IIT Delhi engineers’ improved bus design may save fuel while cooling passengers
July 21st, 2009 - 5:18 pm ICT by ANIWashington, July 21 (ANI): A new study by engineers at the Indian Institute of Technology (IIT) Delhi has determined that a simple redesign of public buses used in hot and dry climates could make passengers more comfortable without the need to use extra fuel running air conditioning.
Sunil Kale of the Department of Mechanical Engineering, and colleagues at IIT Delhi, carried out the study.
Worldwide, buses are the principal means of commuting within and between cities, the researchers explain.
For cost reasons, particularly in the developing world, only a small fraction (less than 5 percent) of inter-city vehicles are air-conditioned.
The researchers add that air-conditioning is not a commercially or environmentally viable alternative to simply opening the side windows and even the doors.
Opened windows are supposed to improve airflow and keep passengers cool while the bus moves.
However, the cooling effect of open side windows is inadequate for comfort in the hottest parts of the world on a crowded bus.
Kale’s team has now carried out an aerodynamic study of fluid flow in a 1:25 model.
Their findings suggest that a few simple modifications to conventional design could significantly boost cooling airflow with none of the cost or energy requirements of an air- conditioning system.
The turbulent flow into a standard bus does not allow air into all areas.
Passengers sitting near or standing in the aisle do not receive any ventilation, while those in the front seats receive airflow from the rear.
The team has found that a wide vent at the front and rear of a bus will draw air into the bus at a much better rate than side windows.
A similar boost can be obtained with adjustable roof vents.
These modifications would allow cooling air to increase the comfort zone of the bus from a mere 11 percent of the interior volume to more than 50 percent.
This means that all passengers will experience some cooling airflow.
In addition to improved comfort, there is an overall reduction in drag. Some of this drag reduction could be sacrificed to provide grills and filters to prevent the influx of insects and dust.
Optionally, a passive evaporative cooling system could be incorporated into the vents to cool the incoming air and further boost the comfort inside the bus. (ANI)
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Tags: airflow, bus design, city vehicles, comfort zone, conventional design, developing world, dry climates, energy requirements, fluid flow, iit delhi, indian institute of technology, institute of technology, inter city, interior volume, kale, mechanical engineering, public buses, roof vents, side windows, turbulent flow