed Ali Hamad
Polityka Energetyczna - Energy Policy Journal | 2022 | vol. 25 | No 3 | 67-90
Keywords thermal storage thermal solar collectors photovoltaic solar panel renewable source of energy solar power plants
Download PDF Download RIS Download Bibtex

Abstract

Solar photovoltaic (PV) and concentrated solar power (CSP) systems are the present worldwide trends in utilizing solar energy for electricity generation. Solar energy produced from photovoltaic cells (PV) is considered the main common technology used due to its low capital cost; however, the relatively low efficiency of PV cells has spotlighted development and research on thermal engine applications using concentrated solar power. The efficiency of concentrated solar power is greater than that of PV and considering the solar potential for Sudan. Therefore, this study has been performed in an attempt to draw attention to the utilization of CSP in Sudan since the share of CSP is insignificant in comparison with PV, besides the suitability of CSP applications to Sudan’s hot climate and the high solar energy resource, the study presents a design model of 1 MW parabolic trough collectors (PTC) using the Rankine cycle with thermal energy storage (TES) in Sudan, by adopting reference values of the Gurgaon PTC power plant in India. The design of a 1 MW Concentrated Solar thermal power plant using parabolic trough collectors (PTC) and thermal energy storage is proposed. The simulation was performed for a site receiving an annual direct normal irradiance (DNI) of 1915 kWh/m2, near Khartoum. The results showed that the plant can produce between nearly 0.6 to 1 MWh during the year, and around 0.9 MWh when it encompasses thermal energy storage with an average thermal efficiency of 24%. These results of the PTC Power plant encourage further investigation and the development of CSP technologies for electricity generation in Sudan.
Go to article

Authors and Affiliations

Abdelkareem Abdallah Abdelkareem Jebreel
1
ORCID: ORCID
Hamad Mohamed Ali Hamad
2
  1. Sapienza Università di Roma, Italy
  2. University of Khartoum, Sudan

Landscape Protection around the Pobiedziska Solar Park

Paweł Szumigała Karolina Szumigała
Teka Komisji Urbanistyki i Architektury Oddziału Polskiej Akademii Nauk w Krakowie | 2022 | vol. L | 203-229 | DOI: 10.24425/tkuia.2022.144851
Keywords solar power plant landscape management agricultural landscape rural landscape green screens
Download PDF Download RIS Download Bibtex

Abstract

The construction of large solar parks requires dedicated landscaping methods. Solar parks — colloquially called photovoltaic farms or solar power plants — require landscape conservation measures to be implemented in the areas adjacent to these projects. This is an extremely important issue for sustainable development and the protection of cultural assets and identities, including the rural landscape. The aim of this work is to present the possibilities of landscape protection using the example of the planned solar park in the municipality of Pobiedziska in the Greater Poland Voivodeship. The studies use case studies, qualitative and quantitative analyses and in situ tests. The studies covered the planned investment area of 160 ha and the adjacent areas. The project proposals for landscape protection applied in this case — ‘green protection walls’ — were presented. The measures presented make it possible to preserve open-air landscapes in agricultural and rural areas from the point of view of sustainable development and the protection of cultural assets, and their formula, adapted to the landscape, can be applied to a large extent and can be dedicated to the local conditions in rural areas.
Go to article

Authors and Affiliations

Paweł Szumigała
1
Karolina Szumigała
1
  1. Poznań University of Life Sciences, Department of Green Areas and Landscape Architecture

Feasibility study for the implementation of solar power plants in the USA

Volodymyr Mykhaylovych Mamalyga Oleh Oleksandrovych Prytulenko
Polityka Energetyczna - Energy Policy Journal | 2024 | vol. 27 | No 1 | 67-80
Keywords implementation renewable energy sources solar power plants Feasibility study Calculation methodology
Download PDF Download RIS Download Bibtex

Abstract

The article provides calculations and feasibility study of solar power plants implementation for the states of New Jersey, New Mexico and Michigan. The average cost for grid power, average household kwh use per month and average cost for 6-kw system with 26% federal tax credit applied were taken into account. The approach outlined in this article proposes to take into account changes in the value of money, tariffs and period of service of solar power plant.
The conducted research shows that the construction of SPPs in the USA can be profitable in the conditions of constant growth in prices for electricity produced using traditional energy sources. However, with the stability of electricity prices, the use of solar energy is far from the most profitable investment.
It has been proven that there is a need to focus on the research of the latest energy storage and generation technologies in order to reduce the impact of the instability of renewable energy production on the stability of power grids in the future. Further development of SPPs can help increase their availability and competitiveness, which will contribute to the creation of a sustainable and green energy infrastructure. The development of technologies in this area will also lead to a decrease in installation prices and an increase in the efficiency of the panels.
The main limitation of solar power plants is the need for a large area for the installation of panels in order to achieve the level of industrial electricity production. Therefore, now the centralized production of electricity using the sun is possible only in areas that are unsuitable for life and economic activity.

Go to article

Authors and Affiliations

Volodymyr Mykhaylovych Mamalyga
1
ORCID: ORCID
Oleh Oleksandrovych Prytulenko
1
ORCID: ORCID
  1. Educational and Research Institute of Institute of Nuclear and Thermal Energy, National Technical University of Ukraine “Igor Sikorsky Kyiv Polytechnic Institute”, Ukraine

This page uses 'cookies'. Learn more