A system of softwares was developed in order to aid chemical reactor operation and design, as a tool to define operational policies and support process engineers. A C++ software, using artificial intelligence techniques, acts as an Expert System, guiding the user throughout reactor simulation and providing results in an easily comprehensible form. A Fortran software was used to simulate a reactor, including a neural network algorithm to estimate the rate of reactor. The C++ environment works together with the Fortran reactor simulator and a Fortran neural training software. This linked structure is considered part of the “concurrent engineering” study area. As a case study, the Expert System was applied to a fixed bed reactor for ethanol oxidation to acetaldehyde, over a Fe-Mo catalyst.
[1]
Philip D. Wasserman,et al.
Neural computing - theory and practice
,
1989
.
[2]
Alex C. Hoffmann,et al.
IChemE Symposium Series
,
1996
.
[3]
Y.V.C. Rao.
Chemical Engineering Thermodynamics
,
1997
.
[4]
R. M. Filho,et al.
A multitubular reactor for obtention of acetaldehyde by oxidation of ethyl alcohol
,
1992
.
[5]
Josef Barthel,et al.
Chemical engineering thermodynamics
,
1983
.
[6]
L. N. Bugaeva,et al.
An application of expert system to choice, simulation and development of gases purification processes
,
1996
.