KONCEPCJA ZRÓWNOWAŻONEGO ROZWOJU -PERSPEKTYWA EKO-ENERGETYKI

Marek Sośnicki; Dawid Wiśniewski

doi:10.34752/2023-b283

Marek Sośnicki Akademia Sztuki Wojennej, Warszawa, Polska https://orcid.org/0000-0002-9739-7248
Dawid Wiśniewski Politechnika Warszaska https://orcid.org/0000-0002-9739-7248

DOI: https://doi.org/10.34752/2023-b283

Słowa kluczowe: zrównoważony rozwój, eko-energetyka, cykl życia, analiza wpływu

Abstrakt

W artykule przedstawiono wybrane kwestie aktualnie poruszane w zakresie ewaluacji koncepcji zrównoważonego rozwoju, warunkującej sekwencje ich cyklu życia. Polityka klimatyczno-energetyczna Unii Europejskiej jako inspiracja determinantów polityczno-społeczno-gospodarczych określa wpływ sektora energetycznego na ocenę cyklu życia koncepcji zrównoważonego rozwoju. Przeprowadzona w tym celu wielowymiarowa analiza potencjalnego wpływu, związanego z wyodrębnionymi etapami cyklu życia, przyjaznymi środowisku będzie wykorzystywana do opracowania oceny koncepcji zrównoważonego rozwoju. Zakres czasowy analizy wpływu obejmował okres od ostatniej dekady XX w. do dzisiaj. Celem artykułu jest zdefiniowanie eko-energetyki w kontekście koncepcji zrównoważonego rozwoju mające pomóc w określeniu oddziaływania w/w determinantów, uczynienia jej atrakcyjniejszej wizerunkowo i przyczynienia się do ochrony naszej planety. Analizie poddano dane za lata 2020-2022.

Bibliografia

Aktar Most. A., Harun M., Alam Md. M., Green Energy and Sustainable Development. [w:] Affordable and Clean Energy, Encyclopedia of the UN Sustainable Development Goals. red. W. L. Filho, A. M. Azul, L. Brandli, A. L. Salvia, T. Wall, Springer, Cham. ISBN: 978-3-319- 71057-0., DOI: https:/, 2020

Arusanian J., Ekener E., Moberg Å., Sustainability assessment framework for scenarios – SAFS, “ScienceDirect, Environmental Impact Assessment Review” 2017, t.63.

Atasu A., Duran S., Van Wassenhove L. N., The Dark Side of Solar Power, https://hbr.org/2021/06/the-dark-side-of-solar-power

Authorities & Government, Norway approves construction of 350kW tidal power plant, https://www.offshore-energy.biz/norway-approves-construction-of-350kw-tidal-power-plant/

Baleta J., Mikulčić H., Klemeš J. J., Urbaniec K., Integration of Energy, Water and Environmental Systems for a Sustainable Development, “Journal of Cleaner Production” 2019, t.215.

Bansard J., Schröder M., L’exploitation durable des ressources naturelles : Le défi de la gouvernance, ‘’International Institute for Sustainable Development’’ 2021, https://www.iisd.org/system/files/2021-04/still-one-earth-natural-resources-FR.pdf

Bardy R., Saner R., Yiu L., Conceptualizing and Operationalizing Sustainable Development Goals through System Theory Perspectives: Recommendations for the Post-2015 Targets, http://www.csend.org/images/articles/files/20150424_System_Perspective_on_SDG_Indicators__Measurements.pdf

Berr E., Sustainable development in a post Keynesian perspective: why eco-development is relevant to post Keynesian economics, “Journal of Post Keynesian Economics” 2015, t.37, nr 3.

Bhowmik C., Bhowmik S., Ray A., Optimal green Energy Source Selection: An eclectic Decision. “Energy & Environment” 2020, t.31 nr 5.

Bianchini A., Rossi J., Pelegrini M., Overcoming the Main Barriers of Circular Economy Implementation through a New Visualization Tool for Circular Business Models? “Sustainability” 2019, t.11, nr 23.

Brand U., Green Economy - the Next Oxymoron? No Lessons Learned from Failures of Implementing Sustainable Development, “GAIA - Ecological Perspectives on Science and Society” 2012, t.21, nr 1.

Byskov M.F., Hyams K., Who Should Represent Future Generations in Climate Planning? “Cambridge University Press: Ethics & International Affairs” 2022, t.36, nr 2.

Cameron M.A., Bozonnat C., Chobadi L., Clonts H.A., Enevoldsen P., Erwin J.R., Fobi S.N., Goldstrom O.K., Hennessy E.M., Liu J., Meyer C.B., Lo J., Morris S.B., Moy K.R., O'Neill P.L.,

Campos A. S., Intergenerational Justice Today, “Philosophy Compass” 2018.

Ciacci L., Passarini F., Life Cycle Assessment of Environmental and Energy Systems, “Energies” 2020, t.13, nr 22.

Clark K., Entergy breaks ground on 1.2 GW CCGT plant, https://www.power-eng.com/gas/entergy-breaks-ground-on-1-2-gw-hydrogen-capable-ccgt-plant/#gref

Cook S., K. Smith K., Utting P., Green Economy or Green Society? Contestation and Policies for a Fair Transition, https://digitallibrary.un.org/record/743650

Cullen J.M., Circular Economy Theoretical Benchmark or Perpetual Motion Machine? In Special Issue: Exploring the Circular Economy, “Journal of Industrial Ecology” 2017, t.21, nr 3.

Das D., Veziroǧlu T.N., Hydrogen production by biological processes: a survey of literature, “International Journal of Hydrogen Energy” 2001, t.26, nr 1.

de Jong M., Joss S., Schraven D., Zhan C., Weijnen M., Sustainable e smart e resilient e low carbon e eco e knowledge cities; making sense of a multitude of concepts promoting sustainable urbanization, “Journal of Cleaner Production” 2015, t.109.

Dimitropoulos J., Energy Productivity Improvements and the Rebound Effect: An Overview of the State of Knowledge, “Energy Policy” 2007, t.35, nr 12.

Dong Y., Hauschild M. Z., Indicators for Environmental Sustainability, “Procedia CIRP Conference on Life Cycle Engineering”2017, nr 61.

Dyukova V.V., Mongush Y.D., Haustovich N.A., A study of innovative technologies in the fuel and energy sector,”IOP Conf. Series: Earth and Environmental Science” 2022.

Fernandes J., Ferrão P., A New Framework for Circular Refurbishment of Buildings to Operationalize Circular Economy Policies, Environments 2023, t.10, nr 3.

Glorieux G., From words to actions: How to win the climate challenge of our century via sustainable energy, https://www.eurelectric.org/in-detail/sustainable_energy/

Greenfield P., Weston P., The five biggest threats to our natural world … and how we can stop them, The Guardian 14.10.2021.

Gunay S., Kurtishi-Kastrati S., Krsteska K., Regional green economy and community impact on global sustainability, https://www.emerald.com/insight/content/doi/10.1108/JEC-03-2022-0040/full/html

Hemeida M.G., Hemeida A.M., Senjyu T., Osheba D., Renewable Energy Resources Technologies and Life Cycle Assessment: Review, “Energies” 2022, t.15, nr 24.

Hughes L., The Politics of Energy and Climate Change, “Oxford Academic” 2019.

Humphreys S., Against Future Generations, “European Journal of International Law”,2022, t.33, nr 4.

Independent Energy Consultants, Renewable Energy, https://naturalgas-electric.com/blog/renewable-energy-fact-and-fiction

Jabareen Y., A New Conceptual Framework for Sustainable Development,”Environment Development and Sustainability” 2008, t.10, nr 2.

Jachanin A.S., 100% Clean and Renewable Wind, Water, and Sunlight All-Sector Energy Roadmaps for 139 Countries of the World, ScienceDirect 2017, t.1, nr 1.

Jacobson M. Z., Delucchi M. A., Bauer Z. A. F., Goodman S. C., Chapman W. E.,

Kara S., Hauschild M., Sutherland J., McAloone T., Closed-loop systems to circular economy: A pathway to environmental sustainability? “CIRP Annals” 2022, t.71, nr 2.

Kim R. E., Bosselmann K., Operationalizing Sustainable Development: Ecological Integrity as a Grundnorm of International Law, RECIEL Review of European, “Comparative & International Environmental Law, wyd. spec. Public Participation and Climate Governance” 2015.

Klarin T., The Concept of Sustainable Development: From its Beginning to the Contemporary Issues,” De Gruyter Journals, Zagreb International Review of Economics & Business” 2018, t.21, nr 1.

LEGRAND SA, Développement durable description, https://www.legrandgroup.com/fr/developpement-durable-description

Majewski J., Sustainable Mobility in the Cities and Agglomeration Areas, “Studia Ecologiae et Bioethicae” 2022, t.3, nr 20.

Mallory M.L., Ando A.W., Implementing efficient conservation portfolio design, “Resource and Energy Economics” 2014, t.38, wyd. C.

McKenzie W., Securing Asia’s Energy and Natural Resources Future, https://www.forbes.com/sites/woodmackenzie/2023/05/31/securing-asias-energy-and-natural-resources-future/?sh=1f58f5f15005

Miceli R., Energy Management and Smart Grids, ‘’Energies’’2013, t.6, nr 4.

Miśkiewicz R., The Impact of Innovation and Information Technology on Greenhouse Gas Emissions: A Case of the Visegrád Countries, “J. Risk Financial Manag” 2021, t.14, nr 2.

Moiseienko T., Chernenko N., Hlushchenko Y., Korohodova O., The impact of megatrends on the share of energy in the utility sector of individual countries,”Галузева Економіка” 2022,

Moldan B., Janoušková S., Hak T., How to understand and measure environmental sustainability: Indicators and targets, ScienceDirect, Ecological Indicators 2012, t.17.

MOOC Center, Sustainable development and sustainability as normative concept, https://courses.mooc.fi/org/uh-inar/courses/introduction-to-sustainability/chapter-1/sustainable-development-and-sustainability-as-normative-concept

Muñoz J.V., Mendoza J-M.F., Aznar-Sánchez J-A., A. Gallego-Schmid, Circular economy implementation in the agricultural sector: Definition, strategies and indicators, Resources, “Conservation and Recycling” 2021, t.170.

National Energy Technology Laboratory, Life cycle analysis (LCA) of energy technology and pathways, https://netl.doe.gov/LCA

Nikolaidis P., Poullikkas A., Optimal carbon-electricity trade-offs through the virtual power plant concept. “Discover Energy” 2022, t.2, nr 7.

Nowakowska-Krystman A., Burchert-Perlińska B., Sośnicki M., Globalne uwarunkowania funkcjonowania systemu energetycznego. Nowoczesne Systemy Zarządzania, WAT 2022, Zeszyt 17 nr 4.

Petrillo A., de Felice F., Jannelli E., Autorino C., Life cycle assessment and life cycle cost analysis model for a stand-alone hybrid renewable energy system, “Renewable Energy” 2016, t. 1, nr 95.

Pinault M., LIFE-Clean Energy Transition the policy context with focus on: Green Recovery, Fit for 55: the revision of the EED and the EPBD-RW, European Commission 2021, https://cinea.ec.europa.eu/system/files/2021-07/Policy%20context%20–%20DG%20ENER.B2.pdf

Pollock L.J., O'Connor M.J., Mokany K., Rosauer D. F., Talluto M. V., Thuillera W., Protecting biodiversity (in All Its Complexity): new models and methods, “Trends in Ecology & Evolution” 2020, t.35, nr 12.

Purvis B., Mao Y., Robinson D., Three pillars of sustainability: in search of conceptual origins, “Sustainability Science” 2018, t.14.

Redclift M., Sustainable Development (1987-2005): An Oxymoron Comes of Age, “Sustainable Development” 2005, t.13.

Rocha J., Oliveira S., Viana C. M., Ribeiro A. I., Climate change and its impacts on health, environment and economy, “Science Direct- One Health, Integrated Approach to 21st Century Challenges to Health” 2022, t.8.

Rogall H., Ekonomia zrównoważonego rozwoju. Teoria i praktyka, Wyd. Zysk i S-ka, Poznań 2010.

Rosen M.A., Energy Sustainability with a Focus on Environmental Perspectives, “Springe Nature Earth Systems and Environment”2021

Sachs J.D., The Age of Sustainable Development, New York: Columbia University Press, Nowy Jork 2012.

Saeed A., Noreen U., Azam A., Tahir M.S., Does CSR management improve social sustainability and reduce carbon footprint: international evidence from the energy sector, “Sustainability” 2021, t.13 nr 7.

Sanoran K.L., Corporate sustainability and sustainable growth: The role of industry sensitivity, “ScienceDirect” 2023, t.53.

Satrovic E., Cetindas A., Akben I., Damrah S., Do natural resource dependence, economic growth and transport energy consumption accelerate ecological footprint in the most innovative countries? The moderating role of technological innovation,” ScienceDirect” 2023.

Scheer H., The Energy Imperative. 100 Per cent Renewable Now, “Taylor & Francis Journals” 2011.

Schneider Electric Blog, Economic Sustainability Practices That Inspire Growth, https://blog.se.com/sustainability/2022/11/14/economic-sustainability-practices-that-inspire-growth/

Sośnicki M., Model biznesowy sektora energetycznego Włoch, Wiedza Obronna 2023, t.283 nr 2 ENERGY

Spezia U., Italia nucleare: Dalla pila di Fermi al dissesto energetico, ‎ Milano 21/mo Secolo, Mediolan 2009.

Strielkowski W., Civín L., Tarkhanova E., Tvaronavičienė M., Petrenko Y., Renewable Energy in the Sustainable Development of Electrical Power Sector: A Review, “Energies” 2021, t.14, nr 24.

Tyrsin A., Surina A., Antonov A., Probabilistic-Entropic Concept of Sustainable Development of the Example of Territories, [w:] Sustainability Assessment at the 21st century, red. Bastante-Ceca M. J., Fuentes-Bargues J. L., L. Hufnagel L., Mihai F-C., Iatu C., “IntechOpen” 2019.

Ulhoi J.P., Madsen H., Sustainable Development and Sustainable Growth: Conceptual Plain or Points on a Conceptual Plain? https://proceedings.systemdynamics.org/1999/PAPERS/PARA197.PDF

Us Y., Pimonenko T., Lyulyow O., Corporate Social Responsibility and Renewable Energy Development for the Green Brand within SDGs: A Meta-Analytic Review,” Energies” 2023 t.16, nr 5.

Velenturf A.P.M., Purnell P., Principles for a sustainable circular economy, “Sustainable Production and Consumption, ScienceDirect” 2021, t.27.

Vogel J., Steinberger J. K., O'Neill D. W., Lamb W. F., Krishnakumar J., Socio-economic conditions for satisfying human needs at low energy use: An international analysis of social provisioning, ‘’Global Environmental Change’’ 2021, t.69.

Waas T., Hugé J., Verbruggen A., Wright T., Sustainable Development: A Bird’s Eye View, “Sustainability” 2011, t.3, nr 10.

Zinck S., Ayed A.-C., Niero M., Head M., Wellmer F.-W., Scholz R.W., Morel S., Life cycle management approaches to support circular economy. [w:] Designing Sustainable Technologies, Products and Policies: Science to Innovation, red. Benetto E., Gericke K., Guiton M., “Springer Nature, Berlin/Heidelberg” 2018.