The most radical method for saving coke in ironmaking is to inject gaseous,
liquid and solid substitutes into the blast furnace (BF) hearth by means o
f tuyeres. Use of one or another type of auxiliary fuel depends on the rati
o of their prices, their deposits and the peculiarity of the technology.
This paper presents the basic theoretical proposals of a technology for the
simultaneous injection by tuyeres of natural gas (NG) and pulverized coal
(PC) with any ratio up to complete exception of one of them. A laboratory s
tudy has been carried out of the thermal decomposition and gasification of
different types of coals. Determination has been made of the softening temp
erature and melting temperature of the ash of these coals. These temperatur
es play an important role in optimizing the tuyere assembly design, raceway
processes and slag regimes. The factors which determine the oxidizing pote
ntial of the raceway have been established.
A study has been made of the comparative estimation of NG and PC and the co
mpensation rates for BF operational conditions with simultaneous injection
ranges of 0-100 m(3)/tHM NG and 0-200 kg/tHM PC, at a flame temperature of
1950-2150 degrees C and maintaining other blast and burden parameters const
ant. The rates automatically compensate the changes in temperature and the
thermal and oxidizing potential in the raceway.
This technology and tuyere assembly design are successfully used at two BFs
.