Automated thermal design of reactor for producing sulfur-containing sorbent in heating reaction mixture

The article highlights the problem of automation thermal design a reactor for synthesis sulfur-containing sorbent obtained from use waste products epichlorohydrin, chlorinated lignin and sodium polysulfides is considered. Automated helps to reduce intensity process, improve quality decisions, significantly production costs, which has positive effect on cost finished products. It been found that due incompatibility similarity criteria chemical mass transfer processes there little possibility carry out large-scale transition in based physical similarity. In course laboratory unit small were used computational methods engineering experience allow increasing reliability results obtained. There have determined initial values, will be with propeller agitator mix working having dynamic viscosity coefficient 6.01 sP solid phase content 31.8%. type was by calculating properties ingredients selecting mixer designs. A flowchart formal description algorithm heat during reaction mixture heating are given; program interface written C# displaying heating. As result calculation, calculated amount time required mixture, wall, flow rate water its velocity jacket, mode jacket other criteria.