Forskarpresentation

Hans Wigö

Forskarpresentation

Hans Wigö

Universitetslektor

Forskningsämne: Energisystem

E-post: hans.wigo@hig.se
Telefon: 026-64 81 85
Mobil: 073-660 72 94

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Vetenskapliga artiklar, refereegranskade

Sandberg, M., Kabanshi, A. & Wigö, H. (2020). Is building ventilation a process of diluting contaminants or delivering clean air?. Indoor + Built Environment, 29 (6), 768-774. 10.1177/1420326X19837340 [Mer information]

Yang, B., Melikov, A., Kabanshi, A., Zhang, C., Bauman, F., Cao, G., Awbi, H., Wigö, H., Niu, J., Cheong, K., Tham, K., Sandberg, M., Nielsen, P., Kosonen, R., Yao, R., Kato, S., Sekhar, S., Schiavon, S., Karimipanah, T., Li, X. & Lin, Z. (2019). A review of advanced air distribution methods - theory, practice, limitations and solutions. Energy and Buildings, 202. 10.1016/j.enbuild.2019.109359 [Mer information]

Buccolieri, R., Sandberg, M., Wigö, H. & Di Sabatino, S. (2019). The drag force distribution within regular arrays of cubes and its relation to cross ventilation – Theoretical and experimental analyses. Journal of Wind Engineering and Industrial Aerodynamics, 189, 91-103. 10.1016/j.jweia.2019.03.022 [Mer information]

Antoniou, N., Montazeri, H., Wigö, H., Neophytou, M., Blocken, B. & Sandberg, M. (2017). CFD and wind-tunnel analysis of outdoor ventilation in a real compact heterogeneous urban area : evaluation using “air delay”. Building and Environment, 126, 355-372. 10.1016/j.buildenv.2017.10.013 [Mer information]

Buccolieri, R., Wigö, H., Sandberg, M. & Di Sabatino, S. (2017). Direct measurements of the drag force over aligned arrays of cubes exposed to boundary-layer flows. Environmental Fluid Mechanics, 17 (2), 373-394. 10.1007/s10652-016-9493-9 [Mer information]

Kabanshi, A., Wigö, H., Ljung, R. & Sörqvist, P. (2017). Human perception of room temperature and intermittent air jet cooling in a classroom. Indoor + Built Environment, 26 (4), 528-537. 10.1177/1420326X16628931 [Mer information]

Chen, L., Hang, J., Sandberg, M., Claesson, L., Di Sabatino, S. & Wigö, H. (2017). The impacts of building height variations and building packing densities on flow adjustment and city breathability in idealized urban models. Building and Environment, 118, 344-361. 10.1016/j.buildenv.2017.03.042 [Mer information]

Kabanshi, A., Wigö, H., Ljung, R. & Sörqvist, P. (2016). Experimental evaluation of an intermittent air supply system – Part 2: Occupant perception of thermal climate. Building and Environment, 108, 99-109. 10.1016/j.buildenv.2016.08.025 [Mer information]

Kabanshi, A., Wigö, H. & Sandberg, M. (2016). Experimental evaluation of an intermittent air supply system : Part 1: Thermal comfort and ventilation efficiency. Building and Environment, 95, 240-250. 10.1016/j.buildenv.2015.09.025 [Mer information]

Iqbal, A., Afshari, A., Wigö, H. & Heiselberg, P. (2015). Discharge coefficient of centre-pivot roof windows. Building and Environment, 92, 635-643. 10.1016/j.buildenv.2015.05.034 [Mer information]

Kabanshi, A., Wigö, H., Keus van de Poll, M., Ljung, R. & Sörqvist, P. (2015). The influence of heat, air jet cooling and noise on performance in classrooms. The International Journal of Ventilation, 14 (3), 321-332. 10.1080/14733315.2015.11684089 [Mer information]

Sandberg, M., Mattsson, M., Wigö, H., Hayati, A., Claesson, L., Linden, E. & Khan, M. (2015). Viewpoints on wind and air infiltration phenomena at buildings illustrated by field and model studies. Building and Environment, 92, 504-517. 10.1016/j.buildenv.2015.05.001 [Mer information]

Iqbal, A., Wigö, H., Heiselberg, P. & Afshari, A. (2014). Effect of opening the sash of a centre-pivot roof window on wind pressure coefficients. The International Journal of Ventilation, 13 (3), 273-284. [Mer information]

Wigö, H. (2013). Effects of intermittent air velocity on thermal and draught perception : A field study in a school environment. The International Journal of Ventilation, 12 (3), 249-255. Länk [Mer information]

Wigö, H. (2008). Effects of intermittent air velocity on thermal and draught perception during transient temperature conditions. The International Journal of Ventilation, 7 (1), 59-66. 10.1080/14733315.2008.11683799 [Mer information]

Wigö, H. & Knez, I. (2005). Psychological impact of air velocity variations in a ventilated room. Ergonomics, 48 (9), 1086-1096. 10.1080/00140130500197294 [Mer information]

Wigö, H. & Nilsson, H. (2004). Application of a thermal manikin to evaluate heat loss rates from people caused by variations in air velocity and air temperature. The International Journal of Ventilation, 3 (3), 219-225. [Mer information]

Publicerad av: Camilla Haglund Sidansvarig: Gunilla Mårtensson Sidan uppdaterades: 2022-07-04