Influence of coal heat treatment parameters on physical-chemical properties of smokeless fuel
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KSU Publ.
Abstract
A series of experiments on coking long-flame coals by high-speed thermooxidative pyrolysis was carried out
as a part of smokeless fuel technology development from domestic energy coals. The objective of experiments
was to determine the influence of basic technological parameters of the coking process (heating rate,
coking temperature) on the final physical-chemical properties of the semi-coke, which is an initial material
for briquetted smokeless fuel manufacture. The experiments were carried out in a Tamman resistance furnace
at 600–1100 ºC imitating the coking process in industrial shaft furnace. The rate of heating and the final temperature
of coking were found the most important control factors ensuring the production of lump coke with
sufficient strength. In the mentioned temperature interval, the reactivity of semi-coke changes by a complicated
pattern varying from 3.5 to 9.7 ml/g·s. Along with coking temperature and heating rate, the structural
strength of semi-coke grows monotonically, reaching 80 % at heating rate of 90 degrees per minute and a
temperature of 1100 ºC. Thus, the results of this work allow us to conclude that the most rational temperature
range for smokeless fuel production by means of high-speed pyrolysis of young high-volatile coal is found
within 600–700 ºC (the temperature interval of semi-coking). To ensure sufficient structural strength of semicoke
the rate of coal heating should be at least 30 ºC/min. A highly active material with a reactivity of over
9 ml/g·s and a sufficiently high strength and a residual volatiles content of about 8–11 % can be obtained using
this method.
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Influence of coal heat treatment parameters on physical-chemical properties of smokeless fuel / S.V. Kim [et al.] // Қарағанды универисетінің хабаршысы. ХИМИЯ Сериясы.=Вестник Карагандинского университета. Серия ХИМИЯ.=Bulletin of the Karaganda University. CHEMISTRY Series. – 2018. - № 4. - P.62-67.