Nonoxidizing heating of chip‑powder dispersions of ferrous metals in hydrocarbon atmosphere

The process of inorganic and organic components temperature transformation of metal waste into solid and gaseous products in a continuous hot briquetting muffle furnace has been studied. The composition of the hydrocarbon atmosphere formed in the muffle under conditions of limited access to the oxidizer has been determined. It is shown that the thermal destruction of the coolant oil phase proceeds according to a complex mechanism of consecutive reactions, including polycondensation, polymerization, and deep compaction with a constant decrease in the hydrogen content and ends with the formation of a coke‑like carbon residue on the surface of metal particles and an air suspension of finely dispersed carbon particles (smoke). When it is heated to hot briquetting temperatures of 750–850 °C, chemically active dispersions of ferrous metals are protected from oxidation first by a hydrocarbon gas with a density of 9.0–13.5 kg/m3, then by a pyrocarbon coating with a thickness of 0.1–0.3 mm up to the completion of the processes of pressing and cooling the briquette.

1. D’jakonov O. M. Kompleksnaja pererabotka struzhki i metallosoderzhashhih shlamov [Integrated processing of shavings and metal‑containing sludge]. Minsk, Tehnologija Publ., 2012, 262 p.

2. Dorofeev Ju. G. Dinamicheskoe gorjachee pressovanie poristyh materialov [Dynamic hot pressing of porous materials]. Moscow, Nauka Publ., 1968, 120 p.

3. Fenelonov V. B. Poristyj uglerod [Porous carbon]. Novosibirsk, IK SO RAN Publ., 1995, 312 p.

4. Magaril R. Z. Mehanizm i kinetika gomogennyh termicheskih prevrashhenij uglevodorodov [Mechanism and kinetics of homogeneous thermal transformations of hydrocarbons]. Moscow, Himija Publ., 1970, 224 p.

5. Plavnik G. M., Troshkin T. N., Hrustaleva G. N. Rentgenograficheskoe issledovanie poristoj struktury pirouglerodnyh pokrytij, poluchennyh pri razlichnyh temperaturah [X‑ray study of the porous structure of pyrocarbon coatings obtained at different temperatures]. Izvestija AN SSSR: Ser. him. nauk = Izvestia of the USSR Academy of Sciences, 1990, no.5, pp. 982–987.

6. Suhanov V. P. Kataliticheskie processy v neftepererabotke [Catalytic processes in oil refining]. Moscow, Himija Publ., 1979, 344 p.

7. Bujanov R.A. Zakoksovyvanie katalizatorov [Coking of catalysts]. Novosibirsk, Nauka Publ., 1983, 207p.

8. Krasjukov A. F. Neftjanoj koks [Petroleum coke]. Moscow, Himija Publ., 1966, 264 p.

9. Kam’janov V. F. Issledovanie struktury neftjanyh asfal’tenov i produktov ih ozonoliza [Study of the structure of petroleum asphaltenes and products of their ozonolysis]. Neftehimija = Petrochemistry, Moscow, Nauka Publ., 1978, vol.18, no.1, pp.138–144.

10. Magaril R. Z. Teoreticheskie osnovy himicheskih processov pererabotki nefti [Theoretical foundations of chemical processes of oil refining]. Moscow, Himija Publ., 1976, 312 p.

11. Smidovich E. V. Tehnologija pererabotki nefti i gaza. Kreking neftjanogo syr’ja i pererabotka uglevodorodnyh gazov [Oil and gas processing technology. Cracking of crude oil and processing of hydrocarbon gases]. Moscow, Himija Publ., 1980, 328 p.