Question

what is mechanism of CO formation?

Answer 1

FORMATION OF CARBON MONOXIDE

Carbon monoxide is formed during combustion of fuel-rich mixtures due to deficiency of oxygen. Combustion of hydrocarbon fuels may be considered as a two-step process leading to complete combustion when carbon dioxide is the final product.

Step 1

Conversion of hydrocarbons to CO: oxidation reactions involving intermediate species like smaller hydrocarbon molecules, aldehydes, ketones etc lead to formation of CO


RH represents a hydrocarbon where R stands for the hydrocarbon radical

Step 2

Conversion of CO to CO2 : when sufficient oxygen is available. Hydroxyl radical OH is one the principal oxidizing species and converts CO to CO

The reaction (2.29) is quite fast and is under equilibrium at high temperatures. In fact, the reactions involving C-O-H system may be taken in chemical equilibrium during combustion and large part of expansion stroke when temperatures are above 1800 K.  
CO emitted is higher than the equilibrium concentrations corresponding to the temperature and pressure conditions at the end of expansion. The calculations show that until about 60 degrees after top dead centre, the burned gases are close to equilibrium. However, late in the expansion stroke and during exhaust blow down on opening of the exhaust valve as the gases cool down, the CO concentrations differ from the equilibrium value. The predicted CO levels at the end of expansion computed by equilibrium considerations during early part of expansion and CO oxidation kinetics ( Reaction 2.29) in the later part of expansion correlated well with the experimental data as shown on Fig. 2.11  These CO values may be considered as partial equilibrium vales. Detailed investigations have shown:

For rich mixtures (φ>1), the average exhaust CO concentrations are close to equilibrium concentrations during expansion.For near stoichiometric mixtures (φ ≈1) exhaust CO is close to computed partial equilibrium values.For lean mixtures the measured CO is higher than the computed values using kinetic models. This discrepancy may occur due to partial oxidation of unburned hydrocarbons released from crevices and lubricating oil film and deposits on the combustion chamber walls during expansion.

 For estimation of CO concentration a good approximation is to assume chemical equilibrium frozen at 1750 K.