IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0397930
(2012-02-16)
|
등록번호 |
US-8506656
(2013-08-13)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
6 인용 특허 :
14 |
초록
Methods for producing fuel compositions with predetermined desirable properties are disclosed. Feedback control can be employed to meter precise amounts of fuel composition components while monitoring fuel composition properties to obtain fuel compositions having specifically defined properties.
대표청구항
▼
1. A method for making a fuel composition having reduced emissions of one or more of CO, NOx, and hydrocarbons upon combustion, comprising: identifying two or more predetermined properties of the fuel composition for measurement and control;charging one or more hydrocarbon feedstock, one or more oxy
1. A method for making a fuel composition having reduced emissions of one or more of CO, NOx, and hydrocarbons upon combustion, comprising: identifying two or more predetermined properties of the fuel composition for measurement and control;charging one or more hydrocarbon feedstock, one or more oxygenate feedstock, and one or more additives into a blending tank to make a fuel composition mixture, each of the one or more hydrocarbon feedstock, one or more oxygenate feedstock, and one or more additive feed having a first charge rate;determining amounts of each of the one or more hydrocarbon feedstock, the one or more oxygenate feedstock, and the one or more additives charged into the blending tank to make the fuel composition mixture;determining two or more current properties of the fuel composition mixture in the blending tank, the two or more current properties of the fuel composition mixture corresponding to the two or more predetermined properties of the fuel composition;comparing the predetermined properties of the fuel composition with the current properties of the fuel composition mixture using a processor coupled to a memory, the memory comprising historical information relating to amounts and identities of fuel composition components and corresponding fuel composition properties; andadjusting the charge rate of at least one of the one or more hydrocarbon feedstocks, one or more oxygenate feedstocks, and one or more additives to a second charge rate into the blending tank in response to the amounts of each of the one or more hydrocarbon feedstocks, the one or more oxygenate feedstocks, and the one or more additives charged into the blending tank and comparing the predetermined properties and the current properties to provide the fuel composition having reduced emissions of one or more of CO, NOx, and hydrocarbons upon combustion, wherein adjusting the charge rate is performed using feedback control and the processor, the processor operative to determine adjustments to the charge rate of at least one of the one or more hydrocarbon feedstocks, one or more oxygenate feedstocks, and one or more additives into the blending tank based upon the current properties of the fuel composition mixture and the historical information relating to amounts and identities of fuel composition components and corresponding fuel composition properties. 2. The method of claim 1, wherein the fuel composition has reduced emissions of CO upon combustion. 3. The method of claim 1, wherein the fuel composition has reduced emissions of NOx upon combustion. 4. The method of claim 1, wherein the processor executes program code stored in the memory. 5. The method of claim 2, wherein the two or more predetermined properties of the fuel composition comprise a 50% D-86 distillation point and the paraffin content, and adjusting the charge rate of at least one of the one or more hydrocarbon feedstocks, one or more oxygenate feedstocks, and one or more additives to the second charge rate into the blending tank decreases the 50% D-86 Distillation Point and increases the paraffin content to provide the fuel composition having reduced emissions of CO upon combustion. 6. The method of claim 3, wherein the two or more predetermined properties of the fuel composition comprise Reid Vapor Pressure and 10% D-86 Distillation Point, and adjusting the charge rate of at least one of the one or more hydrocarbon feedstocks, one or more oxygenate feedstocks, and one or more additives to the second charge rate into the blending tank decreases the Reid Vapor Pressure and the 10% D-86 Distillation Point to provide the fuel composition having reduced emissions of NOx upon combustion. 7. The method of claim 1, wherein the fuel composition has reduced emissions of hydrocarbons upon combustion. 8. The method of claim 7, wherein the two or more predetermined properties of the fuel composition comprise olefin content and Research Octane Number, and adjusting the charge rate of at least one of the one or more hydrocarbon feedstocks, one or more oxygenate feedstocks, and one or more additives to the second charge rate into the blending tank decreases the olefin content and increases the Research Octane Number to provide the fuel composition having reduced emissions of hydrocarbons upon combustion. 9. A method for making a fuel composition having reduced emissions of CO or NOx upon combustion, comprising: identifying two or more predetermined properties of the fuel composition for measurement and control;charging one or more hydrocarbon feedstock, optionally one or more oxygenate feedstock, and optionally one or more additives into a blending tank to make a fuel composition mixture, each of the one or more hydrocarbon feedstock, one or more oxygenate feedstock, and one or more additive feed having a first charge rate;determining amounts of each of the one or more hydrocarbon feedstock, the one or more oxygenate feedstock, and the one or more additives charged into the blending tank to make the fuel composition mixture;determining two or more current properties of the fuel composition mixture in the blending tank, the two or more current properties of the fuel composition mixture corresponding to the two or more predetermined properties of the fuel composition;comparing the predetermined properties of the fuel composition with the current properties of the fuel composition mixture using a programmable logic circuit coupled to a memory, the memory comprising historical information relating to amounts and identities of fuel composition components and corresponding fuel composition properties; andadjusting the charge rate of at least one of the one or more hydrocarbon feedstocks, one or more oxygenate feedstocks, and one or more additives to a second charge rate into the blending tank in response to the amounts of each of the one or more hydrocarbon feedstocks, the one or more oxygenate feedstocks, and the one or more additives charged into the blending tank and comparing the predetermined properties and the current properties to provide the fuel composition having reduced emissions of CO or NOx upon combustion, wherein adjusting the charge rate is performed using feedback control and the programmable logic circuit, the programmable logic circuit operative to determine adjustments to the charge rate of at least one of the one or more hydrocarbon feedstocks, one or more oxygenate feedstocks, and one or more additives into the blending tank based upon the current properties of the fuel composition mixture and the historical information relating to amounts and identities of fuel composition components and corresponding fuel composition properties. 10. The method of claim 9, wherein the fuel composition has reduced emissions of CO upon combustion. 11. The method of claim 9, wherein the fuel composition has reduced emissions of NOx upon combustion. 12. The method of claim 9, wherein the programmable logic circuit executes program code stored in the memory. 13. The method of claim 10, wherein the two or more predetermined properties of the fuel composition comprise a 50% D-86 distillation point and the paraffin content, and adjusting the charge rate of at least one of the one or more hydrocarbon feedstocks, one or more oxygenate feedstocks, and one or more additives to the second charge rate into the blending tank decreases the 50% D-86 Distillation Point and increases the paraffin content to provide the fuel composition having reduced emissions of CO upon combustion. 14. The method of claim 11, wherein the two or more predetermined properties of the fuel composition comprise Reid Vapor Pressure and 10% D-86 Distillation Point, and adjusting the charge rate of at least one of the one or more hydrocarbon feedstocks, one or more oxygenate feedstocks, and one or more additives to the second charge rate into the blending tank decreases the Reid Vapor Pressure and the 10% D-86 Distillation Point to provide the fuel composition having reduced emissions of NOx upon combustion. 15. The method of claim 9, wherein the memory further comprises historical, information relating to effects on fuel composition properties as a result of adding one or more fuel composition components thereto. 16. A method for making fuel composition having reduced emissions of CO or NOx upon combustion in an automobile engine, comprising: identifying two or more predetermined properties of the fuel composition for measurement and control;charging one or more hydrocarbon feedstock and an ethanol feedstock into a blending tank to make a fuel composition mixture, each of the one or more hydrocarbon feedstock and the ethanol feedstock having a first charge rate;determining amounts of each of the one or more hydrocarbon feedstock and the ethanol feedstock charged into the blending tank to make the fuel composition mixture;determining two or more current properties of the fuel composition mixture in the blending tank, the two or more current properties of the fuel composition mixture corresponding to the two or more predetermined properties of the fuel composition;comparing the predetermined properties of the fuel composition with the current properties of the fuel composition mixture using a processor coupled to a memory, the memory comprising historical information relating to amounts and identities of fuel composition components and corresponding fuel composition properties; andadjusting the charge rate of at least one of the one or more hydrocarbon feedstocks and the ethanol feedstock to a second charge rate into the blending tank in response to the amounts of each of the one or more hydrocarbon feedstock and the ethanol feedstock charged into the blending tank and comparing the predetermined properties and the current properties to provide the fuel composition having reduced emissions of CO or NOx upon combustion, wherein adjusting the charge rate is performed using feedback control and the processor, the processor operative to determine adjustments to the charge rate of at least one of the one or more hydrocarbon feedstocks and the ethanol feedstock into the blending tank based upon the current properties of the fuel composition mixture and the historical information relating to amounts and identities of fuel composition components and corresponding fuel composition properties. 17. The method of claim 16, wherein the fuel composition has reduced emissions of CO upon combustion. 18. The method of claim 16, wherein the fuel composition has reduced emissions of NOx upon combustion. 19. The method of claim 17, wherein the two or more predetermined properties of the fuel composition comprise a 50% D-86 distillation point and the paraffin content, and adjusting the charge rate of at least one of the one or more hydrocarbon feedstocks and the ethanol feedstock to the second charge rate into the blending tank decreases the 50% D-86 Distillation Point and increases the paraffin content to provide the fuel composition having reduced emissions of CO upon combustion. 20. The method of claim 18, wherein the two or more predetermined properties of the fuel composition comprise Reid Vapor Pressure and 10% D-86 Distillation Point, and adjusting the charge rate of at least one of the one or more hydrocarbon feedstocks and the ethanol feedstock to the second charge rate into the blending tank decreases the Reid Vapor Pressure and the 10% D-86 Distillation Point to provide the fuel composition having reduced emissions of NOx upon combustion.
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