| 1 |
Passive actions in the building envelope to enhance sustainability of schools in a Mediterranean climate
Gil-Baez M, Padura AB, Huelva MM
Energy, 167, 144, 2019 |
| 2 |
Energy assessment method towards low-carbon energy schools
Lizana J, Serrano-Jimenez A, Ortiz C, Becerra JA, Chacartegui R
Energy, 159, 310, 2018 |
| 3 |
Demand controlled ventilation (DCV) in school and office buildings: Lessons learnt from case studies
Merema B, Delwati M, Sourbron M, Breesch H
Energy and Buildings, 172, 349, 2018 |
| 4 |
Natural ventilation systems in 21st-century for near zero energy school buildings
Gil-Baez M, Barrios-Padura A, Molina-Huelva M, Chacartegui R
Energy, 137, 1186, 2017 |
| 5 |
Analysis of different energy conservation strategies on existing school buildings in a Pre-Alpine Region
Salvalai G, Malighetti LE, Luchini L, Girola S
Energy and Buildings, 145, 92, 2017 |
| 6 |
Analysis of the energy performance strategies of school buildings site in the Mediterranean climate: A case study the schools of Matera city
Rospi G, Cardinale N, Intini F, Negro E
Energy and Buildings, 152, 52, 2017 |
| 7 |
Intelligent analysis of energy consumption in school buildings
Raatikainen M, Skon JP, Leiviska K, Kolehmainen M
Applied Energy, 165, 416, 2016 |
| 8 |
Assessment of the impact of cool roofs in rural buildings in India
Garg V, Kotharkar R, Sathaye J, Rallapalli H, Kulkarni N, Reddy N, Rao P, Sarkar A
Energy and Buildings, 114, 156, 2016 |
| 9 |
Deep energy retrofit of the T. M. Plauto School in Italy-A five years experience
Zinzi M, Agnoli S, Battistini G, Bernabini G
Energy and Buildings, 126, 239, 2016 |
| 10 |
Analysis of energy savings of three daylight control systems in a school building by means of monitoring
Delvaeye R, Ryckaert W, Stroobant L, Hanselaer P, Klein R, Breesch H
Energy and Buildings, 127, 969, 2016 |
