Experimental identification of design parameters for novel reactor–separator

Abstract

The separation of methanol from glycerin and biodiesel in biodiesel manufacturing significantly adds to the cost of the biodiesel. A novel reactor–separator, based on flowing effluents through a temperature gradient, keeps the methanol in the reactor and could decrease the cost of separating methanol from glycerin and biodiesel. The reactor–separator has a lateral extension at the bottom of the reactor, which is referred as the “auto‐recycle discharge.” This discharge replaces a conventional flash separator and condenser. The ability of the auto‐recycle discharge to remove methanol from glycerin and biodiesel was experimentally evaluated at discharge temperatures ranging from 60 to 180°C and pressures from 101 to 515 kPa. Exiting compositions approached methanol's bubble point compositions under the assumption of a nonvolatile second component (either glycerin or biodiesel), and this constraint largely defined the separation that was achieved. Glycerin with less than 2% methanol was obtained using this separator. When extended for the separation of methanol from biodiesel, less than 1% methanol remained in the biodiesel effluent. © 2005 American Institute of Chemical Engineers AIChE J, 2005