Evaluacija bioklimatskih intervencija urbanog naselja

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Efrosini Giama Elli Kyriaki Panagiota Antoniadou Agis M. Papadopoulos

Apstrakt

Krajnji cilj ove studije jeste da se izradi vodič sa najreprezentativnijim intervencijama za unapređenje naselja na osnovu specifičnosti gradskog ambijenta (okruženja)i klimatskih uslova. Predložene intervencije će biti procenjene i klasifikovane prema ekološkim (npr. potrošnja energije, otisak ugljenika), društvenih (toplotni komfor, životni standard) i ekonomskih kriterijuma (efikasnost u smislu isplativosti). U okviru ove studije biće ispitane najbolje relevantne prakse u Evropi, kako bi se odredile (definisale) moguće intevencije koje bi se mogle sprovesti i kako bi se izvršila njihova
procena, imajući u vidu ekonomsku recesiju, a u cilju izrade demonstracionih projekata spremnih da budu realizovani od strane opština. Ekološka procena i društveni profil intervencija biće zasnovani na međunarodnom sistemu za ocenjivanje BREEAM, a za ekonomsku procenu biće korišćene najbolje prakse primenjene u opštinama. Intervencije će biti klasifikovane prema rezultatima procene. Glavni motiv ove studije jeste da se napravi korisna alatka spremna za primenu od strane opština, za upravljanje životnom sredinom i energijom gradskih naselja. Na kraju, politike i integrativni strateški planovi biće ispitani u oblasti energetskog unapređenja gradova, kao što je Sporazum gradonačelnika, koji doprinosi postizanju ciljevaEU koji se tiču klime i energije, i koji podržava sprovođenje akcionih planova za održivu energiju i promovisanje obnovljivih izvora energije u akcijama koje sprovode opštine.

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Kako citirati
GIAMA, Efrosini et al. Evaluacija bioklimatskih intervencija urbanog naselja. Zbornik Međunarodnog kongresa o KGH, [S.l.], v. 45, n. 1, p. 1-9, sep. 2017. Dostupno na: <https://izdanja.smeits.rs/index.php/kghk/article/view/2853>. Datum pristupa: 15 sep. 2024
Sekcija
Tehnologije obnovljivih izvora energije i sistemi

Reference

[1] European Environmental Agency (EEA). (2011). Annual European Union greenhouse gas inventory 1990–2008 and inventory report Copenhagen: ΕΕΑ.
[2] Psefteli A. and Papadopoulos A.M. (2013), Urban microclimate and thermal comfort evaluation, Aachener Geographische Arbeiten, Geographishes Institut RWTH Aachen, H.50, 147-162.
[3] Oxizidis S. and Papadopoulos A.M. (2013), Performance of radiant cooling surfaces with respect to energy consumption and thermal comfort, Energy and Buildings, 57, 199-209.
[4] Ministry of Environment, Energy and Climate Change, http://www.ypeka.gr/Default.aspx?tabid=362&sni%5B524%5D=1488&language=el-GR, Date: 22/10/2014
[5] Covenant of Mayors. Signatories, Date: 24/07/2014, http://www.covenantofmayors.eu/
[6] Slini Th., Giama E., Papadopoulos A.M., Kalampoukas G., Kiskini Ch. (2013) Sustainable Energy Action Plans for Cities: the potential of the building sector, 6th International Scientific Conference on Energy and Climate Change, Athens, Greece, 09-11.10
[7] European Smart Cities. Ranking, Date: 25/07/2014, http://www.smart-cities.eu/
[8] European Commission (2009), Sustainable Energy Communities-Common Actions for Common Goals, European Commission.
[9] King, R. (2011). LEED for Neighborhood Development: Programming urban Sustainability.
[10] Giama E. and Papadopoulos Α.M. (2012), Sustainable building management: overview of certification schemes and standards, Advances in Building Energy Research, DOI:10.1080/17512549.2012.740905. [11] Haapio, A. (2012). Towards sustainable urban communities. Environment Impact Assessment Review , 165-169.
[12] Karol, E., & Brunner, J. (2009). Tools for measuring progress towards sustainable neighborhood environments. sustainability, 612-627.
[13] Centre of Renewable Energy Sources, Guide for Bioclimatic Upgrade of Open Spaces (2011).
[14] Theodosiou Theodoros (2011), Energy Design of Buildings. Environmental and Energy of Buildings, Thessaloniki.
[15] Theodoridou I., Karteris M., Mallinis G., Papadopoulos A.M. and Hegger M. (2012), Assessment of retrofitting measures and solar systems' potential in urban areas using Geographical Information Systems: application to a Mediterranean city, Renewable & Sustainable Energy Reviews, 16, 6239–6261.
[16] Anaptyxi. Date: 10/09/2014, http://www.anaptyxi.gov.gr/
[17] LEED (2009), Congress for the New Urbanism, Natural Resources Defense Council and the U.S. Green Building Council, LEED for Neighborhood Development.
[18] BRE (2012), Breeam Communities, Technical Manual: Code for a Sustainable Built Environment, SD202-0.2:2012.
[19] Theodoridou I., Papadopoulos A.M. and Hegger M. (2011), A typological classification of the Greek building stock, Energy and Buildings 43, 10, 2779-2787.