Experimentation with a Wet-Process Rotary Cement Kiln Via the

May 1, 2002 - Experimentation with a Wet-Process Rotary Cement Kiln Via the Analog Computer. J. W. Lyons, H. S. Min, P. E. Parisot, and J. F. Paul. In...
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EXPERIMENTATION WITH A WET-PROCESS ROTARY CEMENT KILN VIA T H E ANALOG COMPUTER J. W .

LYONS, H . S. M I N , P. E. PARISOT, AND J.

F. PAUL

.Ilonsanto Chemical Co., St. LOU‘S,.\lo.

Drying, calcining,

clinkering, and associated transition

zones in a rotary cement kiln are simulated by electrical analogs in this study.

Sets of equations for chemical reac-

of position in the kiln.

The effect of reducing water l e v e l in

the slurry feed is studied in detail.

Maximum savings in fuel

are obtained by an increase in solids in the feed.

The r e -

tions, mass flow, and lieat flow are solved simultaneously t o

sults of the simulation agree well with t h e performance of an

give profiles of temperature and composition as a function

operating kiln.

HE ROTARY KILN in use in the wet-process cement industry Ttypically has much in common with rotary dryers, calciners, and reactors in a great many process industries. As shown in Figure 1, the wet-process kiln combines drying, calcining, and reaction in a single unit, and thus is perhaps the most complex of all rotary-fired equipment. Little information is available as to the effect of changes of independent variables on kiln performance. The present study was

initiated to provide data o n one such variable-moisture level in the feed slurry-and to gain a deeper insight into kiln behavior. .4lthough the data are for steady state conditions, this approach will be helpful in research on instrumentation and control of rotary-fired equipment. I n the constant striving for greater production a t less cost per unit produced, one area L2-hei-e substantial gains can be made is in the quantity of water fed to a \\et-process kiln.

Burning Zone Drying

Heating Zone

Calcining Zone

1