Building Thermal Envelope
de Brito, Jorge||Gomes, Maria da Glória
Building Thermal Envelope
English[eng]
actual physical performance test||n/a||thermal performance||building component development||peak load reduction||opaque exterior wall||simulation performance test||cork||Designbuilder simulation||U-value||natural ventilation||temperature distribution||thermal transmittance||awning window||energy efficiency||passive solar building||traditional Diyarbak?r houses||hot box||energy||thermal insulating rendering mortar||window thermal performance||energy retrofitting||hybrid heat collecting facade (HHCF)||thermosyphon||measuring and control system||Green Mark||green buildings||data post-processing||building envelope||thermographic measurement||courtyard||air environment||envelope thermal performance||heat transfer||CFD||expanded polystyrene (EPS)||Integrated Digital Delivery (IDD)||convergence characteristics||window type||Building Information Modeling||settlement||cloud-based||average method||roof window||gray polystyrene||thermal management||life cycle assessment||school restroom||natural circulation loop||heat flow meter method||digital temperature probes||heat transfer model||artificial sun||life cycle costs||thermal anisotropy||thermal resistance||passive building||energy performance||thermal models
Building Thermal Envelope
English[eng]
actual physical performance test||n/a||thermal performance||building component development||peak load reduction||opaque exterior wall||simulation performance test||cork||Designbuilder simulation||U-value||natural ventilation||temperature distribution||thermal transmittance||awning window||energy efficiency||passive solar building||traditional Diyarbak?r houses||hot box||energy||thermal insulating rendering mortar||window thermal performance||energy retrofitting||hybrid heat collecting facade (HHCF)||thermosyphon||measuring and control system||Green Mark||green buildings||data post-processing||building envelope||thermographic measurement||courtyard||air environment||envelope thermal performance||heat transfer||CFD||expanded polystyrene (EPS)||Integrated Digital Delivery (IDD)||convergence characteristics||window type||Building Information Modeling||settlement||cloud-based||average method||roof window||gray polystyrene||thermal management||life cycle assessment||school restroom||natural circulation loop||heat flow meter method||digital temperature probes||heat transfer model||artificial sun||life cycle costs||thermal anisotropy||thermal resistance||passive building||energy performance||thermal models