Development of in-use engine speed/torque heat maps across multiple heavy-duty commercial vehicle vocations

Abstract: The U.S. Department of Energy (DOE) established the SuperTruck program with the goal of achieving brake thermal efficiency (BTE) greater than or equal to 55% as demonstrated in an operational heavy-duty (HD) diesel engine at a 65-miles-per-hour (mph) cruise point. Beyond the line-haul application, HD engines operate in a wide range of speed and torque conditions that are unlikely to yield the same efficiency under real-world operation. Thereby, the in-use engine heat maps described in this paper are a valuable… Show more

“…The maps indicate that diesel (Figure 11) can achieve higher thermal efficiencies compared to propane (Figure 12), albeit over a smaller range of engine speed. It has been established that the high-frequency zone of engine operation for diesel trucks operating in the local delivery vocation is typically the engine speed range of 1,200-1,500 rpm and engine torque range of 100-500 Nm (Zhang, et al 2021). This high-frequency operating zone does not necessarily match the peak thermal efficiency zone for the engine.…”

Delivering Clean Air in Denver: Propane Trucks and Infrastructure in Mail Delivery Application

“…The maps indicate that diesel (Figure 11) can achieve higher thermal efficiencies compared to propane (Figure 12), albeit over a smaller range of engine speed. It has been established that the high-frequency zone of engine operation for diesel trucks operating in the local delivery vocation is typically the engine speed range of 1,200-1,500 rpm and engine torque range of 100-500 Nm (Zhang, et al 2021). This high-frequency operating zone does not necessarily match the peak thermal efficiency zone for the engine.…”

Delivering Clean Air in Denver: Propane Trucks and Infrastructure in Mail Delivery Application