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Tytuł artykułu

Renewable Energy Sources - Benefits and Drawbacks From the Perspective of the Experiences of China, Brazil, Canada and The United States

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The aim of the article was to identify actions, based on the experiences of China, Brazil, Canada, and the United States, that countries can implement to increase the share of hydro, solar, and wind energy in their economies. The analysis relied on a literature review and data obtained from the Our World In Data database. The findings indicate that there are effective strategies for clean energy adoption that can be applied worldwide. Key considerations include investing in appropriate infrastructure, developing new energy storage technologies, and implementing environmentally friendly methods for disposing of photovoltaic panels. It is essential to provide financial support for scientific research, particularly in assessing the long-term potential of renewable energy, considering geographic distribution, and evaluating public acceptance. Regulatory frameworks should strike a balance between promoting renewable energy expansion and avoiding excessive growth.
Rocznik
Strony
39--52
Opis fizyczny
Bibliogr. 44 poz., il., tab.
Twórcy
  • Kielce University of Technology, Faculty of Environmental Engineering, Geomatics and Renewable Energy, Kielce, Poland
  • Latvia University of Life Science and Technologies, Faculty of Engineering, Jelgava, Latvia
Bibliografia
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  • 2. Shrestha, A et al. 2022. Evolution of energy mix in emerging countries: Modern renewable energy traditional renewable energy, and non-renewable energy. Renewable energy 199, 419-432.
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  • 6. Our world in data database, 2023. [electronic resource: https://ourworldindata.org/], [Access 25.01.2023].
  • 7. Osman, AI et al. 2023. Cost, environmental impact, and resilience of renewable energy under a changing climate: a review. Environmental Chemistry Letters 21, 741-764.
  • 8. Nazir, MS et al. 2020. Environmental impacts and risk factors of renewable energy paradigm a review. Environmental Science and Pollution Research 27, 33516-33526.
  • 9. Ray, P 2019. Renewable energy and sustainability. Clean Technology Environmental Policy 21, 1517-1533.
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  • 11. Said, R et al. 2022. Toward Understanding Renewable Energy and Sustainable Development in Developing and Developed Economies: A Review. Energies 15, 5349.
  • 12. Taner, A 2023. Can Renewable Energy Mitigate The Impacts Of Inflation And Policy Interest On Climate Change? Renewable Energy, ISSN 09601481 [In press].
  • 13. Oluwasegun, BA, et al. 2023. Does Economic Complexity Drive Energy Efficiency And Renewable Energy Transition? Energy 278, 127712.
  • 14. Lan, KCh et al. 2023. The influence of shadow economy, environmental policies and geopolitical risk on renewable energy: A comparison of high- and middle-income countries. Journal of Environmental Management 342, 118122.
  • 15. Azarpour, A et al. 2013. A Review on the Drawbacks of Renewable Energy as a Promising Energy Source of the Future. Arabian Journal for Science and Engineering 38, 317-328.
  • 16. Marks-Bielska et al. 2020. The Importance of Renewable Energy Sources in Poland’s Energy Mix. Energies 13, 4624.
  • 17. Maradin, D 2021. Advantages and disadvantages of renewable energy sources utilization. International Journal of Energy Economics and Policy 11, 176-183.
  • 18. Albuquerque, SF et al. 2019. An assessment of the socioeconomic externalities of hydropower plants in Brazil. Energy Policy 129, 868-879.
  • 19. Huafeng, Y et al. 2023. A demonstration concentrating solar power plant in China: Carbon neutrality, energy renewability and policy perspectives. Journal of Environmental Management 328, 117003.
  • 20. Kaewkhunok, S 2019. Solar energy expansion and the lesson from India and China. Sustainable Society 11, 1.
  • 21. Zhang, F 2023. Does not having an NDB disadvantage a country in finance mobilization for the energy transition? A comparative analysis of the solar PV deployment in the United States Germany and China. Energy Policy 172, 113306.
  • 22. Liu, F et al. 2023. Potential impact of global stilling on wind energy production in China. Energy 263, 125727.
  • 23. Wang, Y et al. 2022. Journal of Cleaner Production 376, 134287.
  • 24. Xue, Q et al. 2021. Environmental Benefit and Investment Value of Hydrogen-Based Wind Energy Storage System. Frontiers in Energy Resources 9, 629136.
  • 25. Nartowska, E et al. 2023. The Potential Environmental and Social Influence of the Inorganic Salt Hydrates Used as a Phase Change Material for Thermal Energy Storage in Solar Installations. International Journal of Environmental Research and Public Health 20, 1331.
  • 26. Nartowska, E et al. 2022. Management of salt hydrates in photovoltaic installations in light of existing environmental legislation. Structure and Environment 14, 11-17.
  • 27. Chen, H et al. 2022. Winding down the wind power curtailment in China: What made the difference?. Renewable and Sustainable Energy Reviews 167, 112725.
  • 28. Wu, J et al. 2022. Future projection of solar energy over China based on multi-regional climate model simulations. Earth and Space Science 9, e2021EA002207.
  • 29. Moore, S et al. 2022. Can we have clean energy and grow our crops too? Solar siting on agricultural land in the United States. Energy Research & Social Science 91, 102731.
  • 30. Solar Power in America 2014, World Wildlife [Electronic resource: https://www.worldwildlife.org/magazine/issues/winter-2014/articles/solar-power-in-america] [Access 24.01.2023].
  • 31. Wang, C et al. 2022. Looming challenge of photovoltaic waste under China’s solar ambition: A spatial-temporal assessment. Applied Energy 307, 118186.
  • 32. Trade and Supply Chain Barriers Delay Impact of Historic Clean Energy Law, 2022. Solar Energy Industries & Association, [electronic resource: https://www.seia.org/news/trade-and-supply-chain-
  • barriers-delay-impact-historic-clean-energy-law], [Access 24.01.2023]
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  • 34. Dedrick, J et al. 2014. Wind Energy: Should the U.S Renew Its Support? The Electiricty Journal 27, 60-74.
  • 35. Bin, D 2021. Discussion on the development direction of hydropower in China. Clean Energy 5, 10-18.
  • 36. Costa Pinto Reggiani, M 2016. Hydropower in Brazil – Development and Challenges. Trondheim: Norges teknisk-naturvitenskapelige universitet – NTNU.
  • 37. Ge, Z et al. 2023. Embodies carbon emissions induced by the construction of hydropower infrastructure in China. Energy Policy 173, 113404.
  • 38. Pineau, PO et al. 2017. Hydropower royalties: a comparative analysis of major producing countries (China, Brazil, Canada and the United States). Water 9, 1-16.
  • 39. Arbuckle, EJ et al. 2021. Insights for Canadian electricity generation planning from an integrated assessment model: Should we be more cautious about hydropower cost overruns?. United States. [Electronic Resource: https://www.osti.gov/servlets/purl/1762268: [Access 24.01.2023]. doi:10.1016/j.enpol.2021.112138.
  • 40. Semertzidis, T and Bleischwitz, R 2020. The water-energy nexus of Brazil’s hydropower. In: Lehmann, H (ed.) Sustainable Development and Resource Productivity the nexus aproaches. Taylor & Francis Group, 80-88.
  • 41. Raupp, I and Costa, F, 2021. Hydropower expansion planning in Brazil – Environmental improvements. Renewable and Sustainable Energy Reviews 152, 111623.
  • 42. Naranjo-Silva, S et al. 2023. Hydropower Development in Three South American Countries: Brazil, Colombia, and Ecuador, Iranian (Iranica). Journal of Energy and Environment 14,102-110.
  • 43. Yu, H et al. 2022. Energy Storage Capacity Planning Method for Improving Offshore Wind Power Consumption. Sustainability 14, 14589.
  • 44. Mrozik, W et al. 2021. Environmental impacts, pollution sources and pathways of spent lithium-ion batteries. Energy Environmental Science 14, 60.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ca07b0a3-6256-4ff8-8029-edb3846ee58a
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