反应 #582499
ord-72369f64a3614c99897e3e9024fcfe3f
反应条件
后处理
- 1其他is provided
实验过程
By way of example and not limitation, a description of the present invention, specifically the embodiment illustrated by FIG. 2, when used in an MMA process is provided. The most common feedstock for the production of MMA is acetone cyanohydrin (“ACH”). The first stage of producing MMA from ACH involves hydrolysis where the ACH is hydrolyzed by an excess of sulfuric acid to form alpha-sulfatoisobutyramide (“SIBAM”), alpha-hydroxyisobutyramide (“HIBAM”), methacrylamide (“MAM”), and MAA. Following hydrolysis, the hydrolysis mix is cracked to form MAM and a small amount of MAA, HIBAM and SIBAM. The cracked mix is then esterified with methanol to form valuable product MMA, but a sulfur-bearing residue stream is also produced that contains water, sulfuric acid, ammonium bisulfate, methanol, MMA, MAA, methanesulfonic acid and other trace components. It is desirable to recover the valuable organics from this residue stream and to concentrate the residue so that there is less residue to handle in downstream processing or disposal operations. To accomplish these goals, this sulfur-bearing upper flash tank feedstream is fed, for example, through conduit 22 into upper flash tank 24 where some of the water and organic components including MMA, MAA, and methanol are removed from the stream and taken overhead through conduit 21 to condenser 26. The remainder of the residue, which is primarily ammonium sulfate, ammonium bisulfate, sulfuric acid, water, acetone, disulfonic acid, methanol, MAA and MMA, exits flash tank 24 and is conveyed into stripping vessel 30 via conduit 28. In stripping vessel 30, separation occurs and valuable organics components like methanol, MMA and MAA along with water are taken overhead via conduit 23 to condenser 32. From condenser 32 and condenser 26, the recovered organics and water can be recycled back into the process or stored via conduit 27 and conduit 25, respectively. From stripping vessel 30, the stripping vessel residue stream, which is primarily ammonium sulfate, ammonium bisulfate, sulfuric acid, water, acetone disulfonic acid, methanol, MAA and MMA, is fed into lower flash tank 34 by conduit 36. While the stripping vessel residue stream is residing in lower flash tank 34, methanol is added to the residue via conduit 42 to induce chemical reactions between and among components of the stripping vessel residue stream to produce lighter organic components, specifically MMA from MAA and methanol. These organic components are recovered at condenser 32 via conduit 35, stripping vessel 30 and conduit 23. The lower flash tank residue stream exits lower flash tank 34 and is fed to heat exchanger 38 via conduits 31 and 33 and then refed into lower flash tank 34 via conduit 29 after exiting the heat exchanger. Once the optimal amount of organics have been recovered, the lower flash tank residue stream, which is primarily composed of ammonium sulfate, ammonium bisulfate, sulfuric acid, water, and acetone disulfonic acid, exits the residue treatment system at conduit 40 for further processing or disposal.