Software sensor based control of exothermic batch reactors

In this article a highly exothermic batch polymerization reactor is considered. The reactor is simplified as a mixing tank with the internal heat generation treated as a disturbance. A fuzzy-hybrid-PID-feedback (FH-PID) control structure is developed in which the output of fuzzy hybrid portion is us

## Abstract A wide variety of speciality materials and fine chemicals such as plastics, pharmaceutical and microelectronics components are produced in batch reactors. The nonlinear, transient and finite‐time features of the batch reactors give rise to complex process and control design problems. In

Abs tact• A mode 1basedsupervist onandcontro1system hasbeen des Igned for exotherm Ic chem fca1react Ions,and batch processes1n part icuIar.Adaptive, ext ended Ka1man f 11ters reconstuct processstates as well asreactlonparameters andaBayes-Markov processallows todlscrlminate betweennormal and unwant

Abstrac+-Composition control of free-radically initiated batch copolymerization reactor by temperature manipulation is investigated through a program of calculation and experiment. The work of Ray and Gall is extended to explicit calculation of temperature vs time policies which eliminate or minimiz

A modified form of the Discrete Maximum Principle (DMP) is derived for systems with finite memory. It is shown that this form of the DMP may be used for the optimal control of nonlinear continuous dynamics systems, when the control policies are bound to be piecewise constant. In this case the modifi