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Udržitelná energie (Czech Wikipedia)

Analysis of information sources in references of the Wikipedia article "Udržitelná energie" in Czech language version.

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56doi.org
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28elsevier.com
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acs.org

pubs.acs.org

  • GOETZ, Katelyn P.; TAYLOR, Alexander D.; HOFSTETTER, Yvonne J. Sustainability in Perovskite Solar Cells. ACS Applied Materials & Interfaces. 2021-01-13, roč. 13, čís. 1, s. 1–17. Dostupné online [cit. 2022-01-01]. ISSN 1944-8244. DOI 10.1021/acsami.0c17269. (anglicky) 

aiche-cep.com

  • Dream or Reality? Electrification of the Chemical Process Industries. www.aiche-cep.com [online]. [cit. 2022-01-03]. Dostupné online. (anglicky) 

americangeosciences.org

  • What are the advantages and disadvantages of offshore wind farms?. American Geosciences Institute [online]. 2016-05-12 [cit. 2022-01-01]. Dostupné online. (anglicky) 

arstechnica.com

  • TIMMER, John. Why are nuclear plants so expensive? Safety’s only part of the story. Ars Technica [online]. 2020-11-21 [cit. 2022-01-02]. Dostupné online. (anglicky) 

bbc.com

  • What happens to all the old wind turbines?. BBC News. 2020-02-07. Dostupné online [cit. 2022-01-01]. (anglicky) 
  • Nuclear fusion is 'a question of when, not if'. BBC News. 2019-11-06. Dostupné online [cit. 2022-01-02]. (anglicky) 
  • KATZ, Cheryl. The batteries that could make fossil fuels obsolete. www.bbc.com [online]. [cit. 2022-01-03]. Dostupné online. (anglicky) 
  • ABDOLHAMIDI, Shervin. An ancient engineering feat that harnessed the wind. www.bbc.com [online]. [cit. 2022-01-06]. Dostupné online. (anglicky) 

bloomberg.com

  • CARR, Mathew. How High Does Carbon Need to Be? Somewhere From $20-$27,000. www.bloomberg.com [online]. Bloomberg [cit. 2022-01-04]. Dostupné v archivu pořízeném z originálu dne 2019-08-05. 

cambridge.org

carbonbrief.org

  • Solar, wind and nuclear have ‘amazingly low’ carbon footprints, study finds. Carbon Brief [online]. 2017-12-08 [cit. 2022-01-02]. Dostupné online. (anglicky) 
  • Wind and solar are 30-50% cheaper than thought, admits UK government. Carbon Brief [online]. 2020-08-27 [cit. 2022-01-02]. Dostupné online. (anglicky) 
  • In-depth Q&A: Does the world need hydrogen to solve climate change?. Carbon Brief [online]. 2020-11-30 [cit. 2022-01-03]. Dostupné online. (anglicky) 

climatewatchdata.org

  • | Greenhouse Gas (GHG) Emissions | Climate Watch. www.climatewatchdata.org [online]. [cit. 2021-12-31]. Dostupné online. 

doi.org

dx.doi.org

  • GUNNARSDOTTIR, I.; DAVIDSDOTTIR, B.; WORRELL, E. Sustainable energy development: History of the concept and emerging themes. Renewable and Sustainable Energy Reviews. 2021-05, roč. 141, s. 110770. Dostupné online [cit. 2021-12-31]. DOI 10.1016/j.rser.2021.110770. (anglicky) 
  • VERA, Ivan; LANGLOIS, Lucille. Energy indicators for sustainable development. Energy. 2007-06, roč. 32, čís. 6, s. 875–882. Dostupné online [cit. 2021-12-31]. DOI 10.1016/j.energy.2006.08.006. (anglicky) 
  • WATTS, Nick; AMANN, Markus; ARNELL, Nigel. The 2020 report of The Lancet Countdown on health and climate change: responding to converging crises. The Lancet. 2021-01, roč. 397, čís. 10269, s. 129–170. Dostupné online [cit. 2021-12-31]. DOI 10.1016/S0140-6736(20)32290-X. (anglicky) 
  • MUNDACA, Luis; ÜRGE-VORSATZ, Diana; WILSON, Charlie. Demand-side approaches for limiting global warming to 1.5 °C. Energy Efficiency. 2019-02, roč. 12, čís. 2, s. 343–362. Dostupné online [cit. 2021-12-31]. ISSN 1570-646X. DOI 10.1007/s12053-018-9722-9. (anglicky) 
  • BROCKWAY, Paul E.; SORRELL, Steve; SEMIENIUK, Gregor. Energy efficiency and economy-wide rebound effects: A review of the evidence and its implications. Renewable and Sustainable Energy Reviews. 2021-05, roč. 141, s. 110781. Dostupné online [cit. 2021-12-31]. DOI 10.1016/j.rser.2021.110781. (anglicky) 
  • SANTANGELI, Andrea; TOIVONEN, Tuuli; POUZOLS, Federico Montesino. Global change synergies and trade‐offs between renewable energy and biodiversity. GCB Bioenergy. 2016-09, roč. 8, čís. 5, s. 941–951. Dostupné online [cit. 2022-01-01]. ISSN 1757-1693. DOI 10.1111/gcbb.12299. (anglicky) 
  • REHBEIN, Jose A.; WATSON, James E. M.; LANE, Joe L. Renewable energy development threatens many globally important biodiversity areas. Global Change Biology. 2020-05, roč. 26, čís. 5, s. 3040–3051. PMID: 32133726. Dostupné online [cit. 2022-01-01]. ISSN 1365-2486. DOI 10.1111/gcb.15067. PMID 32133726. 
  • VICTORIA, Marta; HAEGEL, Nancy; PETERS, Ian Marius. Solar photovoltaics is ready to power a sustainable future. Joule. 2021-05, roč. 5, čís. 5, s. 1041–1056. Dostupné online [cit. 2022-01-01]. DOI 10.1016/j.joule.2021.03.005. (anglicky) 
  • GOETZ, Katelyn P.; TAYLOR, Alexander D.; HOFSTETTER, Yvonne J. Sustainability in Perovskite Solar Cells. ACS Applied Materials & Interfaces. 2021-01-13, roč. 13, čís. 1, s. 1–17. Dostupné online [cit. 2022-01-01]. ISSN 1944-8244. DOI 10.1021/acsami.0c17269. (anglicky) 
  • XU, Yan; LI, Jinhui; TAN, Quanyin. Global status of recycling waste solar panels: A review. Waste Management. 2018-05, roč. 75, s. 450–458. Dostupné online [cit. 2022-01-01]. DOI 10.1016/j.wasman.2018.01.036. (anglicky) 
  • TIAN, Xueyu; STRANKS, Samuel D.; YOU, Fengqi. Life cycle energy use and environmental implications of high-performance perovskite tandem solar cells. Science Advances. 2020-07-31, roč. 6, čís. 31, s. eabb0055. Dostupné online [cit. 2022-01-01]. ISSN 2375-2548. DOI 10.1126/sciadv.abb0055. PMID 32789177. (anglicky) 
  • WANG, Shifeng; WANG, Sicong. Impacts of wind energy on environment: A review. Renewable and Sustainable Energy Reviews. 2015-09, roč. 49, s. 437–443. Dostupné online [cit. 2022-01-01]. DOI 10.1016/j.rser.2015.04.137. (anglicky) 
  • HUANG, Yu-Fong; GAN, Xing-Jia; CHIUEH, Pei-Te. Life cycle assessment and net energy analysis of offshore wind power systems. Renewable Energy. 2017-03, roč. 102, s. 98–106. Dostupné online [cit. 2022-01-01]. DOI 10.1016/j.renene.2016.10.050. (anglicky) 
  • MORAN, Emilio F.; LOPEZ, Maria Claudia; MOORE, Nathan. Sustainable hydropower in the 21st century. Proceedings of the National Academy of Sciences. 2018-11-20, roč. 115, čís. 47, s. 11891–11898. Dostupné online [cit. 2022-01-02]. ISSN 0027-8424. DOI 10.1073/pnas.1809426115. PMID 30397145. (anglicky) 
  • ALMEIDA, Rafael M.; SHI, Qinru; GOMES-SELMAN, Jonathan M. Reducing greenhouse gas emissions of Amazon hydropower with strategic dam planning. Nature Communications. 2019-12, roč. 10, čís. 1, s. 4281. Dostupné online [cit. 2022-01-02]. ISSN 2041-1723. DOI 10.1038/s41467-019-12179-5. PMID 31537792. (anglicky) 
  • KOPETZ, Heinz. Build a biomass energy market. Nature. 2013-02-07, roč. 494, čís. 7435, s. 29–31. Dostupné online [cit. 2022-01-02]. ISSN 0028-0836. DOI 10.1038/494029a. (anglicky) 
  • DEMIRBAS, Ayhan. Biofuels sources, biofuel policy, biofuel economy and global biofuel projections. Energy Conversion and Management. 2008-08, roč. 49, čís. 8, s. 2106–2116. Dostupné online [cit. 2022-01-02]. DOI 10.1016/j.enconman.2008.02.020. (anglicky) 
  • CORREA, Diego F.; BEYER, Hawthorne L.; FARGIONE, Joseph E. Towards the implementation of sustainable biofuel production systems. Renewable and Sustainable Energy Reviews. 2019-06, roč. 107, s. 250–263. Dostupné online [cit. 2022-01-02]. DOI 10.1016/j.rser.2019.03.005. (anglicky) 
  • AYOMPE, Lacour M.; SCHAAFSMA, M.; EGOH, Benis N. Towards sustainable palm oil production: The positive and negative impacts on ecosystem services and human wellbeing. Journal of Cleaner Production. 2021-01, roč. 278, s. 123914. Dostupné online [cit. 2022-01-02]. DOI 10.1016/j.jclepro.2020.123914. (anglicky) 
  • COMMITTEE ON DEVELOPING A RESEARCH AGENDA FOR CARBON DIOXIDE REMOVAL AND RELIABLE SEQUESTRATION; BOARD ON ATMOSPHERIC SCIENCES AND CLIMATE; BOARD ON ENERGY AND ENVIRONMENTAL SYSTEMS. Negative Emissions Technologies and Reliable Sequestration: A Research Agenda. Washington, D.C.: National Academies Press Dostupné online. ISBN 978-0-309-48452-7. DOI 10.17226/25259. S. 3. DOI: 10.17226/25259. 
  • GÜRSAN, C.; DE GOOYERT, V. The systemic impact of a transition fuel: Does natural gas help or hinder the energy transition?. Renewable and Sustainable Energy Reviews. 2021-03, roč. 138, s. 110552. Dostupné online [cit. 2022-01-02]. DOI 10.1016/j.rser.2020.110552. (anglicky) 
  • BUDINIS, Sara; KREVOR, Samuel; DOWELL, Niall Mac. An assessment of CCS costs, barriers and potential. Energy Strategy Reviews. 2018-11, roč. 22, s. 61–81. Dostupné online [cit. 2022-01-02]. DOI 10.1016/j.esr.2018.08.003. (anglicky) 
  • VAN ZALK, John; BEHRENS, Paul. The spatial extent of renewable and non-renewable power generation: A review and meta-analysis of power densities and their application in the U.S.. Energy Policy. 2018-12, roč. 123, s. 83–91. Dostupné online [cit. 2022-01-02]. DOI 10.1016/j.enpol.2018.08.023. (anglicky) 
  • LOCATELLI, Giorgio; MIGNACCA, Benito. 8 - Small Modular Nuclear Reactors. Příprava vydání Trevor M. Letcher. [s.l.]: Elsevier Dostupné online. ISBN 978-0-08-102886-5. DOI 10.1016/b978-0-08-102886-5.00008-6. S. 151–169. (anglicky) DOI: 10.1016/B978-0-08-102886-5.00008-6. 
  • JACCARD, Mark. The Citizen's Guide to Climate Success: Overcoming Myths that Hinder Progress. Cambridge: Cambridge University Press, 2020. 202–203 s. Dostupné online. ISBN 978-1-108-47937-0. DOI 10.1017/9781108783453. Kapitola 11 – "Renewables Have Won". DOI: 10.1017/9781108783453. 
  • VANDYCK, Toon; KERAMIDAS, Kimon; KITOUS, Alban. Air quality co-benefits for human health and agriculture counterbalance costs to meet Paris Agreement pledges. Nature Communications. 2018-12, roč. 9, čís. 1, s. 4939. Dostupné online [cit. 2022-01-03]. ISSN 2041-1723. DOI 10.1038/s41467-018-06885-9. PMID 30467311. (anglicky) 
  • HOPWOOD, David. Blueprint for sustainability?. Refocus. 2007-05, roč. 8, čís. 3, s. 54–57. Dostupné online [cit. 2022-01-03]. DOI 10.1016/S1471-0846(07)70068-9. (anglicky) 
  • BLANCO, Herib; FAAIJ, André. A review at the role of storage in energy systems with a focus on Power to Gas and long-term storage. Renewable and Sustainable Energy Reviews. 2018-01, roč. 81, s. 1049–1086. Dostupné online [cit. 2022-01-03]. DOI 10.1016/j.rser.2017.07.062. (anglicky) 
  • BLOESS, Andreas; SCHILL, Wolf-Peter; ZERRAHN, Alexander. Power-to-heat for renewable energy integration: A review of technologies, modeling approaches, and flexibility potentials. Applied Energy. 2018-02, roč. 212, s. 1611–1626. Dostupné online [cit. 2022-01-03]. DOI 10.1016/j.apenergy.2017.12.073. (anglicky) 
  • KOOHI-FAYEGH, S.; ROSEN, M.A. A review of energy storage types, applications and recent developments. Journal of Energy Storage. 2020-02, roč. 27, s. 101047. Dostupné online [cit. 2022-01-03]. DOI 10.1016/j.est.2019.101047. (anglicky) 
  • BLANCO, Herib; FAAIJ, André. A review at the role of storage in energy systems with a focus on Power to Gas and long-term storage. Renewable and Sustainable Energy Reviews. 2018-01, roč. 81, s. 1049–1086. Dostupné online [cit. 2022-01-03]. DOI 10.1016/j.rser.2017.07.062. (anglicky) 
  • HUNT, Julian D.; BYERS, Edward; WADA, Yoshihide. Global resource potential of seasonal pumped hydropower storage for energy and water storage. Nature Communications. 2020-12, roč. 11, čís. 1, s. 947. Dostupné online [cit. 2022-01-03]. ISSN 2041-1723. DOI 10.1038/s41467-020-14555-y. PMID 32075965. (anglicky) 
  • HERRINGTON, Richard. Mining our green future. Nature Reviews Materials. 2021-06, roč. 6, čís. 6, s. 456–458. Dostupné online [cit. 2022-01-03]. ISSN 2058-8437. DOI 10.1038/s41578-021-00325-9. (anglicky) 
  • BABBITT, Callie W. Sustainability perspectives on lithium-ion batteries. Clean Technologies and Environmental Policy. 2020-08-01, roč. 22, čís. 6, s. 1213–1214. Dostupné online [cit. 2022-01-03]. ISSN 1618-9558. DOI 10.1007/s10098-020-01890-3. (anglicky) 
  • GRIFFITHS, Steve; SOVACOOL, Benjamin K.; KIM, Jinsoo. Industrial decarbonization via hydrogen: A critical and systematic review of developments, socio-technical systems and policy options. Energy Research & Social Science. 2021-10, roč. 80, s. 102208. Dostupné online [cit. 2022-01-03]. DOI 10.1016/j.erss.2021.102208. (anglicky) 
  • PALYS, Matthew J.; DAOUTIDIS, Prodromos. Using hydrogen and ammonia for renewable energy storage: A geographically comprehensive techno-economic study. Computers & Chemical Engineering. 2020-05, roč. 136, s. 106785. Dostupné online [cit. 2022-01-03]. DOI 10.1016/j.compchemeng.2020.106785. (anglicky) 
  • BIGAZZI, Alexander. Comparison of marginal and average emission factors for passenger transportation modes. Applied Energy. 2019-05, roč. 242, s. 1460–1466. Dostupné online [cit. 2022-01-03]. DOI 10.1016/j.apenergy.2019.03.172. (anglicky) 
  • SCHÄFER, Andreas W.; YEH, Sonia. A holistic analysis of passenger travel energy and greenhouse gas intensities. Nature Sustainability. 2020-06, roč. 3, čís. 6, s. 459–462. Dostupné online [cit. 2022-01-03]. ISSN 2398-9629. DOI 10.1038/s41893-020-0514-9. (anglicky) 
  • PUCHER, John; BUEHLER, Ralph. Cycling towards a more sustainable transport future. Transport Reviews. 2017-11-02, roč. 37, čís. 6, s. 689–694. Dostupné online [cit. 2022-01-03]. ISSN 0144-1647. DOI 10.1080/01441647.2017.1340234. (anglicky) 
  • KNOBLOCH, Florian; HANSSEN, Steef V.; LAM, Aileen. Net emission reductions from electric cars and heat pumps in 59 world regions over time. Nature Sustainability. 2020-06, roč. 3, čís. 6, s. 437–447. Dostupné online [cit. 2022-01-03]. ISSN 2398-9629. DOI 10.1038/s41893-020-0488-7. PMID 32572385. (anglicky) 
  • BOGDANOV, Dmitrii; FARFAN, Javier; SADOVSKAIA, Kristina. Radical transformation pathway towards sustainable electricity via evolutionary steps. Nature Communications. 2019-12, roč. 10, čís. 1, s. 1077. Dostupné online [cit. 2022-01-03]. ISSN 2041-1723. DOI 10.1038/s41467-019-08855-1. PMID 30842423. (anglicky) 
  • OECD. Non-exhaust Particulate Emissions from Road Transport: An Ignored Environmental Policy Challenge. [s.l.]: OECD Dostupné online. ISBN 978-92-64-45244-2, ISBN 978-92-64-88885-2. DOI 10.1787/4a4dc6ca-en. (anglicky) DOI: 10.1787/4a4dc6ca-en. 
  • MORTENSEN, Anders Winther; MATHIESEN, Brian Vad; HANSEN, Anders Bavnhøj. The role of electrification and hydrogen in breaking the biomass bottleneck of the renewable energy system – A study on the Danish energy system. Applied Energy. 2020-10, roč. 275, s. 115331. Dostupné online [cit. 2022-01-04]. DOI 10.1016/j.apenergy.2020.115331. (anglicky) 
  • KNOBLOCH, Florian; POLLITT, Hector; CHEWPREECHA, Unnada. Simulating the deep decarbonisation of residential heating for limiting global warming to 1.5 °C. Energy Efficiency. 2019-02, roč. 12, čís. 2, s. 521–550. Dostupné online [cit. 2022-01-04]. ISSN 1570-646X. DOI 10.1007/s12053-018-9710-0. (anglicky) 
  • ALVA, Guruprasad; LIN, Yaxue; FANG, Guiyin. An overview of thermal energy storage systems. Energy. 2018-02, roč. 144, s. 341–378. Dostupné online [cit. 2022-01-04]. DOI 10.1016/j.energy.2017.12.037. (anglicky) 
  • BUFFA, Simone; COZZINI, Marco; D’ANTONI, Matteo. 5th generation district heating and cooling systems: A review of existing cases in Europe. Renewable and Sustainable Energy Reviews. 2019-04, roč. 104, s. 504–522. Dostupné online [cit. 2022-01-04]. DOI 10.1016/j.rser.2018.12.059. (anglicky) 
  • LUND, Henrik; WERNER, Sven; WILTSHIRE, Robin. 4th Generation District Heating (4GDH). Energy. 2014-04, roč. 68, s. 1–11. Dostupné online [cit. 2022-01-04]. DOI 10.1016/j.energy.2014.02.089. (anglicky) 
  • MASTRUCCI, Alessio; BYERS, Edward; PACHAURI, Shonali. Improving the SDG energy poverty targets: Residential cooling needs in the Global South. Energy and Buildings. 2019-03-01, roč. 186, s. 405–415. Dostupné online [cit. 2022-01-04]. ISSN 0378-7788. DOI 10.1016/j.enbuild.2019.01.015. (anglicky) 
  • ÅHMAN, Max; NILSSON, Lars J.; JOHANSSON, Bengt. Global climate policy and deep decarbonization of energy-intensive industries. Climate Policy. 2017-07-04, roč. 17, čís. 5, s. 634–649. Dostupné online [cit. 2022-01-04]. ISSN 1469-3062. DOI 10.1080/14693062.2016.1167009. (anglicky) 
  • GREEN, Jessica F. Does carbon pricing reduce emissions? A review of ex-post analyses. Environmental Research Letters. 2021-04-01, roč. 16, čís. 4, s. 043004. Dostupné online [cit. 2022-01-04]. ISSN 1748-9326. DOI 10.1088/1748-9326/abdae9. 
  • WORLD BANK GROUP. State and Trends of Carbon Pricing 2019. [s.l.]: Washington, DC: World Bank Dostupné online. ISBN 978-1-4648-1435-8. DOI 10.1596/978-1-4648-1435-8. (anglicky) DOI: 10.1596/978-1-4648-1435-8. 
  • MAZZUCATO, Mariana; SEMIENIUK, Gregor. Financing renewable energy: Who is financing what and why it matters. Technological Forecasting and Social Change. 2018-02, roč. 127, s. 8–22. Dostupné online [cit. 2022-01-04]. DOI 10.1016/j.techfore.2017.05.021. (anglicky) 
  • ROBERTS, J. Timmons; WEIKMANS, Romain; ROBINSON, Stacy-ann. Rebooting a failed promise of climate finance. Nature Climate Change. 2021-03, roč. 11, čís. 3, s. 180–182. Dostupné online [cit. 2022-01-04]. ISSN 1758-678X. DOI 10.1038/s41558-021-00990-2. (anglicky) 
  • WATTS, Nick; AMANN, Markus; ARNELL, Nigel. The 2019 report of The Lancet Countdown on health and climate change: ensuring that the health of a child born today is not defined by a changing climate. The Lancet. 2019-11, roč. 394, čís. 10211, s. 1836–1878. Dostupné online [cit. 2022-01-04]. DOI 10.1016/S0140-6736(19)32596-6. (anglicky) 
  • KUZEMKO, Caroline; BRADSHAW, Michael; BRIDGE, Gavin. Covid-19 and the politics of sustainable energy transitions. Energy Research & Social Science. 2020-10, roč. 68, s. 101685. Dostupné online [cit. 2022-01-04]. DOI 10.1016/j.erss.2020.101685. PMID 32839704. (anglicky) 

doi.org

eia.gov

  • Biomass explained - U.S. Energy Information Administration (EIA). www.eia.gov [online]. [cit. 2022-01-02]. Dostupné online. 
  • Ethanol explained - U.S. Energy Information Administration (EIA). www.eia.gov [online]. [cit. 2022-01-02]. Dostupné online. 
  • Natural gas and the environment - U.S. Energy Information Administration (EIA). www.eia.gov [online]. [cit. 2022-01-02]. Dostupné online. 

elsevier.com

linkinghub.elsevier.com

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