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Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0502024 (2009-07-13) |
등록번호 | US-8232441 (2012-07-31) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 9 인용 특허 : 572 |
A process for converting gaseous alkanes to liquid hydrocarbons wherein a gaseous feed containing alkanes is reacted with a dry bromine vapor to form alkyl bromides and hydrobromic acid vapor. The mixture of alkyl bromides and hydrobromic acid are then reacted over a synthetic crystalline alumino-si
A process for converting gaseous alkanes to liquid hydrocarbons wherein a gaseous feed containing alkanes is reacted with a dry bromine vapor to form alkyl bromides and hydrobromic acid vapor. The mixture of alkyl bromides and hydrobromic acid are then reacted over a synthetic crystalline alumino-silicate catalyst, such as a ZSM-5 zeolite, at a temperature of from about 150° C. to about 450° C. so as to form higher molecular weight hydrocarbons and hydrobromic acid vapor. Propane and butane which comprise a portion of the products may be recovered or recycled back through the process to form additional C5+ hydrocarbons. Various methods are disclosed to remove the hydrobromic acid vapor from the higher molecular weight hydrocarbons and to generate bromine from the hydrobromic acid for use in the process.
1. A process comprising: heating at least a portion of metal bromide in an oxidized valence state in a first fluidized bed to form at least bromine vapor and metal bromide in a reduced valence state;contacting at least a portion of the metal bromide in a reduced valence state in a second fluidized b
1. A process comprising: heating at least a portion of metal bromide in an oxidized valence state in a first fluidized bed to form at least bromine vapor and metal bromide in a reduced valence state;contacting at least a portion of the metal bromide in a reduced valence state in a second fluidized bed with bromine vapor to form metal bromide in an oxidized state;conveying at least a portion of the metal bromide in a reduced valence state from the first fluidized bed to the second fluidized bed; andconveying at least a portion of the metal bromide in an oxidized state from the second fluidized bed to the first fluidized bed. 2. The process of claim 1 wherein the steps of heating, contacting and conveying are performed continuously. 3. The process of claim 1 wherein the metal bromide in both the first fluidized bed and the second fluidized bed are in a solid phase. 4. The process of claim 1 further comprising: reacting a gaseous feed comprising lower molecular weight alkanes and at least a portion of the bromine vapor from said heating step to form at least alkyl bromides and hydrobromic acid. 5. The process of claim 4 wherein further comprising: reacting at least a portion of the alkyl bromides in the presence of a catalyst to form at least hydrocarbons having at least 5 carbon atoms. 6. The process of claim 1 wherein the step of conveying at least a portion of the metal bromide in a reduced valence state from the first fluidized bed to the second fluidized bed comprises flowing at least a portion of the metal bromide in a reduced valence state from near the top of the first fluidized bed to near the bottom of the second fluidized bed. 7. The process of claim 6 wherein the step of flowing is performed by gravity. 8. The process of claim 1 wherein the step of conveying at least a portion of the metal bromide in an oxidized valence state from the second fluidized bed to the first fluidized bed comprises flowing at least a portion of the metal bromide in an oxidized state from near the top of the second fluidized bed to near the bottom of the first fluidized bed. 9. The process of claim 8 wherein said flowing is performed by gravity. 10. The process of claim 4 wherein the gaseous feed comprises a recycled gas stream. 11. The process of claim 4 wherein the alkyl bromides comprise mono and multiple brominated species. 12. The process of claim 4 further comprising heating the gaseous feed to a temperature of about 150° C. to about 600° C. prior to the step of reacting. 13. The process of claim 4 wherein the catalyst comprises a crystalline alumino-silicate catalyst. 14. The process of claim 4 wherein the catalyst comprises a zeolite catalyst. 15. The process of claim 10 wherein the gaseous feed is introduced into the first fluidized bed to heat at least a portion of the metal bromide in an oxidized state. 16. The process of claim 4 wherein said reacting step occurs in a vessel separate from the first fluidized bed. 17. A process comprising: thermally decomposing a metal bromide in an oxidized valence state to form at least bromine vapor and a metal bromide in a reduced valence state; andreacting a gas comprising lower molecular weight alkanes and at least a portion of the bromine vapor to form at least alkyl bromides and hydrobromic acid. 18. The process of claim 17 further comprising: reacting at least a portion of the alkyl bromides in the presence of a catalyst to form at least hydrocarbons having at least 5 carbon atoms. 19. The process of claim 17 wherein the gas is heated to a temperature of about 150° C. to about 600° C. prior to the step of reacting. 20. The process of claim 17 further comprising: contacting the metal bromide in a reduced valence state with bromine vapor to form the metal bromide in an oxidized valence state. 21. The process of claim 17 wherein the steps of thermally decomposing the metal bromide having an oxidized valence state to form at least bromine vapor and the metal bromide in a reduced valence state and reacting the gas comprising lower molecular weight alkanes and at least a portion of the bromine vapor to form at least alkyl bromides and hydrobromic acid occur in separate vessels. 22. The process of claim 17 wherein the gas comprises a recycled gas stream. 23. The process of claim 17 wherein the alkyl bromides comprise mono and multiple brominated species. 24. The process of claim 17 further comprising heating the gas to a temperature of about 150° C. to about 600° C. prior to reaction with the bromine vapor. 25. The process of claim 18 wherein the catalyst comprises a crystalline alumino-silicate catalyst. 26. The process of claim 18 wherein the catalyst comprises a zeolite catalyst. 27. The process of claim 18 wherein the catalyst is in a fixed bed. 28. The process of claim 18 further comprising: regenerating the catalyst by contacting the catalyst with an oxygen containing gas. 29. The process of claim 28 wherein said catalyst is in a bed and the step of regeneration occurs in situ. 30. The process of claim 29 wherein the bed is fixed. 31. A process comprising: reacting HBr with a metal oxide to form at least a metal bromide;oxidizing said metal bromide with an oxygen containing gas to form at least bromine vapor;reacting said bromine vapor with a metal bromide in a reduced valence state to form a metal bromide in an oxidized valence state;contacting said metal bromide in an oxidized valence state with a gaseous feed comprising lower molecular weight alkanes at a temperature sufficient to thermally decompose said metal bromide in an oxidized valence state to form at least additional bromine vapor; andreacting at least a portion of the lower molecular weight alkanes and at least a portion of the additional bromine vapor to form at least alkyl bromides 32. The process of claim 31 further comprising: reacting at least a portion of the alkyl bromides in the presence of a catalyst to form at least hydrocarbons having at least 5 carbon atoms. 33. The process of claim 32 wherein the steps of contacting said metal bromide in an oxidized valence state with the gaseous feed and of reacting at least a portion of the lower molecular weight alkanes and at least the portion of the additional bromine vapor occur in separate vessels. 34. A process comprising: reacting HBr with a metal oxide to form at least a metal bromide;oxidizing said metal bromide with an oxygen containing gas to form at least bromine vapor;storing at least a first portion of said bromine vapor as a metal bromide in an oxidized valence state;releasing at least some quantity of said first portion of said bromine vapor by thermally decomposing at least a portion of said metal bromide in an oxidized valence state; andtransporting a gas comprising lower molecular weight alkanes with the quantity of bromine vapor released by thermally decomposing at least a portion of said metal bromide in an oxidized valence state. 35. The process of claim 34 wherein at least a portion of the quantity of bromine vapor released by thermally decomposing at least a portion of said metal bromide in an oxidized valence state reacts with at least a portion of the lower molecular weight alkanes to form alkyl bromides. 36. The process of claim 35 further comprising: reacting at least a portion of the alkyl bromides in the presence of a catalyst to form at least hydrocarbons having at least 5 carbon atoms.
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