Patent ID: 6417411
Filing Date: 2002-07-09
Classification: C07C,C07D,Y02P

Abstract:
A method for the production of ethylene glycol which in producing by the catalytic gas phase oxidation of ethylene with a molecular oxygen containing gas in the presence of a silver catalyst to obtain ethylene oxide and causing the resultant ethylene oxide to react with water thereby producing an aqueous ethylene glycol solution and subjecting this aqueous solution to concentrating operation with a multi-effect evaporator and dehydrating this aqueous solution and producing ethylene glycol, which comprises using the vapor generated in the multi-effect evaporator mentioned above as the source for heating at least one of the following steps (A)-(H):(A) a step of introducing an ethylene oxide-containing gas formed by the reaction of catalytic gas phase oxidation to an ethylene oxide absorber, causing the gas to contact an aqueous medium absorption solution and form ethylene oxide-containing bottoms therein, introducing the bottom to an ethylene oxide stripper, and separating ethylene oxide by heating the bottoms of the stripper, (B) a step of circulating portion of the gas from the top of the ethylene oxide absorption column to the ethyelene oxidation step and introducing the remainder thereof to the carbon dioxide absorption column and allowing it to contact with an alkali absorption solution to obtain the carbon dioxide-containing bottom, and introducing the bottoms to the carbon dioxide stripper, and heating the bottoms of the stripper thereby separating carbon dioxide, (C) a step of introducing an aqueous ethylene oxide solution obtained by concentrating the gas from the top of the ethylene oxide stripper to the ethylene oxide dehydration column and heating the bottoms of the dehydration column thereby separating light end components such as ethylene oxide, (D) a step of introducing the ethylene oxide-containing fraction obtained by condensing the gas from the top of the dehydration column to the light end separation column, heating the bottoms of this separation column thereby separating the light end component, and obtaining crude ethylene oxide as the bottoms, (E) a step of introducing the crude ethylene oxide to the ethylene oxide rectifying column and heating the bottoms of the rectifying column thereby obtaining purified ethylene oxide from the top of the rectifying column. (F) a step of extracting portion of the absorption solution obtained through the bottom of the ethylene oxide stripper, introducing it to the by-produced ethylene glycol concentration column and heating the bottoms of the concentrating column thereby effecting dehydration and concentration. (G) a step of introducing the aqueous ethylene glycol solution obtained at the multi-effect evaporator and concentrated therein to the ethylene glycol dehydration column, heating the bottoms of the dehydration column thereby effecting substantial separation of the water through the top of the column. (H) a step of introducing the solution of the ethylene glycol dehydration column substantially deprived of water to the monoethylene glycol distillation column bottoms, heating the bottoms of the distillation column thereby separating and obtaining monoethylene glycol from the top of the column.