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Regional planning for renewable energy sources – new approach

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The energy market paradigm shift towards the so called “green revolution” assumes that in the next few decades dispersed energy sources will replace centralized generation systems. Despite growing energy related spatial conflicts, already accompanying the development of dispersed generation, it is not clear how to integrate new energy infrastructure into planning procedures. This article presents a new approach at the regional level, by unveiling the technology diffusion theory and its implications for the development planning of renewable energy sources (RES). It suggests how to integrate energy related issues into regional spatial policy, by presenting prospects for agricultural biogas plants (ABPs) in the Lubelskie region, Poland; dwelling on the experiences from a best practice region Lower Saxony, Germany.
Rocznik
Strony
37--46
Opis fizyczny
Bibliogr. 24 poz., rys., tab., wykr.
Twórcy
  • Institute for Renewable Energy Ltd., PhD student at the Faculty of Architecture TUW
autor
  • Institute of Soil Science and Plant Cultivation– State Research Institute in Puławy IUNG PIB
autor
  • RENAC, Germany
Bibliografia
  • [1] Cowell R. Wind power, landscape and strategic, spatial planning—The construction of ‘acceptable locations’ in Wale, in: Land Use Policy, Vol. 27, Issue 2, April 2010, pp. 222-232. Elsevier.
  • [2] Weyant. J.P. Accelerating the development and diffusion of new energy technologies: Beyond the “valley of death”, in: Energy Economics, Vol. 33, Issue 4, 2011, pp. 674-682. Elsevier.
  • [3] Wonglimpiyarat J. Technological change of the energy innovation system: From oil-based to bio-based energy , in: Applied Energy, Vol. 87, Issue 3, 2010, pp. 749-755. Elsevier.
  • [4] Barreto L., Kemp R. Inclusion of technology diffusion in energysystems models: some gaps and needs, in: Journal of Cleaner Production, Vol.16, Issue 1, Supplement 1, 2008, pp. S95-S101. Elsevier.
  • [5] Negro S.O., Alkemade F., Hekkert M.P. Why does renewable energy diffuse so slowly? A review of innovation system problems, in: Renewable and Sustainable Energy Reviews, Vol. 16, Issue 6, 2012, pp. 3836-3846. Elsevier.
  • [6] EurObserv’ER. The state of renewable energies in Europe in 2010. Paris: Observ’ER, 2011. ISSN 2101-9622.
  • [7] EurObserv’ER. The state of renewable energies in Europe in 2011. Paris: Observ’ER, 2012. ISSN 2101-9622.
  • [8] Bruns E., Ohlhorst D., Wenzel B., Köppel J. Innovation Framework for Generating Biogas and Electricity from Biogas, chapter in: Renewable Energies in Germany’s Electricity Market, Pages 89-159.
  • [9] Domański, R. Spatial management, theory. Warsaw, 2006: PWN SA.
  • [10] Crawford J., French W. A low-carbon future: Spatial planning’s role in enhancing technological innovation in the built environment, in: Energy Policy, Vol. 36, Issue 12, 2008, pp. 4575-4579.
  • [11] Quitzau M-B., Hoffmann B., Elle M. Local niche planning and its strategic implications for implementation of energy-efficient technology, in: Technological Forecasting and Social Change, Vol. 79, Issue 6, 2012, pp. 1049-1058. Elsevier.
  • [12] Mander S.L., Bows A., Anderson K. L., Shackley S., Agnolucci P., Ekins P. The Tyndall decarbonisation scenarios—Part I: Development of a backcasting methodology with stakeholder participation, in: Energy Policy, Vol. 36, Issue 10, 2008, pp. 3754-3763. Elsevier.
  • [13] Vergragt P.J., Quist J. Backcasting for sustainability: Introduction to the special issue, in: Technological Forecasting and Social Change, Vol. 78, Issue 5, 2011, pp. 747-755. Elsevier.
  • [14] Höher C. G. Biogas in Niedersachsen 2012. 2012. Conference materials: EuroTier 2012. URL: http://www.3-n.info/pdf_files/Vortraege/121115_1_hoeher.pdf.
  • [15] Verdolini E. Galeotti M. At home and abroad: An empirical analysis of innovation and diffusion in energy technologies, in: Journal of Environmental Economics and Management 61 (2011) pp.119–134. Elsevier.
  • [16] Oniszk Popławska A., Matyka M. Kompleksowa ocena uwarunkowań w zakresie produkcji biogazu w województwie lubelskim, in Polish (Analysis of the conditions for agricultural biogas development in the Lubelskie region). Final report. Lublin Marhall’s Office, 2012, pp. 80.
  • [17] Central Statistical Office (GUS). 2012. Characteristics of farms in Lubelskie province. National Agricultural Census 2010.
  • [18] Agencja Rynku Energii S.A. Statystyka elektroenergetyki polskiej. Warszawa: ARE, 2011.
  • [19] Starick A., Klöckner K., Möller I., Gaasch N., Müller. Entscheidungs hilfen für eine nachhaltigeräumliche Entwicklung der Bioenergiebereitstellung – Methoden und ihre instrumentelle Anwendung (Decision aids for sustainable development of bioenergy supply - instrumental methods and their application), in German, in: Raumforsch Raumordnung (2011) 69: pp. 367–382.
  • Springer-Verlag.
  • [20] Vis M., Dees M. 2011. Harmonisation of Biomass Resource Assessments, Best Practices and Methods Handbook Building and environmental technology. VDM Verlag Dr. Müller. ISBN-13: 978-3-639-29018-9.
  • [21] Batidzirai B., Smeets E.M.W., Faaij A.P.C. Harmonising bioenergy resource potentials—Methodological lessons from review of state of the art bioenergy potential assessments, in: Renewable and Sustainable Energy Reviews, Volume 16, Issue 9, December 2012, pp. 6598-6630. Elsevier.
  • [22] Goodwin P., Wright G. 2010. Decision Analysis for Management udgment, 4th Edition . ISBN 978-0-470-71439-3. John Wiley &Sons Ltd.
  • [23] Rikkonen P., Tapio P. Future prospects of alternative agro-based bioenergy use in Finland—Constructing scenarios with quantitative and qualitative Delphi data, in: Technological Forecasting and Social Change, Volume 76, Issue 7, September 2009, pp. 978-990. Elsevier.
  • [24] Doloreux D., Parto S. Regional innovation systems: Current discourse and unresolved issues, in: Technology in Society, Vol. 27, Issue 2, 2005, pp.133-153. Elsevier.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-aeae26ed-f692-4331-a5b8-d30f52daf09d
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