12-05-2016, 10:45 AM
Reaction Design offers simulation and modeling products specifically created to support the development of modern internal combustion engines.
Accurately Predict Emissions
Track Soot Particle Formation and Emissions
Simulate Knock
Consider Injections Strategies
Investigate Fuel Flexibility
Explore Dual Fuel Concepts
Model Fuel Efficiency
Mechanism Reduction
Investigate Aftertreatment Solutions
Engine aftertreatment systems are becoming more commonplace as engine designers work to comply with strict regulations of NOx, CO and Unburned Hydrocarbons (UHC). Engine aftertreatment designers use CHEMKIN-PRO to simulate the effectiveness of catalytic devices such as 3-way catalysts to remove NOx, CO and UHC’s.
CHEMKIN-PRO enables:
Simulation of 3-way catalytic converter performance for conversion of NOx, CO and UHC’s through catalytic surface reactions on a platinum/rhodium catalyst.
Investigation of the impact of honeycomb catalyst geometry and operating conditions on the reduction of NOx, CO and UHC’s.
Accurately Predict Emissions
Track Soot Particle Formation and Emissions
Simulate Knock
Consider Injections Strategies
Investigate Fuel Flexibility
Explore Dual Fuel Concepts
Model Fuel Efficiency
Mechanism Reduction
Investigate Aftertreatment Solutions
Engine aftertreatment systems are becoming more commonplace as engine designers work to comply with strict regulations of NOx, CO and Unburned Hydrocarbons (UHC). Engine aftertreatment designers use CHEMKIN-PRO to simulate the effectiveness of catalytic devices such as 3-way catalysts to remove NOx, CO and UHC’s.
CHEMKIN-PRO enables:
Simulation of 3-way catalytic converter performance for conversion of NOx, CO and UHC’s through catalytic surface reactions on a platinum/rhodium catalyst.
Investigation of the impact of honeycomb catalyst geometry and operating conditions on the reduction of NOx, CO and UHC’s.
