SU567670A1 - Method of automatically controlling pre-carbonization process in soda production - Google Patents

Claims (3)

automatic control glass and the loss of ammonia I ammonia with OTXOASUUHMH gadamk. With the purpose of AtoA, they additionally regulate the consumption of carbon dioxide in the column to feed the axial stream of partially carbonized brine into the column gas distributor into potential from the volume of 100% carbon dioxide fed to the group of carbon-spy | columns, with correction of the partial flow of carbonated carbon dioxide over the fraction of carbon dioxide | the value of ypteMii of purity in the KQHOiffl rinse collector. In addition, the consumption of carbon dioxide in the pre-carbonation column is adjusted by the pH of the partially carbonated brine, and the flow of a small stream of partially carbonated carbonate to the column gas regulator is adjusted to the level of the liquid in the column washer gas collector. The drawing shows a diagram of the implementation of the method on the example of soda production. The method is carried out as follows. The exhaust gas from the precipitation carbonization Columns 1 and the preliminary carbonization columns 2 (CLP) enters the first gas generator of the columns 3 (PGKl-i) of the carbonization and ionic groups (the group is completed on four to five columns and one of the columns) QPC quality). The partially carboxylated ammoniated brine from CLC is divided into two streams. The first stream - the main one, in the amount of 80% of the total liquid load, is fed through an additional cooler 4 to the scrubber heading PKGl-1. The second stream is small, in the amount of 20% of the oyne liquid load; it is fed into PGKl-1. The amount of liquid of the small flow is adjusted using regulators 5.6 and 7 levels in the collector PGK-1. Fluid amounts of the main flow are adjusted using flow controllers 8.9 and 10. The task of the controller 9 is formed in the summing device 11 according to signals proportional to the volume flow rate of 1OO% carbon dioxide fed to the group of carbonization columns and the limit value of the liquid level in the collector. A signal proportional to the level of the liquid in the PGKl-1 collector, before entering the summing device 11, is formed in the device 12 to form an insensitivity zone. The additional gas flow rate for PGKl-1 is regulated with the help of flow regulators 13,14 and 15. The input of the regulator 14 receives a command signal proportional to the degree of saturation of the partially carbonized brine with carbon dioxide. The degree of liposation of the partially carbonated brine with carbon dioxide is measured using blocks 16, 17 and 18 of a pH meter regulating. The gas flow rate at the CCP is controlled using regulators 19, 20, and 21. At the input of regulator 20, a command signal is given that is proportional to the volume flow rate of 100% carbon dioxide fed to the carbocon group and the pH value of the partially carbonated brine. The command signal is formed in the summing device 22. Before entering the summing device 22, the signals are scaled in the scale blocks 23 and 24. The temperature control of the partially carbonized brine: is carried out in a known manner by changing the flow rate of the cooling water. The proposed method allows stabilizing the parameters and composition of the partially carbonated brine. The degree of nascentis of partially carbonated brine with carbon dioxide rises from 62-65 to 70-75 and-d, which gives an increase in the concentration of bound ammonia in the liquid of the precipitating carbone columns by 1-1.5 n.d. while improving the quality of the bicarbonate crystals by, three and increasing the productivity of the carbonization compartment. Claim 1. A method for automatically controlling a precarbonizing process in soda production by controlling the supply of carbon dioxide and a small stream of carbonized brine into the column gas washer, characterized in that, in order to increase the reliability and speed of the automatic control system and reduce ammonia losses, gases, the consumption of carbon dioxide in the column and the additional supply of the main stream of partially carbonated brine to the column washer pending on the volume flow 1OO% strength carbon dioxide entering the group carbonization columns adjusted supply main flow partially carbonized brine promshatel gas columns of the limiting value of the liquid level in the collection gas scrubber columns, 2. A method according to claim 1, characterized in that the consumption of carbon dioxide in the pre-carbonation column is adjusted according to the pH of the partially carbonated carbon dioxide. 3. The way pop. 1, is also distinguished by the fact that the flow of a small stream of partially carbonized brine into the gas producer of the columns is controlled by the level of the liquid in the column gas collector. Sources of information taken into account in the examination: 1.Sb. Issues of automation: production of sk; new chemical industry, Chemistry, L., 1967., city, p. 12. 2. USSR author's certificate N9 278653, M.kl.S 01 B 7/18, 1972 On dfyaue columns T Off gas