Part 1: Assessment of Tubular Rotary Kiln
Modelling Processes to Create Sintering Process Control Systems
Within a rotary tubular kiln and in the lining of the oven, we consider methods
for modelling the temperature fields. These models are used to build a control
system that supports the technical parameters required and reduces heat loss to
the environment through the kiln body. The application of a one-dimensional
model to these processes is verified by two-dimensional modelling of the
processes within the kiln. Using the ANSYS Fluent software package, a
simulation method for selecting a new design for the thermal insulation
elements, ensuring the reduction of heat loss to the environment and performing
the required thermal processing is implemented. It proposes a new type of
insulation feature that reduces the heat loss from the kiln to the atmosphere
and reduces the temperature of the kiln's outer surface. A device used by a
thermal imager to monitor the condition of the lining and a control system that
ensures the quality of the lining They are produced without stopping the
operation of the kiln. The developed mathematical model of petroleum coke
calcination for enhanced coke production describes chemical transformations
with adequate adequacy through weight loss of the charge in the selected rotary
tubular kiln. It can be used with the use of nonlinear mathematical methods of
programming for optimising an industrial operation.
Author(s) Details
Yu. V. Sharikov
Saint-Petersburg Mining University, Saint
Petersburg, Russian Federation.
F. Yu. Shariokv
Saint-Petersburg Mining University, Saint
Petersburg, Russian Federation.
K. A. Krylov
Saint-Petersburg Mining University, Saint Petersburg, Russian Federation.
View Book :- https://bp.bookpi.org/index.php/bpi/catalog/book/299
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