Process and apparatus for efficient recovery of dichlorohydrins

摘要

A process and apparatus is disclosed for recovering dichlorohydrins from a hydrochlorination reactor effluent stream comprising dichlorohydrins, one or more compounds selected from esters of dichlorohydrins, monochlorohydrins and/or esters thereof, and multihydroxylated-aliphatic hydrocarbon compounds and/or esters thereof, and optionally one or more substances comprising water, chlorinating agents, catalysts and/or esters of catalysts. The reactor effluent stream is distilled to produce a dichlorohydrin-rich vapor phase effluent stream. The dichlorohydrin-rich vapor phase effluent stream is cooled and condensed in two unit operations conducted at two different temperatures and a portion of the liquid phase effluent stream produced by the first unit operation is recycled to the distillation step for reflux. Product streams produced by the process and apparatus are suitable for further processing in a further unit operation, such as dehydrochlorination. Advantages include recovery of high purity dichlorohydrins, more efficient recovery of dichlorohydrins, and reduced capital investment in the recovery equipment.

主权项

1. An apparatus suitable for producing dichlorohydrin(s) from multihydroxylated-aliphatic hydrocarbon compound(s) and/or ester(s) thereof comprising:
(1) a reactor system suitable for carrying out hydrochlorination of multi-hydroxylated aliphatic hydrocarbon compound(s) and/or ester(s) thereof comprising one or more reactors connected in series or in parallel; (2) a separation system comprising a liquid-vapor contacting device having a source of heat at the bottom end of the liquid-vapor contacting device; wherein the liquid-vapor contacting device is suitable for distillation of a reactor effluent stream obtainable from the reactor system; and, optionally, at least one flash vessel; (3) a first condensation system comprising a first cooling device and optionally a first reservoir connected to the cooling device for accumulation of condensate from the first cooling device; (4) a second condensation system comprising a second cooling device and optionally (a) a second reservoir connected to the second cooling device for accumulation of condensate from the second cooling device or (b) a liquid-liquid phase separation device connected to the second cooling device for separating a liquid phase comprising aqueous and organic components into an aqueous phase and an organic phase separate from the aqueous phase; and (5) a means for applying a vacuum, directly or indirectly, to the liquid-vapor contacting device for reducing the pressure in the liquid-vapor contacting device below atmospheric pressure; and wherein the means for applying a vacuum is located downstream from the second condensation system; wherein the at least one reactor system is connected to the separation system for conducting a reactor effluent stream from the reactor system to the separation system for distillation and/or fractionation of the reactor effluent stream; the separation system is connected to the first condensation system for conducting a first vapor-phase distillation and/or fractionation effluent stream from the separation system to the first condensation system; the first condensation system is connected to the second condensation system for conducting a second vapor-phase effluent stream from the first condensation system to the second condensation system; and the first condensation system is connected to the separation system for conducting a fraction of a first condensed liquid-phase effluent stream from the first condensation system to the separation system.