Alternativni pristup energetskom i ekološkom ocenjivanju inoviranog zastakljenja: Studija slučaja elektrohromatskog prozora

##plugins.themes.bootstrap3.article.sidebar##

PDF
Objavljeno Jan 16, 2017

##plugins.themes.bootstrap3.article.main##

S. Papaefthimiou
Laboratory of Energy and Environment, Physics Department, University of Patras, Grčka
E. Syrrakou
Laboratory of Energy and Environment, Physics Department, University of Patras, Grčka
P. Yianoulis
Laboratory of Energy and Environment, Physics Department, University of Patras, Grčka

Apstrakt

Kombinovana metodologija za ocenjivanje inoviranog zastakljenja koja se predlaže u ovom radu, ima za cilj da postojećim sistemima ocenjivanja pridoda i ekonomski i ekološki aspekt. Uzimajući u obzir specijalne karakteristike inoviranog zastakljenja, iskombinovane su studija procene veka trajanja i analiza ekološke efikasnosti radi stvaranja alternativnog sistema za ocenjivanje, koji je primenjen na elektrohromatski prozor kao studiju slučaja. Odgovarajući grafički prikaz izabranih pokazatelja vodi do brojki koje jasno opisuju rezultat ocenjivanja za izabrani proizvod. Takvi sistemi za ocenjivanje mogu biti korisni kupcima, ali i proizvođačima ovih proizvoda, zato što, pored uobičajenih tehničkih karakteristika, zahtevaju i dodatne neophodne ulazne podatke o očekivanom radnom veku proizvoda, njegovoj ceni i energiji potrebnoj za proizvodnju.

##plugins.themes.bootstrap3.article.details##

Kako citirati
PAPAEFTHIMIOU, S.; SYRRAKOU, E.; YIANOULIS, P.. Alternativni pristup energetskom i ekološkom ocenjivanju inoviranog zastakljenja: Studija slučaja elektrohromatskog prozora. KGH – Klimatizacija, grejanje, hlađenje, [S.l.], v. 40, n. 2, p. 79-88, jan. 2017. ISSN 2560-340X. Dostupno na: <https://izdanja.smeits.rs/index.php/kgh/article/view/1316>. Datum pristupa: 29 apr. 2025
ABNT APA BibTeX CBE EndNote - EndNote format (Macintosh & Windows) MLA ProCite - RIS format (Macintosh & Windows) RefWorks Reference Manager - RIS format (Windows only) Turabian
Broj časopisa
God. 40 Br. 2 (2011): KGH
Sekcija
Tematski članci
Creative Commons License

Ovaj rad je pod Creative Commons Aуторство-Nekomercijalno-Bez prerade 4.0 Internacionalna licenca.

Reference

[1] Karlsson, J., A. Roos, Thin Solid Films, 392 (2) (2001) 345.
[2] Sullivan, M., M. Rubin, S. E. Selkowitz, Energy Performance Analysis of Prototype Electrochromic Windows (1996), LBNL report 39905.
[3] Lee, E., S. Selkowitz, R. Clear, D. DiBartolomeo, J. Klems, L. Fernandes, G. Ward, V. Inkarojrit, M. Yazdanian, Advancement of Electrochromic Windows, California Energy Commission, PIER. Publication number CEC‑500‑2006‑052, 2006.
[4] Lee, E., S. Selkowitz, R. Clear, D. DiBartolomeo, J. Klems, L. Fernandes, G. Ward, V. Inkarojrit, M. Yazdanian, A Design Guide for Early‑Market Electrochromic Windows, California Energy Commission, PIER. 500‑01‑023. LBNL‑59950, 2006.
[5] Papaefthimiou, S., E. Syrrakou, P. Yianoulis, Thin Solid Films, 502 (2006) 257.
[6] Sottile, G. M., Materials Science and Engineering, B 119 (2005) 240.
[7] *** British Fenestration Rating Council, http://www.bfrc.org.
[8] *** National Fenestration Rating Council, http://www.nfrc.org.
[9] *** Australasian Window Council Inc., How to use WERS‑Window Energy Rating Scheme, http://www.wers.net.
[10] Karlsson, J., A. Roos, Solar Energy 76 (2004) 71.
[11] Selkowitz, S. E., M. Rubin, E. S. Lee, R. Sullivan, A review of electrochromic window performance factors, Lawrence Berkeley National Laboratory, presented at the SPIE International Symposium on Optical Materials Technology for Solar Energy Conversion XIII, Freiberg, Germany, 1994.
[12] *** American Society of Heating, Refrigerating and Air‑Conditioning Engineers (ASHRAE), http://www.ashrae.org.
[13] *** Office of Energy Efficiency, National Resources Canada, http://oee.nrcan.gc.ca.
[14] *** Window Energy Rating Scheme, http://www.wers.net.
[15] *** WINDOW 4.1, Windows and Daylighting Group, Building Technologies Program, Energy and Environment Division, Lawrence Berkeley Laboratory, Berkeley, CA 94720 USA.
[16] *** FRAME™plus, http://www.frameplus.ca.
[17] *** European Directive (2002/91/EC), http://europa.eu.int/scadplus/leg/en/lvb/l27042.htm.
[18] Nielsen, T. R., K. Duer, S. Svendsen, Solar Energy 69 (6)(2001) 137.
[19] *** Danish Energy Authority, http://www.ens.dk/sw20023.asp.
[20] *** European Union eco‑label, http://europa.eu.int/comm/environment/ecolabel/index_en.htm.
[21] *** Energy Saving Recommended label, http://www.est.org.uk.
[22] *** Energy Star label, http://www.energystar.gov.
[23] *** ISO 14040. Environmental management – Life cycle assessment – Principles and framework. The International Organisation for Standardisation, 1997.
[24] Rebitzer, G., T. Ekvall, R. Frischknecht, D. Hunkeler, G. Norris, T. Rydberg, W. P. Schmidt, S. Suh, B. P. Weidema, D. W. Pennington, Environment International 30 (5) (2004) 701.
[25] Pennington, D. W., J. Potting, G. Finnveden, E. Lindeijer, O. Jolliet, T. Rydberg, G. Rebitzer, Environment International 30 (5) (2004) 721.
[26] *** International Eco‑Efficiency Conference. Eco‑Efficiency for Sustainability – Quantified
Methods For Decision Making (http://www.eco‑efficiency‑conf.org). 1‑3 April 2004, Leiden, The Netherlands.
[27] Lamberton, G., Accounting Forum 29 (2005) 7.
[28] *** Eco‑efficiency indicators, a Workbookfor Industry, National Round Table on the Environment and Economy, Canada 2001.
[29] Syrrakou, E., S. Papaefthimiou, P. Yianoulis, Solar Energy Materials and Solar Cells 85 (2) (2005) 205.
[30] Syrrakou, E., S. Papaefthimiou, P. Yianoulis, Science of the Total Environment 359 (2006) 267.
[31] *** Leiden University. Life Cycle Assessment: An operational guide to ISO standards. Centre of Environmental Science, Leiden University, 2001, Netherlands.
[32] *** SimaPro 6, Pre Consultants, 2005, The Netherlands, http://www.pre.nl.
[33] *** Resfen 3.1, Lawrence Berkeley National Laboratory, Berkeley, CA 94720 USA, LBNL‑40682 Rev. BS‑371, 1999.
[34] Lampert, C. M., Solar Energy Materials and Solar Cells 52 (1998) 207.
[35] Granqvist, C. G., Solar Energy Materials and Solar Cells 60 (2000) 201.
[36] Granqvist, C. G., A. Hultåker, Thin Solid Films 411 (2002) 1.
[37] Sbar, N., M. Badding, R. Butziak, K. Cortez, L. Laby, L. Michalski, T. Ngo, S. Shultz, K. Urbanik, Solar Energy Materials and Solar Cells 56 (1999) 321.
[38] Macrelli, G., Renewable Energy 15 (1‑4) (1998) 306.