Syrrakou E, Papaefthimiou S, Yianoulis P:
"Implementation of advanced glazing in buildings for the reduction of greenhouse gas emissions",
In CEST2005: P-895-900, (Sep 2005)
References included in article: 11 records found.
|Order of appearence||Full citation||SRCosmos Link|
|1||Karlsson J, Roos A, |
(2001), ‘Annual energy window performance versus glazing thermal emittance -.the relevance of very low emittance values’, Thin Solid Films 392(2), 345-348.
|2||Sullivan M, Rubin M, Selkowitz S, |
(1996), Energy performance analysis of prototype electrochromic windows LBNL 39905.
|3||Avasoo D, |
(2004), ‘Energy Transparency For Energy Efficiency’, Cooling Buildings in a Warming Climate, Sophia Antipolis, France 21-22 June 2004
|4||British Fenestration Rating Council, ‘BFRC Rating Calculations‘, URL: http://www.bfrc.org|
|5||Granqvist CG, |
(2001), ‘Charge your glasses’ with electrochromic glazing, International Glass Review 2, 67-68.
|6||Karlsson J, Roos A, |
(2004), ‘Evaluation of window energy rating models for different houses and European climates’, Solar Energy 76, 71–77.
|7||Eco-efficiency indicators, a Workbook for Industry", National Round Table on the Environment and Economy, Canada 2001.|
|8||Papaefthimiou S, Leftheriotis G, Yianoulis P, |
(2001), ‘Advanced electrochromic devices based on WO3 thin films’ Electrochimica Acta, 46(13-14), 2145-2150.
|9||Papaefthimiou S, Leftheriotis G, Yianoulis P, |
(1999), Thin Solid Films 180 (1999) 343.
|10||Syrrakou E, Papaefthimiou S, Yianoulis P, |
(2005), ‘Environmental assessment of advanced glazing’, Solar Energy Materials and Solar Cells 85(2), 205-240.
|11||Papaefthimiou S, Syrrakou E, Yianoulis P, |
‘Energy performance assessment of an electrochromic window’ submitted to Thin Solid Films.