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The superheat phenomenon in the combustion of magnesium particles

✍ Scribed by E.Ya. Shafirovich; U.I. Goldshleger

Book ID
103037659
Publisher
Elsevier Science
Year
1992
Tongue
English
Weight
787 KB
Volume
88
Category
Article
ISSN
0010-2180

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✦ Synopsis

Magnesium is known to be a likely fuel for engines that could work in the CO 2 atmospheres of Mars and Venus. The present paper reports temperature measurements of magnesium samples during combustion in CO 2. The burning sample temperature increases with the decrease in the initial size. The temperature of the 1-mm samples is 300-400 K higher than the boiling point of magnesium. The stability of the superheated drop is explained by the presence of a porous shell on the surface. An attempt has been made to describe vaporization on the superheated drop by the Knudsen-Langmuir equation. During combustion at high-pressure fragment ejection of the flame is observed in high-speed motion pictures. This phenomenon is shown to be connected with the drop superheat. The repeated fracture of the outer shell formed in the flame ensures the complete burnout of metal particles at high pressure.

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