| 1 |
A framework for producing gbXML building geometry from Point Clouds for accurate and efficient Building Energy Modelling
Garwood TL, Hughes BR, O'Connor D, Calautit JK, Oates MR, Hodgson T
Applied Energy, 224, 527, 2018 |
| 2 |
Numerical and experimental analysis of a multi-directional wind tower integrated with vertically-arranged heat transfer devices (VHTD)
Calautit JK, Hughes BR, O'Connor D, Shahzad SS
Applied Energy, 185, 1120, 2017 |
| 3 |
Evaluation of the integration of the Wind-Induced Flutter Energy Harvester (WIFEH) into the built environment: Experimental and numerical analysis
Aquino AI, Calautit JK, Hughes BR
Applied Energy, 207, 61, 2017 |
| 4 |
Optimisation and analysis of a heat pipe assisted low-energy passive cooling system
Chaudhry HN, Calautit JK, Hughes BR
Energy and Buildings, 143, 220, 2017 |
| 5 |
Influence of urban form on the performance of road pavement solar collector system: Symmetrical and asymmetrical heights
Nasir DSNM, Hughes BR, Calautit JK
Energy Conversion and Management, 149, 904, 2017 |
| 6 |
A passive cooling wind catcher with heat pipe technology: CFD, wind tunnel and field-test analysis
Calautit JK, Hughes BR
Applied Energy, 162, 460, 2016 |
| 7 |
Evaluation of a two-sided windcatcher integrated with wing wall (as a new design) and comparison with a conventional windcatcher
Nejat P, Calautit JK, Abd Majid MZ, Hughes BR, Zeynali I, Jomehzadeh F
Energy and Buildings, 126, 287, 2016 |
| 8 |
A natural ventilation wind tower with heat pipe heat recovery for cold climates
Calautit JK, O'Connor D, Hughes BR
Renewable Energy, 87, 1088, 2016 |
| 9 |
Passive energy recovery from natural ventilation air streams
Hughes BR, Chaudhry HN, Calautit JK
Applied Energy, 113, 127, 2014 |
| 10 |
A study of passive ventilation integrated with heat recovery
O'Connor D, Calautit JK, Hughes BR
Energy and Buildings, 82, 799, 2014 |
