This work analyses the thermo hygrometric conditions inside buses used for public transport. The technical solutions, found through the analysis of the thermo hygrometric conditions inside trains, were also set out and extended tobuses. This was in order to maximize the conditioning system and the installation of the air distribution terminals. A pattern for the simulation of the thermo fluid dynamics has been researched, in order to evaluate possible improvements in the conditioning system or in the distribution system. The summer time is the most critical period in the year for public transport. This fact is due to the frequent opening of doors, which makes the internal temperature uneven, due to the strong air drafts. It is also important to assess the cooling transition, which can often be long and unbearable for passengers inside. The simulation pattern, produced with Airpack 2.1 (Fluent) software, was then validated with a series of measures and used for the analysis of the main issues concerning discomfort. Itwas also used for the finalization of the improvements. This assessment addresses the fundamental problem that takes place at a bus stop when passengers exit and enter. It has been compared to the solution studied for installing doors equipped with air screens (or air screened doors). The thermo fluid dynamic results guarantee a significant improvement in thermo hygrometric comfort.
NUMERICAL ANALYSIS AND MEASURES FOR THE EVALUATION OF COMFORT INSIDE BUSES USED FOR PUBLIC TRANSPORT / DE LIETO VOLLARO, Roberto; Grignaffini, Stefano; Vallati, Andrea. - 101:(2008), pp. 373-383. (Intervento presentato al convegno 14th International Conference on Urban Transport and the Environment in the 21st Century, Urban Transport 2008 tenutosi a La Valletta; Malta nel 1/3 SETTEMBRE 2008) [10.2495/UT080371].
NUMERICAL ANALYSIS AND MEASURES FOR THE EVALUATION OF COMFORT INSIDE BUSES USED FOR PUBLIC TRANSPORT
DE LIETO VOLLARO, ROBERTO;GRIGNAFFINI, Stefano;VALLATI, Andrea
2008
Abstract
This work analyses the thermo hygrometric conditions inside buses used for public transport. The technical solutions, found through the analysis of the thermo hygrometric conditions inside trains, were also set out and extended tobuses. This was in order to maximize the conditioning system and the installation of the air distribution terminals. A pattern for the simulation of the thermo fluid dynamics has been researched, in order to evaluate possible improvements in the conditioning system or in the distribution system. The summer time is the most critical period in the year for public transport. This fact is due to the frequent opening of doors, which makes the internal temperature uneven, due to the strong air drafts. It is also important to assess the cooling transition, which can often be long and unbearable for passengers inside. The simulation pattern, produced with Airpack 2.1 (Fluent) software, was then validated with a series of measures and used for the analysis of the main issues concerning discomfort. Itwas also used for the finalization of the improvements. This assessment addresses the fundamental problem that takes place at a bus stop when passengers exit and enter. It has been compared to the solution studied for installing doors equipped with air screens (or air screened doors). The thermo fluid dynamic results guarantee a significant improvement in thermo hygrometric comfort.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
