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As greenhouse gas regulations continue to tighten, more opportunities to improve engine efficiency emerge, including exhaust gas heat recovery. Upon cold starts, engine exhaust gases downstream of the catalysts are redirected with a bypass valve into a heat exchanger, transferring its heat to the coolant to accelerate engine warm-up. This has several advantages, including reduced fuel consumption, as the engine’s efficiency improves with temperature. Furthermore, this accelerates readiness to defrost the windshield, improving both safety as well as comfort, with greater benefits in colder climates, particularly when combined with hybridization’s need for engine on-time solely for cabin heating. Such products have been in the market now for several years; however they are bulky, heavy and expensive, yielding opportunities for competitive alternatives.

NOx emissions limits for commercial trucks will be drastically reduced in the United States and Europe later in this decade. The most recent Euro VII proposal suggested that pre-heating of the aftertreatment system with a diesel burner may be needed to meet a new low-NOx limit. Pre-heating serves to prepare the SCR catalyst so that it can begin to convert NOx almost immediately after the engine is started. This is particularly important for an engine that is not equipped with exhaust gas recirculation to reduce engine-out NOx. This study considered a burner installed between a 12.4 liter engine and an appropriately-sized in-line DOC/DPF/SCR aftertreatment system. Initially, a wide range of burner and air pump operating conditions were examined to determine the maximum fueling rate and corresponding air flow rate necessary to complete combustion and to convey the resultant heat downstream to the aftertreatment components.