The main objective of this paper is to study the conversion of mineral wast
e oils (MWO) containing heavy metals into valuable products via pyrolysis.
The pyrolysis of the MWO has been carried out in a continuous-mode preparat
ive scale pyrolysis unit containing a bed of char obtained from the Samca c
oal, a low-rank coal. Temperature of 625 degrees C and 700 degrees C and pr
essures of 0.1 and 1 MPa have been used. High yields of valuable light olef
ins as ethylene and propylene and light aromatics as BTX and naphthalene de
rivatives have been obtained. Special attention has been paid to the fate o
f the metals contained in the MWO during pyrolysis and their distribution i
nto the pyrolysis products. in particular, the distribution of six metals (
Cd, Ni, Pb, Cu, Cr, V) has been studied. The data show that the Samca coal
chars used has the ability to take up some of the metals under study, but t
he behavior of each metal is different. So, while Pb and Cu are mostly reta
ined in the coal char bed, V is not affected, and Cd, Ni, and Cr are even r
eleased from the char. The reduction of the Pb, Cu, and V contents from the
MWO to the liquid pyrolysis products is very high, whereas the contents of
Cd, Ni, and Cr in the liquids remain almost constant after the pyrolysis p
rocess. Variation of the distribution of the metals contained in MWO betwee
n the char bed and the liquid products recovered as a function of the pyrol
ysis conditions are discussed.