The laminar combustion characteristics of the liquefied petroleum gas-hydrogen-air mixture were studied in a constant volume combustion chamber under the excess air ratios from 0.

Study on the laminar combustion characteristics of low calorific value gas fuel provide people with an overall understanding of the fuel combustion quality.

In this paper, the laminar burning velocity of biogas-air mixture was measured and analyzed by Bunsen s burner method, and the equation of laminar burning velocity on biogas was sumarized.

The definition of the consumption speed for a laminar premixed flame was extended into an integral laminar burning velocity associated with a particular definition of the reaction progress variable.

Laminar burning velocity and the Markstein length of the dimethyl ether-air premixed mixtures were measured in a constant volume bomb under different equivalence ratios and initial temperatures at initial pressure of 0.

A polynomial fit to the data from experiments is also obtained,which can be used to calculate the unstretched laminar burning velocity of hydrogen-air-CO2 mixture.

The results show that hydrogen fractions,initial pressures and equivalence ratios have combined influence on both un-stretched laminar burning velocity and flame instability.

The results showed that as hydrogen fraction increases, laminar burning velocity increases, while Markstein length decreases,i.