Effects of carbon dioxide addition to fuel on flame radiation fraction in propane diffusion flames

The flame radiation fraction of the turbulent jet diffusion flame of propane and carbon dioxide mixed gas was studied under the ambient temperature of 300 K and the pressure of 1 bar. The diameters of the nozzle were 2, 3, and 4 mm. Different flow rates of propane and carbon dioxide were controlled to obtain different concentration ratios. The results showed that for a given heat release rate, the flame heat radiation fraction decreases with increasing the concentration of carbon dioxide in the gas mixture. Theories of soot formation and laminar flame speed were used to explain the evolution of the radiation fraction under different volume fractions of carbon dioxide. A correlation model about the relationship among the radiation fraction, heat release rate, and fuel equivalent ratio was proposed. (C) 2020 Elsevier Ltd. All rights reserved.

Automated summary

The study investigated the flame radiation fraction of a turbulent jet diffusion flame of propane and carbon dioxide mixed gas with different nozzle diameters. The results indicated that the flame radiation fraction decreases with increasing carbon dioxide concentration for a given heat release rate. Theories of soot formation and laminar flame speed were used to explain the variation in radiation fraction under different volume fractions of carbon dioxide.