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The diesel oxidation catalyst (DOC) is one of the major components of a diesel after treatment system. Earlier, DOCs were majorly used to oxidise un-burnt HC and CO from the exhaust gas to keep these pollutants within legislation limits. As legislative norms evolved towards becoming more stringent, the technology and chemistry of after-treatment catalysts have also advanced simultaneously. For Diesel Engines to meet BSVI emission norm, the DOC has a vital role to play. Apart from oxidizing un-burnt THC and CO, now it has to perform additional functions of converting NOx to NO2 to achieve desired NO2/NOx ratio for better DeNOx in the SCR and also give efficient exotherm across it when the cat burner fuel is injected during DPF Regeneration with minimal HC slip. In this paper, two DOCs having different PGM loadings and volumes are evaluated for their exothermal efficiencies and corresponding THC slips.

Turbo lag is a very common phenomenon with all diesel engines using the turbo charger to boost power output from an engine. Naturally aspirated diesel engine which is more polluting, heavier, having higher power losses makes a diesel engine more lethargic. Turbocharged diesel engine is fuel efficient, having lower emissions and better power. A smaller sized turbocharged diesel engine delivers power equivalent to larger sized engine; Turbo Lag is the time required to change power output in response to throttle inputs. Turbo lag results in slow increase of speed when we press the accelerator pedal. Turbo lag becomes a real cause of concern when rapid changes in power are required. This is due to the time required for a turbocharger and exhaust system to generate the required boost.