IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0731309
(2000-12-06)
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발명자
/ 주소 |
- Langer, Deborah A.
- Mullay, John J.
- Fakult, Jennifer N.
- Daves, Harshida C.
- Skoch, William E.
- Westfall, David L.
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출원인 / 주소 |
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대리인 / 주소 |
Gilbert, Teresan W.Esposito, Michael F.
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인용정보 |
피인용 횟수 :
9 인용 특허 :
76 |
초록
▼
A process to make water-blended fuel by emulsifying the emulsifier in a portion of the fuel, then adding the water under high shear mixing to give a concentrated water fuel emulsion. The concentrated emulsion is then diluted with final portion of fuel using mixing or blending conditions resulting in
A process to make water-blended fuel by emulsifying the emulsifier in a portion of the fuel, then adding the water under high shear mixing to give a concentrated water fuel emulsion. The concentrated emulsion is then diluted with final portion of fuel using mixing or blending conditions resulting in an emulsified water blend fuel.
대표청구항
▼
A process to make water-blended fuel by emulsifying the emulsifier in a portion of the fuel, then adding the water under high shear mixing to give a concentrated water fuel emulsion. The concentrated emulsion is then diluted with final portion of fuel using mixing or blending conditions resulting in
A process to make water-blended fuel by emulsifying the emulsifier in a portion of the fuel, then adding the water under high shear mixing to give a concentrated water fuel emulsion. The concentrated emulsion is then diluted with final portion of fuel using mixing or blending conditions resulting in an emulsified water blend fuel. and each data store is removed from said list while being filled or while being fed to said storage device. 7. A method of directly connecting a computer processing output to a data storage device comprising the steps of: writing data from said computer processing output into a FIFO pipe; emptying said FIFO pipe into an intelligent process; wherein said intelligent process includes at least one FIFO data store and each of said at least one data stores conveys said data from said FIFO pipe to said storage device; using said intelligent process to distribute said data across a sequence of data stores selected from a plurality of available data stores, wherein said using includes, reading data output from said FIFO pipe, detecting the end of said data, and if said data has not ended, selecting a current data store that is not busy; marking said selected store as busy; writing said data into said current data store if said current data store is not full; emptying each of said data stores into said data storage device according to said sequence; and signaling said intelligent process when said sequence is completed. 8. The method of claim 7 in which said step of using said intelligent process further comprises the steps of: reading a list of available data stores; wherein if said data has ended, then signaling a data manager to empty a final data store; waiting for said data manager to signal completion; and recording a response code for said FIFO pipe; and if said data has not ended and if said current data store is full, then signaling the data manager to empty the current data store; and marking the current data store as busy; repeating said selecting and testing a current data store until a data store is found to be not full and not busy and then proceeding as if not full; and if said current data store is not fill, then repeating said steps of reading data, detecting the end, selecting, testing, and writing, until said end of data is detected. 9. A method of directly reading data from a storage device into a computer process comprising the steps of: activating a FIFO pipe having an input from an intelligent process and an output to a destination file, wherein said intelligent process includes at least one FIFO data store and each of said at least one data stores conveys data from said storage device to said FIFO pipe; reading said data into said intelligent process from said storage device; selecting one of said at least one FIFO data stores to identify a selected data store, marking said selected data store as busy, and writing said data read from said storage device into said selected data store, wherein if said selected data store is filled, and there is additional data to be read from said storage device, then said storing includes, selecting a next one of said at least one FIFO data stores, writing said additional data from said storage device into said selected next one of said at least one FIFO data stores, and writing said data from said selected data store into said FIFO pipe, and wherein if said selected data store is filled, and there is no additional data to be read from said storage device, then said storing includes waiting until said data is read from said storage device, and writing said data from said selected data store into said FIFO pipe. 10. The method of claim 9 in which said step of reading said data further comprises the steps of: identifying one of said at least one FIFO data stores to be filled; filling said identified data store with said data; signaling said intelligent process to identify a next FIFO data store; and repeating the steps of filling, signaling, and identifying until said data from said storage device is exhausted; and signaling said intelligent process that said data is exhausted. 11. The method of claim 9 in which said step of writing said data into said FIFO pipe further comprises the steps of: obtaining a sequence of said at least on FIFO data stores containing data; emptying said data into said FIFO pipe, and repeating said steps of obtaining and emptying until a signal is received. 12. The method of claim 9 in which said at least one FIFO data store further comprises a plurality of data stores managed as a round robin list, whereby each one of said plurality of data stores is either identified for filling, waiting to be emptied, or available, as determined by said intelligent process. 13. A method for communicating between a computer and a storage device comprising the steps of: piping the output of a first computer process into an intelligent process; storing the output of said intelligent process into a first file in said storage device; reading data from a second file in a storage device into an intelligent process; and piping said data into the input of a second computer process; wherein said intelligent process includes a set of FIFO data stores for conveying said output to said first file and for conveying said data to said second computer process and wherein said intelligent process is fed by a FIFO pipe and further includes, a set of physical storage locations arranged as a set of data stores, a selector for determining which of said data stores should be next filled, a monitor for determining when said data store is full, and a selector for determining which of said full data stores should be next fed to said storage device. 14. The method of claim 13 in which said step of storing further comprises the steps of: selecting one of said set of FIFO data stores and filling it with said output, signaling said storage device to empty said output; and repeating said steps of selecting and signaling until said first computer process is complete. 15. The method of claim 13 in which said step of reading data further comprises the steps of: selecting one of said set of FIFO data stores and filling it with said data; signaling said intelligent process to empty said data; and repeating said steps of selecting and signaling until said data file is exhausted. 16. The method of claim 13 in which said intelligent process further includes: a list of FIFO data stores and a status indicator for each said FIFO data store on said list; a sequencer for selecting and filling a FIFO data store according to said status indicator; and a sequencer for selecting and emptying a FIFO data store according to said status indicator. 17. The method of claim 13 in which said intelligent process further includes: a means for associating said output with said first file; and a means for associating said data with said second computer process.
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