| 1 |
Towards the characterization of the heat loss coefficient via on-board monitoring: Physical interpretation of ARX model coefficients
Senave M, Reynders G, Bacher P, Roels S, Verbeke S, Saelens D
Energy and Buildings, 195, 180, 2019 |
| 2 |
On site characterisation of the overall heat loss coefficient: Comparison of different assessment methods by a blind validation exercise on a round robin test box
Roels S, Bacher P, Bauwens G, Castatino S, Jimenez MJ, Madsen H
Energy and Buildings, 153, 179, 2017 |
| 3 |
Highly insulated pitched roofs resilient to air flow patterns: Guidelines based on a literature review
Roels S, Langmans J
Energy and Buildings, 120, 10, 2016 |
| 4 |
Comparison of characterisation methods determining the thermal resistance of building components from onsite measurements
Deconinck AH, Roels S
Energy and Buildings, 130, 309, 2016 |
| 5 |
Interior insulation for wall retrofitting - A probabilistic analysis of energy savings and hygrothermal risks
Vereecken E, Van Gelder L, Janssen H, Roels S
Energy and Buildings, 89, 231, 2015 |
| 6 |
Probabilistic design and analysis of building performances: Methodology and application example
Van Gelder L, Janssen H, Roels S
Energy and Buildings, 79, 202, 2014 |
| 7 |
A comparison of the hygric performance of interior insulation systems: A hot box-cold box experiment
Vereecken E, Roels S
Energy and Buildings, 80, 37, 2014 |
| 8 |
Co-heating test: A state-of-the-art
Bauwens G, Roels S
Energy and Buildings, 82, 163, 2014 |
| 9 |
Assessment of the physical part of the temperature takeback for residential retrofits
Deurinck M, Saelens D, Roels S
Energy and Buildings, 52, 112, 2012 |
| 10 |
The influence of structural floors on the airtightness of wood-frame houses
Relander TO, Bauwens G, Roels S, Thue JV, Uvslokk S
Energy and Buildings, 43(2-3), 639, 2011 |
