| 1 |
Social housing airtightness in Southern Europe
Fernandez-Aguera J, Dominguez-Amarillo S, Sendra JJ, Suarez R, Oteiza I
Energy and Buildings, 183, 377, 2019 |
| 2 |
A method to quantify uncertainties in airtightness measurements: Zero-flow and envelope pressure
Prignon M, Dawans A, Altomonte S, Van Moeseke G
Energy and Buildings, 188, 12, 2019 |
| 3 |
Energy impact of the air infiltration in residential buildings in the Mediterranean area of Spain and the Canary islands
Feijo-Munoz J, Pardal C, Echarri V, Fernandez-Aguera J, de Larriva RA, Calderin MM, Poza-Casado I, Padilla-Marcos MA, Meiss A
Energy and Buildings, 188, 226, 2019 |
| 4 |
Thermal comfort and indoor air quality in low-income housing in Spain: The influence of airtightness and occupant behaviour
Fernandez-Aguera J, Dominguez-Amarillo S, Alonso C, Martin-Consuegra F
Energy and Buildings, 199, 102, 2019 |
| 5 |
Magnitude and extent of building fabric thermal performance gap in UK low energy housing
Gupta R, Kotopouleas A
Applied Energy, 222, 673, 2018 |
| 6 |
A discussion concerning active infrared thermography in the evaluation of buildings air infiltration
Lerma C, Barreira E, Almeida RMSF
Energy and Buildings, 168, 56, 2018 |
| 7 |
Impact of ductwork airtightness on fan energy use: Calculation model and test case
Leprince V, Carrie FR
Energy and Buildings, 176, 287, 2018 |
| 8 |
A contribution for the quantification of the influence of windows on the airtightness of Southern European buildings
Almeida RMSF, Ramos NMM, Pereira PF
Energy and Buildings, 139, 174, 2017 |
| 9 |
Role of airtightness in energy loss from windows: Experimental results from in-situ tests
Cuce E
Energy and Buildings, 139, 449, 2017 |
| 10 |
An infrared thermography passive approach to assess the effect of leakage points in buildings
Barreira E, Almeida RMSF, Moreira M
Energy and Buildings, 140, 224, 2017 |
