SU994465A1 - Method for automatically controlling aqueous degassing of polymer - Google Patents

Description

pa in the initial solutions and stabilize the weight ratio of the components of the anti-agglomerator and the polymer by varying the consumption of the components of the anti-agglomerator, thereby increasing the consumption of chloride kalish and proportionally reducing the consumption of potassium stearate by deviating the pH from a predetermined value to the richer side, and, conversely, reducing the consumption of chloride Kalysh and proportionally increase the consumption of potassium stearate when the pH deviates to the lower side. The diagram shows a schematic diagram of the proposed method for the automatic control of the process of polymer water degassing in the production of SKI-3. The device consists of a degasser 1; a polymer consumption stabilization circuit consisting of 1 sensor 2, regulator 3 and kpalan 4} contour of stabilization of discharge of syphonic water with an anti-agglomerate introduced into it, consisting of sensor 5, regulator 6 and valve 7; a calcium chloride flow control loop consisting of a gauge 8, a regulator 9, and a valve 10; a flow control loop for potassium stearate consisting of a sensor ica 11, a regulator 12 and a valve 13; polymer concentration sensors 14, calcium chloride 15, potassium stearate 16; The pH of the circulating water is 17 and the calculating machine is 18. The process of polymer water degassing according to the proposed cao. This is done as follows. Information from the sensors 2,5, 8, 11,14, 15, 16, 17 is entered into the computer 18. According to the information from the flow sensors of the polymer 2 and its concentration 14, the specified anti-agglomerate is determined total fashod of the anti-agglomerator components aHT-l itpQ Qj; where K is the specified ratio of the weight expenses of the polymer-anti-t agglomerate; to - according to the weight of the RPO FLOOR: one polymer solution and the concentration of the polymer in the solution; f total weight flow huT. Antiaglomeratoid components according to information from the pH sensor in the water of a cnon water, correct the value of the ratio of the costs of the antiagglomerator components according to the PI law of regulator. i where K is the specified cost ratio of the components of the anti-agglomerator (calcium chloride and potassium stearate); Cc is respectively proportional and integral to nactv, controls; 0.Re-, respectively, the specified and the current value of the sefted water. According to information from the sensor 16, the concentration of potassium stearate, the specified total anti-agglomerate flow rate and the corrected value of the ratio of the antiglomer components K g to determine the desired flow of potassium stearate. according to the formula year. F “HvKU f where CJtT is the concentration of potassium stearate in the water solution; K-J is a constant that takes into account the uniformity of the parameters. , According to the information from the calcium chloride concentration sensors 15 and potassium stearate 16 and the potassium stearate consumption sensor 11, the target consumption of calcium chloride F is determined according to the formula for q. St QCT. V where Q is the calcium chloride concentration in the water solution. Signals proportional to the values of M are output from the computer 18, respectively, to flow regulators 9 and 12, which act on valves Yu and 13. Thus, taking into account polymer concentrations and anti-agglomerator components, more accurate dosing of these components into the circulating water is calculated, based on taking into account the pH of the circulating water, a more accurate ratio of the components of the anti-agglomerator is achieved, which ensures the formation of a single rubber crumb, i.e. improves its quality. As the experimental ipOBepKa of the invention shows, the dosage accuracy of the anti-agglomerator is 2.5 rel.%

Claims (2)

SUMMARY OF THE INVENTION A method for automatically controlling the process of water degassing of a polymer in a continuous apparatus 10 in the presence of an anti-agglomerator consisting of calcium chloride and potassium stearate, by stabilizing the pH of the circulating water, so that that, with the aim of obtaining uniform rubber crumbs of rubber, measure the concentration of the polymer AND the components of the anti-agglomerator in the initial solutions and stabilize the ratio of the mass flow rates of the components of the anti-agglomerator and the polymer by changing the flow rate of the component nt antiagglomero. torus, while increasing the consumption of calcium chloride and calcium, proportionally reducing the consumption of potassium stearate when deviating; pH from the set value to the larger side and, conversely, decreasing the consumption of (calcium chloride and proportionally (increasing the consumption of potassium stearate when deviating pH to a lower sterone. '' Sources of information taken into account in the examination 1. USSR copyright certificate No. 490088, cl. 605 © 5/04, 1970. 2. Kirpichnikov P. A. et al. Chemistry and technology of synthetic rubber * L., Chemistry, 1975, 'p. 261-262, fig. 71 (prototype). ВНИИПИ Order 548/3 * Circulation 492 Subscription Branch of PPP Patent, Uzhhorod, st. Project, 4