[[1] Borkent, B., O’Keeffe, S., Neelis, M., Gilbert, A., Costs and Effectiveness of Domestic Offset Schemes, Final report. Ecofys, London, 2012. URL: http://www.ecofys.com/files/files/ecofys-2012-cost-and-effectiveness-of-domestic-offset-schemes.pdf]Search in Google Scholar
[[2] Forster, D., Okamura, S., Wilkins, G., Morris, M., Scott, P., Kuikman, P., Lesschen, J., P., Gardiner, A., Boermans, T., Grözinger, J., Eichhammer, W., Reichardt, K. (2012): Next phase of the European Climate Change Programme: Analysis of Member States actions to implement the Effort Sharing Decision and options for further community-wide measures. AEA group, Harwell, 2012. URL: http://ec.europa.eu/clima/policies/effort/docs/esd_final_report_en.pdf]Search in Google Scholar
[[3] Bastos, J., Batterman, B. S., Freire, F. Life-cycle energy and greenhouse gas analysis of three building types in a residential area in Lisbon. Energy and Buildings, Volume 69 (2014), pp. 344-353. DOI: 10.1016/j.enbuild.2013.11.01010.1016/j.enbuild.2013.11.010]Search in Google Scholar
[[4] Arcipowska, A., Anagnostopoulos, F., Mariottini, F., Kunkel, S., Energy Performance Certificates Across The EU – A Mapping of National Approaches. Buildings Performace Institute Europe (BPIE). Brussels, 2014. URL: http://bpie.eu/uploads/lib/document/attachment/81/BPIE_Energy_Performance_Certificates_EU_mapping_-_2014.pdf]Search in Google Scholar
[[5] Lovell, H., Framing sustainable housing as a solution to climate change. Journal of Environmental Policy & Planning, Volume 6 (2004), Issue 1, pp. 35-55. DOI: 10.1080/152390804200025967710.1080/1523908042000259677]Search in Google Scholar
[[6] Nadoushani, Z., S., M., Akbarnezhad, A., Effects of structural system on the life cycle carbon footprint of buildings. Energy Buildings, Volume 102 (2015), pp. 337-346. DOI: 10.1016/j.enbuild.2015.05.04410.1016/j.enbuild.2015.05.044]Search in Google Scholar
[[7] Leduc, G., Blomen, E., Sectoral Emission Reduction Potentials and Economic Costs for Climate Change (SERPECCC), Transport – Passenger cars, road freight and aviation. Ecofys, London, 2009. URL: http://www.ecofys.com/files/files/serpec_transport_report.pdf]Search in Google Scholar
[[8] Vorsatz, Ü., D., Arena, D., Herrero, T., S., Butcher, A., Telegdy, Á., Fegyverneky, S., Csoknyai, T., Kőpataki, É., Jankó, A., Employment Impacts of a Large-Scale Deep Building Energy Retrofit Programme in Hungary for 3CSEP and European Climate Foundation, Central European University, Budapest, 2010. URL: http://zbr.kormany.hu/download/8/82/00000/Study%20Deep%20Building%20Energy%20Retrofit%20Prog.pdf]Search in Google Scholar
[[9] nfm., Nemzeti Épületenergetikai Stratégia, Nemzeti Fejlesztési Minisztérium, Budapest, 2015. URL: http://www.kormany.hu/download/d/85/40000/Nemzeti%20E%CC%81pu%CC%88letenergetikai%20Strate%CC%81gia%20150225.pdf]Search in Google Scholar
[[10] Camp, R., C. ‘Learning from the Best Leads to Superior Performance’, Journal of Business Strategy, Volume 13 (1992) Iss: 3, pp. 3 – 6 DOI: 10.1108/eb03948610.1108/eb039486]Search in Google Scholar
[[11] Fogarassy, Cs., Bakosne, B., M., Lukács a. A széndioxid-emissziókereskedelem. Agrofórum: a növényvédők és növénytermesztők havilapja. Vol. 22. No. 10. (2011) 82-83. p., ISSN: 1788-5884 URL: http://regihonlap.agroforum.hu/archivum/agroforum-2011-oktober]Search in Google Scholar
[[12] Fogarassy, C., Bakosne, B., M., Externality analysis of sustainable cattle breeding systems. Hungarian Agricultural Engineering Volume 26 (2014) pp. 5-10. DOI: 10.17676/HAE.2014.26.510.17676/HAE.2014.26.5]Search in Google Scholar
[[13] Pigou, A. C., The Economics of Welfare, MacMillan, Part II. (1920) pp. 33-34. URL: http://files.libertyfund.org/files/1410/Pigou_0316.pdf]Search in Google Scholar
[[14] farkas, f. m., fogarassy, c., szucs, i. Allowance for external effects in efficiency calculations. In: Edited by Szucs. I. - Fekete. F. M. - Efficiency in the agriculture (Theory in practice) Agroinform Publisher, Budapest, 2008 p. 114-122 ISBN 978-963-502-899-3]Search in Google Scholar
[[15] Fogarassy, Cs., Karbongazdaság (low-carbon economy). Monográfia. L’Harmattan Kiadó, Budapest, 2012, ISBN: 978-963-236-541-1 p. 262 URL: http://www.harmattan.hu/konyv_972.html]Search in Google Scholar
[[16] Klinckenberg, F., Pirie, F., M., Mcandrew, L., Renovation Roadmaps for Buildings. Report by The Policy Partners for Eurima, London, 2013. URL: http://www.eurima.org/uploads/ModuleXtender/Publications/96/Renovation_Roadmaps_for_Buildings_PP_FINAL_Report_20_02_2013.pdf]Search in Google Scholar
[[17] Schimschar, S., Hermelink, A., John, A., ZEBRA 2020 – Nearly Zero-Energy Building Strategy 2020, Deliverable D2.2: Tracking the market maturity for nZEB. Vienna University of Technology Energy Economics Group – EEG, Vienna, 2014. URL: http://zebra2020.eu/website/wp-content/uploads/2014/08/ZEBRA2020-Deliverable-D21_final.pdf]Search in Google Scholar
[[18] Rysanek, A. M., Choudhary, R., Optimum building energy retrofits under technical and economic uncertainty. Energy and Buildings, Volume 57 (2013), pp. 324-337. DOI: 10.1016/j.enbuild.2012.10.02710.1016/j.enbuild.2012.10.027]Search in Google Scholar
[[19] Huang, B., Yang, H., Mauerhofer, V., Sustainability assessment of low carbon technologies – case study of the building sector in China. Journal of Cleaner Production, Volume 32 (2012), pp. 244-250. DOI: 10.1016/j.jclepro.2012.03.03110.1016/j.jclepro.2012.03.031]Search in Google Scholar
[[20] Hong, T., Ji, C., Jang, M., Park, H., ’Assessment Model for Energy Consumption and Greenhouse Gas Emissions during Building Construction.’ J. Manage. Eng., 30 Volume 2 (2014), pp. 226–235. DOI: 10.1061/(ASCE)ME.1943-5479.000019910.1061/(ASCE)ME.1943-5479.0000199]Search in Google Scholar
[[21] Fogarassy, Cs., Bakosne, B., M., Rashad, S., M., Zsarnoczai, J., M. Low-carbon principles and sustainability relations of the Rubik’s cube layer by layer solution method. Journal of Central European Green Innovation, Volume 2 Issue 4 (2014), pp. 29-52. URL: http://real.mtak.hu/23444/1/Fogarassy_et_al_3_u.pdf]Search in Google Scholar
