| 1 |
Enhancing the thermal performance of triple vacuum glazing with low-emittance coatings
Fang YP, Hyde TJ, Arya F, Hewitt N, Wang RZ, Dai YJ
Energy and Buildings, 97, 186, 2015 |
| 2 |
Predicted thermal performance of triple vacuum glazing
Fang YP, Hyde TJ, Hewitt N
Solar Energy, 84(12), 2132, 2010 |
| 3 |
Low emittance coatings and the thermal performance of vacuum glazing
Fang YP, Eames PC, Norton B, Hyde TJ, Zhao JF, Wang JL, Huang Y
Solar Energy, 81(1), 8, 2007 |
| 4 |
A modified pump-out technique used for fabrication of low temperature metal sealed vacuum glazing
Zhao JF, Eames PC, Hyde TJ, Fang Y, Wang J
Solar Energy, 81(9), 1072, 2007 |
| 5 |
Development of electrochromic evacuated advanced glazing
Papaefthimiou S, Leftheriotis G, Yianoulis P, Hyde TJ, Eames PC, Fang Y, Pennarun PY, Jannasch P
Energy and Buildings, 38(12), 1455, 2006 |
| 6 |
Experimental characterization and detailed performance prediction of a vacuum glazing system fabricated with a low temperature metal edge seal, using a validated computer model
Griffiths PW, Eames PC, Hyde TJ, Fang YP, Norton B
Journal of Solar Energy Engineering-Transactions of The ASME, 128(2), 199, 2006 |
| 7 |
Experimental validation of a numerical model for heat transfer in vacuum glazing
Fang YP, Eames PC, Norton B, Hyde TJ
Solar Energy, 80(5), 564, 2006 |
| 8 |
Complex multimaterial insulating frames for windows with evacuated glazing
Fang YP, Eames PC, Hyde TJ, Norton B
Solar Energy, 79(3), 245, 2005 |
| 9 |
The design and experimental characterisation of an asymmetric compound parabolic photovoltaic concentrator for building facade integration in the UK
Mallick TK, Eames PC, Hyde TJ, Norton B
Solar Energy, 77(3), 319, 2004 |
