| 1 |
Parametric analysis and optimisation of energy ef fi ciency of a lightweight building integrated with different con fi gurations and types of PCM
Mohseni E, Tang WC
Renewable Energy, 168, 865, 2021 |
| 2 |
Evaluating the passive and free cooling application methods of phase change materials in residential buildings: A comparative study
Alam M, Sanjayan J, Zou PXW, Ramakrishnan S, Wilson J
Energy and Buildings, 148, 238, 2017 |
| 3 |
Parametric analysis for performance enhancement of phase change materials in naturally ventilated buildings
Ramakrishnan S, Wang XM, Alam M, Sanjayan J, Wilson J
Energy and Buildings, 124, 35, 2016 |
| 4 |
Investigation of PCM as retrofitting option to enhance occupant thermal comfort in a modern residential building
Jamil H, Alam M, Sanjayan J, Wilson J
Energy and Buildings, 133, 217, 2016 |
| 5 |
Application of sensitivity analysis in building energy simulations: Combining first- and second-order elementary effects methods
Sanchez DG, Lacarriere B, Musy M, Bourges B
Energy and Buildings, 68, 741, 2014 |
| 6 |
Lumped parameter models for building thermal modelling: An analytic approach to simplifying complex multi-layered constructions
Ramallo-Gonzalez AP, Eames ME, Coley DA
Energy and Buildings, 60, 174, 2013 |
| 7 |
A new approach to compute heat transfer of ground-coupled envelope in building thermal simulation software
Xie X, Jiang Y, Xia JJ
Energy and Buildings, 40(4), 476, 2008 |
| 8 |
A Monte Carlo method for thermal building simulation
Haarhoff J, Mathews EH
Energy and Buildings, 38(12), 1395, 2006 |
| 9 |
An empirical correlation for the outside convective air-film coefficient for horizontal roofs
Clear RD, Gartland L, Winkelmann FC
Energy and Buildings, 35(8), 797, 2003 |
| 10 |
On the thermal behaviour of roof-mounted radiant barriers under tropical and humid climatic conditions: modelling and empirical validation
Miranville F, Boyer H, Mara T, Garde F
Energy and Buildings, 35(10), 997, 2003 |
