SU539598A1 - Method for automatic temperature control in a semi-continuous reactor - Google Patents

Claims (3)

Iklzyvaetsg; e-, with refrigeration; i-v: .Л1О: On the topic of his shirt jacket from the cold of the reactor. 111 o (tg-to where: t is the amount of heat,; ie;) given from ;; reaction C; V-I CH; Q - Ko.iJiweciT.jo reivja. with refrigerant charge; k is the heat transfer coefficient; F - heat exchange surface; At - temperature difference on the wall of the reactor, equal to the temperature difference of the wall from the side of the reaction mixture and from the side of the refrigerant; tn is the mass of the refrigerant; C is the heat capacity of the refrigerant; coolant temperature at the entrance to the jacket; t is the coolant temperature at the exit of the jacket. At equilibrium QQ: (t –t Thus, the ratio of the temperature difference on the reactor wall to the temperature difference at the inlet and outlet of the refrigerant from the jacket completely takes into account the change in the dynamic characteristics of the reactor as the heat exchange surface F changes and the heat transfer coefficient K and There are no mass changes in the refrigerant L, there is no need to measure other parameters.The use of the ratio of temperature difference on the reactor wall to the temperature difference at the inlet and the Byho le / - refrigerant from the jacket for modified goats y: the 5kta gain of the regulator that controls the supply of the reagent provides the required temperature control pea; -TV-K) j: HOi: C; In order to obtain a uniform temperature field and thereby increase the temperature control, it is necessary to change the intensity of mixing with changing the volume of the ionic mixture and its physico-chemical properties. The ratio of the temperature difference on the reactor wall to the temperature difference at the inlet and outlet of the refrigerant from the jacket is also used to control the rotational speed of the stirrer. : -: -irrc -; -.; ::; . ; .. at:;: j: /. , 4,: with cyclical; RS - ,,;,:,;:,; N-genego g;., - ,,. (-t - ilirovaya ;; g1-jr "; try implements — s. acnv: o; .r -.-. iM obpa-eom. To block 1 through block 2 of delay comes from the secondary device 3 of sensor 4, the value the temperature at the coolant inlet to the jacket 5 and the reactor 6 and from the secondary device 7 of the sensor 8, the temperature at the outlet of the jacket. The output signal of unit 1, which determines the temperature difference in the jacket, is fed to the division unit 9, which is also fed from the secondary device 10 of the sensors 11 and 12, the value of the temperature difference on the reactor wall. The output signal of the block 9 is fed to the block 13, forming This signal is used to reconfigure the gain of the controller (unit) temperature 14 in the reactor. In accordance with the value measured by the secondary device 15 of the sensor 16, the temperature deviation in the reactor from the reference generated in the comparison unit 17, the control unit 14 outputs a control The output of the block 9 is also fed to the block 19, which generates a signal on which the speed of its rotation is adjusted by the 2 O controller using the motor 21 of the agitator 22, zmer EMA sensor 23. The formula of the invention A method for automatically controlling the temperature in the reactor by varying the semi-continuous supply of reagent to the reactor at a reaction temperature, a change in refrigerant supply rubaschku of the reactor, stirrer speed of rotation, characterized in that. In order to increase the control accuracy, the consumption of the reagent and the speed of mixing of the agitator are additionally changed depending on the ratio of the temperature difference on the stank of the reactor to the temperature difference at the coolant inlet and out of the jacket. Sources of information taken into account in the examination: 1. Chemical industry, 1966, № 2. 2. USSR author's certificate No. 405905, M.Kl.S 08 B 21/04, 1973. 3. USSR author's certificate No. 465215, M.Kl.V O1 J1 / OO, 1973.