Claims
- 1. A methanol production process comprising the steps
- (a) generating methanol synthesis gas by catalytic reaction with steam of a gaseous or vaporized hydrocarbon;
- (b) reacting the synthesis gas over a methanol synthesis catalyst and recovering a crude methanol liquid product from the reacted gas;
- (c) adding alkali to the crude liquid product, distilling the resulting admixture and separating therefrom a purified methanol stream and a liquid fusel oil stream containing said alkali and organic compounds of higher boiling point than methanol; and
- (d) feeding said fusel oil stream in the liquid state to a zone where it is contacted by said gaseous or vaporized hydrocarbon under conditions effecting incomplete evaporation of the fusel oil stream; separating organic compounds from the fusel oil with said hydrocarbon, leaving a liquid waste solution containing said alkali; feeding said mixture of organic compounds and said hydrocarbon to step (a) and separating said liquid waste solution.
- 2. The process of claim 1 in which said hydrocarbon is humidified before contacting it with the fusel oil stream.
- 3. The process of claim 1 in which the fusel oil stream is heated to a temperature in the range of 150.degree.-250.degree. C. under sufficient pressure to keep it in the liquid state, before contacting it with the hydrocarbon to be subjected to chemical reaction in step (a).
- 4. The process of claim 1 in which methanol synthesis in step (b) is over a copper-containing catalyst at an outlet temperature in the range 190.degree.-280.degree. C. and the fusel oil stream amounts to 0.5 to 2% by weight of the total refined methanol product.
- 5. The process of claim 2 in which the humidification is effected by means of hot water, said hot water being heated by the heat evolved in methanol synthesis over a copper-containing catalyst at an outlet temperature in the range of 190.degree.-280.degree. C.
- 6. The process of claim 1 in which volatile compounds evolved from the crude methanol before and during distillation are recycled to the inlet of synthesis gas generation.
- 7. In a methanol production process comprising the steps
- (a) generating methanol synthesis gas by catalytic reaction with steam of a gaseous or vaporizable hydrocarbon,
- (b) reacting the synthesis gas over a copper-containing methanol synthesis catalyst at an outlet temperature in the range of 190.degree.-280.degree. C. and recovering a crude methanol liquid product from the reacted gas;
- (c) adding alkali to the crude liquid product, distilling the resulting admixture and separating therefrom a purified methanol stream and liquid fusel oil stream containing said alkali and organic compounds of higher boiling point than methanol;
- (d) recovering heat evolved in said methanol synthesis by producing hot water and using said hot water to humidify the gaseous or vaporizable hydrocarbon fed to step (a) whereby to provide part of the steam requirement of step (a);
- the improvement, resulting in conversion to methanol synthesis gas of organic compounds contained in said fusel oil stream in step (a) while avoiding contact with the catalyst in step (a) of alkali in said fusel oil stream, comprising feeding said fusel oil stream, at a temperature in the range of 150.degree.-250.degree. C. under sufficient pressure to keep said stream in the liquid state, to a zone where said stream is contacted with the humidified gaseous or vaporized hydrocarbon produced in step (d) under conditions effecting incomplete evaporation of said stream, separating organic compounds from said stream with said humidified gaseous or vaporized hydrocarbon, leaving a liquid waste solution containing said alkali, feeding the mixture of said organic compounds and humidified hydrocarbon to step (a) and separating said liquid waste solution.
- 8. In a methanol production process comprising
- (a) generating methanol synthesis gas by reaction of a carbonaceous feedstock with a gasifying agent selected from steam, carbon dioxide and oxygen;
- (b) reacting the synthesis gas over a methanol synthesis catalyst and recovering a crude methanol liquid product from the reacted gas;
- (c) adding alkali to the crude liquid product, distilling the resulting admixture and separating therefrom a purified methanol stream and a liquid fusel oil stream containing said alkali and organic compounds of higher boiling point than methanol; and
- (d) recovering feedstock value in said fusel oil stream by feeding it to step (a);
- the improvement whereby the resulting alkali content of the fusel oil is prevented from entering synthesis gas generation, said improvement comprising contacting said fusel oil stream in the liquid state with a gas to be fed to said synthesis gas generation and selected from the group consisting of said carbonaceous feedstock if gaseous or vaporized and said gasifying agents under conditions effecting incomplete evaporation of the fusel oil stream; separating organic compounds from the fusel oil with said gas, leaving a liquid waste solution containing said alkali; feeding said mixture of organic compounds and gas to step (a) and separating said liquid waste solution.
Priority Claims (1)
Number |
Date |
Country |
Kind |
8016619 |
May 1980 |
GBX |
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Parent Case Info
This is a continuation of application Ser. No. 263,732 filed May 14, 1981, now abandoned.
US Referenced Citations (4)
Non-Patent Literature Citations (1)
Entry |
Quartulli, Hydrocarbon Processing, ??? 1975, pp. 94-99. |
Continuations (1)
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Number |
Date |
Country |
Parent |
263732 |
May 1981 |
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