| 1 |
Prediction and analysis of heating energy demand for detached houses by computer vision
Despotovic M, Koch D, Leiber S, Doller M, Sakeena M, Zeppelzauer M
Energy and Buildings, 193, 29, 2019 |
| 2 |
Environmental impact of energy refurbishment of buildings within different district heating systems
Lidberg T, Gustafsson M, Myhren JA, Olofsson T, Odlund L
Applied Energy, 227, 231, 2018 |
| 3 |
Assessment of single-family house thermal renovation based on comprehensive on-site diagnostics
Hurnik M, Specjal A, Popiolek Z, Kierat W
Energy and Buildings, 158, 162, 2018 |
| 4 |
Dynamic evaluation of the thermal inertia of a single-family house: Scope of the retrofitting requirements to comply with Spanish regulations
Suarez I, Prieto MM, Salgado I
Energy and Buildings, 153, 209, 2017 |
| 5 |
Evaluation of the renovation of a Danish single-family house based on measurements
Bjorneboe MG, Svendsen S, Heller A
Energy and Buildings, 150, 189, 2017 |
| 6 |
Overheating risk barriers to energy renovations of single family houses: Multicriteria analysis and assessment
Psomas T, Heiselberg P, Duer K, Bjorn E
Energy and Buildings, 117, 138, 2016 |
| 7 |
Temperature and humidity transient simulation and validation in a measured house without a HVAC system
Martinez-Ibernon A, Aparicio-Fernandez C, Royo-Pastor R, Vivancos JL
Energy and Buildings, 131, 54, 2016 |
| 8 |
Identifying key design parameters of the integrated energy system for a residential Zero Emission Building in Norway
Nord N, Qvistgaard LH, Cao GY
Renewable Energy, 87, 1076, 2016 |
| 9 |
Computational analysis of thermal performance of a passive family house built of hollow clay bricks
Koci V, Bazantova Z, Ceryn R
Energy and Buildings, 76, 211, 2014 |
| 10 |
A simulation-based optimization method for cost-optimal analysis of nearly Zero Energy Buildings
Ferrara M, Fabrizio E, Virgone J, Filippi M
Energy and Buildings, 84, 442, 2014 |
