| 1 |
Effect of blending cassava starch, rice, waxy rice and wheat flour on physico-chemical properties of flour mixtures and mechanical and sound emission properties of cassava crackers
Saeleaw M, Schleining G
Journal of Food Engineering, 100(1), 12, 2010 |
| 2 |
Multi-objective optimization of an industrial fluidized-bed catalytic cracking unit (FCCU) using two jumping gene adaptations of simulated annealing
Sankararao B, Gupta SK
Computers & Chemical Engineering, 31(11), 1496, 2007 |
| 3 |
Multi-objective optimization of an industrial fluidized-bed catalytic cracking unit (FCCU) using genetic algorithm (GA) with the jumping genes operator
Kasat RB, Gupta SK
Computers & Chemical Engineering, 27(12), 1785, 2003 |
| 4 |
Partial control. 5. A systematic approach to the concurrent design and scale-up of complex processes: The role of control system design in compensating for significant model uncertainties
Shinnar R, Dainson B, Rinard IH
Industrial & Engineering Chemistry Research, 39(1), 103, 2000 |
| 5 |
Structural design for on-line process optimization: II. Application to a simulated FCC
Loeblein C, Perkins JD
AIChE Journal, 45(5), 1030, 1999 |
| 6 |
Future directions in modelling the FCC process: An emphasis on product quality
Christensen G, Apelian MR, Hickey KJ, Jaffe SB
Chemical Engineering Science, 54(13-14), 2753, 1999 |
| 7 |
Feedback control of nonlinear differential difference equation systems
Antoniades C, Christofides PD
Chemical Engineering Science, 54(23), 5677, 1999 |
| 8 |
Dominant variables for partial control. 1. A thermodynamic method for their identification
Tyreus BD
Industrial & Engineering Chemistry Research, 38(4), 1432, 1999 |
| 9 |
Dominant variables for partial control. 2. Application to the Tennessee Eastman challenge process
Tyreus BD
Industrial & Engineering Chemistry Research, 38(4), 1444, 1999 |
| 10 |
Approach to the analysis of the dynamics of industrial FCC units
Maya-Yescas R, Bogle D, Lopez-Isunza F
Journal of Process Control, 8(2), 89, 1998 |
