. "3"^^ . . . "26210" . "Podoliak, Peter" . "3"^^ . "Indoor aerosol transport and deposition for various types of space heating"@en . "P(GD101/05/H018)" . "DTU Lyngby" . "RIV/00216305:26210/08:PU75447!RIV10-GA0-26210___" . "Proceedings of the 11th International Conference on Indoor Air Quality and Climate" . . "2008-08-17+02:00"^^ . "Computational modelling of aerosol transport under various heating systems in a room was conducted with the goal to understand and evaluate a regional deposition and to assess an optimum position for air cleaning device. Three heating systems are taken into account, namely radiators, floor heating and ceiling radiation panels in ventilated room. Thermal diversity is simulated by varying the ventilation air and outdoor temperatures. Aerosol entering the room has a discrete size spectrum 1, 2.5 and 10 um of particle diameters. The room is divided into several regions where the deposition is evaluated for individual aerosol sizes and outdoor and incoming air temperatures. Also the air velocity and temperature fields in the room are drawn to support the analysis of deposition patterns. The void fraction of the aerosol phase also shows the space distribution inside the room and provides us with an overall view of the aerosol transport." . . "Podoliak, Peter" . "371922" . "J\u00EDcha, Miroslav" . "Copenhagen" . . . "Indoor aerosol transport and deposition for various types of space heating"@en . . . "RIV/00216305:26210/08:PU75447" . . "Indoor aerosol transport and deposition for various types of space heating" . . . . "Indoor aerosol transport and deposition for various types of space heating" . "[F6D41B957926]" . . . "Computational modelling of aerosol transport under various heating systems in a room was conducted with the goal to understand and evaluate a regional deposition and to assess an optimum position for air cleaning device. Three heating systems are taken into account, namely radiators, floor heating and ceiling radiation panels in ventilated room. Thermal diversity is simulated by varying the ventilation air and outdoor temperatures. Aerosol entering the room has a discrete size spectrum 1, 2.5 and 10 um of particle diameters. The room is divided into several regions where the deposition is evaluated for individual aerosol sizes and outdoor and incoming air temperatures. Also the air velocity and temperature fields in the room are drawn to support the analysis of deposition patterns. The void fraction of the aerosol phase also shows the space distribution inside the room and provides us with an overall view of the aerosol transport."@en . . "Indoor aerosol, Deposition, Heating systems, CFD"@en . . . "8"^^ . "Forman, Mat\u011Bj" . "978-87-7877-270-1" . "DTU Lyngby" .