Patent ID: 9346773
Filing Date: 2016-05-24
CPC Classification: C07D,Y02P

Claim Text:
1. A process for the dehydration of an ethanol feed to ethylene then oxidation of the ethylene to ethylene oxide, comprising: a) optionally preheating said ethanol feed to a temperature in the range 70° C. to 130° C. by exchange of heat with the effluent obtained from e); b) optionally pre-treating of the ethanol feed over an acidic solid operating at a temperature in the range 70° C. to 130° C. in order to produce a pre-treated ethanol feed; c) vaporization of a vaporization feed comprising said pre-treated ethanol feed and at least a portion of a flow of diluting water comprising ethanol recycled to an outlet from g) to an exchanger by means of an exchange of heat with effluent obtained from the last reactor of e), said vaporization feed being introduced into said vaporization at a pressure in the range 0.1 to 1.4 MPa so as to produce a vaporized feed; d) compressing and superheating said vaporized feed in a compressor so as to produce a feed which is compressed and at a temperature for supplying to dehydration e), said compressor being driven by a condensing turbine having an intake which is a quench flow vaporized in oxidation i), exhaust flow leaving the condensing turbine being recycled to the oxidation i); e) dehydration of the compressed feed, said feed having a ratio of water to ethanol in the range 1 to 4 by weight, in at least one adiabatic reactor containing at least one dehydration catalyst and in which a dehydration reaction takes place, operating at an inlet temperature in the range 350° C. to 550° C. and at an inlet pressure in the range 0.3 to 1.8 MPa; f) separating effluent obtained from the last adiabatic reactor of e) into an effluent comprising ethylene at a pressure of less than 1.6 MPa and an effluent comprising water; g) purification of at least a portion of the effluent comprising water obtained from f) and separation into at least a flow of treated water and a flow of diluting water comprising ethanol, the latter being recycled upstream of the vaporization c); h) compression of the effluent comprising ethylene obtained from f); i) oxidation of the effluent obtained from h) into ethylene oxide, said oxidation comprising at least one tubular oxidation reactor cooled by vaporization of said quench flow obtained from d), said quench flow which has thus been reheated being recycled to d).