A large number of heavy-duty trucks idle a significant amount. Heavy-duty line-haul truck engines idle about 20-40% of the time the engine is running, depending on season and operation. Drivers idle engines to power climate control devices (e.g., heaters and air conditioners) and sleeper compartment accessories (e.g., refrigerators, microwave ovens, and televisions) and to avoid start-up problems in cold weather. Idling increases air pollution and energy use, as well as wear and tear on engines. Efforts to reduce truck idling in the US have been sporadic, in part because it is widely viewed in the trucking industry that further idling restrictions would unduly compromise driver comfort and truck operations. The auxiliary power units (APU's)...
In 1997-98, most of the major automotive companies announced plans to sell 100,000 or more fuel cell...
The expression auxiliary power unit (APU) originated from aircraft, where such units based on relati...
This paper explores the potential of solid oxide fuel cells (SOFCS) as 3--10 kW auxiliary power unit...
A large number of heavy-duty trucks idle a significant amount. Heavy-duty line-haul truck engines id...
Public agencies and the trucking industry have recognized the idling of heavy-duty trucks as a signi...
Truck manufacturers and vehicle component manufacturer are exploring using fuel cell auxiliary units...
The idling of heavy-duty trucks has attracted growing concern in recent years. The use of an Auxilia...
This Major Qualifying Project utilizes published reports on fuel cell performance to analyze the pot...
Changing economic and environmental needs of the trucking industry is driving the use of auxiliary p...
The main objective of idle reduction devices is to reduce the amount of energy wasted by idling truc...
In recent years interest has been growing in using fuel cell powered auxiliary power units (APUs) to...
In order to maintain cab comfort truck drivers have to idle their engine to obtain the required powe...
The idling operation of engines in heavy duty vehicles to cover electricity demand during layovers e...
Heavy-duty truck engine idling results in significant costs, fuel consumption, emissions, noise, and...
Auxiliary power units (APUs), i.e. devices designed to provide additional onboard power in vehicles,...
In 1997-98, most of the major automotive companies announced plans to sell 100,000 or more fuel cell...
The expression auxiliary power unit (APU) originated from aircraft, where such units based on relati...
This paper explores the potential of solid oxide fuel cells (SOFCS) as 3--10 kW auxiliary power unit...
A large number of heavy-duty trucks idle a significant amount. Heavy-duty line-haul truck engines id...
Public agencies and the trucking industry have recognized the idling of heavy-duty trucks as a signi...
Truck manufacturers and vehicle component manufacturer are exploring using fuel cell auxiliary units...
The idling of heavy-duty trucks has attracted growing concern in recent years. The use of an Auxilia...
This Major Qualifying Project utilizes published reports on fuel cell performance to analyze the pot...
Changing economic and environmental needs of the trucking industry is driving the use of auxiliary p...
The main objective of idle reduction devices is to reduce the amount of energy wasted by idling truc...
In recent years interest has been growing in using fuel cell powered auxiliary power units (APUs) to...
In order to maintain cab comfort truck drivers have to idle their engine to obtain the required powe...
The idling operation of engines in heavy duty vehicles to cover electricity demand during layovers e...
Heavy-duty truck engine idling results in significant costs, fuel consumption, emissions, noise, and...
Auxiliary power units (APUs), i.e. devices designed to provide additional onboard power in vehicles,...
In 1997-98, most of the major automotive companies announced plans to sell 100,000 or more fuel cell...
The expression auxiliary power unit (APU) originated from aircraft, where such units based on relati...
This paper explores the potential of solid oxide fuel cells (SOFCS) as 3--10 kW auxiliary power unit...