Introduction to building physics CE Hagentoft External organization, 2001 | 492 | 2001 |
Assessment method of numerical prediction models for combined heat, air and moisture transfer in building components: benchmarks for one-dimensional cases CE Hagentoft, AS Kalagasidis, B Adl-Zarrabi, S Roels, J Carmeliet, ... Journal of thermal envelope and building science 27 (4), 327-352, 2004 | 286 | 2004 |
Interior insulation retrofit of a historical brick wall using vacuum insulation panels: Hygrothermal numerical simulations and laboratory investigations P Johansson, S Geving, CE Hagentoft, BP Jelle, E Rognvik, ... Building and Environment 79, 31-45, 2014 | 140 | 2014 |
Application of model based predictive control for water-based floor heating in low energy residential buildings H Karlsson, CE Hagentoft Building and environment 46 (3), 556-569, 2011 | 123 | 2011 |
The international building physics toolbox in Simulink AS Kalagasidis, P Weitzmann, TR Nielsen, R Peuhkuri, CE Hagentoft, ... Energy and Buildings 39 (6), 665-674, 2007 | 115 | 2007 |
Anti-icing of road surfaces using hydronic heating pavement with low temperature R Mirzanamadi, CE Hagentoft, P Johansson, J Johnsson Cold regions science and technology 145, 106-118, 2018 | 106 | 2018 |
Heat loss to the ground from a building—I. General theory J Claesson, CE Hagentoft Building and Environment 26 (2), 195-208, 1991 | 92 | 1991 |
Retrofitting of a listed brick and wood building using vacuum insulation panels on the exterior of the facade: Measurements and simulations P Johansson, CE Hagentoft, AS Kalagasidis Energy and Buildings 73, 92-104, 2014 | 83 | 2014 |
Probabilistic analysis of air infiltration in low-rise buildings K Pietrzyk, CE Hagentoft Building and Environment 43 (4), 537-549, 2008 | 61 | 2008 |
Determination of liquid water transfer properties of porous building materials and development of numerical assessment methods: introduction to the EC HAMSTAD project O Adan, H Brocken, J Carmeliet, H Hens, S Roels, CE Hagentoft Journal of Thermal Envelope and Building Science 27 (4), 253-260, 2004 | 57 | 2004 |
Reliability analysis in building physics design K Pietrzyk, CE Hagentoft Building and Environment 43 (4), 558-568, 2008 | 55 | 2008 |
HAMSTAD–Final report: Methodology of HAM-modeling CE Hagentoft Report R-02 8, 19-23, 2002 | 55 | 2002 |
Coupling a Hydronic Heating Pavement to a Horizontal Ground Heat Exchanger for harvesting solar energy and heating road surfaces R Mirzanamadi, CE Hagentoft, P Johansson Renewable Energy 147, 447-463, 2020 | 53 | 2020 |
Effect from a variable U-Value in adaptive building components with controlled internal air pressure A Berge, CE Hagentoft, P Wahlgren, B Adl-Zarrabi Energy Procedia 78, 376-381, 2015 | 53 | 2015 |
Heat losses and temperature in the ground under a building with and without ground water flow—I. Infinite ground water flow rate CE Hagentoft Building and Environment 31 (1), 3-11, 1996 | 46 | 1996 |
Heat loss to the ground from a building: slab on the ground and cellar CE Hagentoft | 46 | 1988 |
Heat loss to the ground from a building CE Hagentoft Slab on the ground and cellar, Lund Institute of Technology, Report TVBH …, 1988 | 45* | 1988 |
Simulations of moisture gradients in wood subjected to changes in relative humidity and temperature due to climate change C Bylund Melin, CE Hagentoft, K Holl, VM Nik, R Kilian Geosciences 8 (10), 378, 2018 | 42 | 2018 |
Dehumidifying ventilation and regulation of airflow in enclosed structures CE Hagentoft US Patent 7,758,408, 2010 | 42 | 2010 |
Vandrande fukt. Strålande värme så fungerar hus CE Hagentoft External organization, 2002 | 41 | 2002 |