Onjukka
Lori L. Onjukka, Arlington, TX US
Patent application number | Description | Published |
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20120101317 | Fomula for Joint Synthetic Jet, Rocket, And Diesel Fuel - A synthetic fuel formula using a blend of High Density Synthetic (HDS) (e.g. Decalin and Tetralin), and Low Density Synthetic (LDS) (e.g. Synthetic Paraffinic Kerosene—SPK) is disclosed. This HDS and LDS blend has been shown to be useful as a jet, rocket and diesel fuel of standard density, and under low temperature conditions. The inventions described herein relate to 100% synthetic hydrocarbon fuels derived from various carbonaceous materials such as, but not limited to, biomass, municipal waste, natural gas, and coal. This 100% synthetic fuel can be universally used for both jet and diesel fuels. It meets Joint Battlefield Use Fuel of the Future (J-BUFF), or Single Battlefield Fuel (SBF) strategic requirements. The commercial advantage of the present invention is that it can be prepared from commercial available fuel stocks or co-processed using currently available chemical processes. | 04-26-2012 |
20130340322 | ENHANCED METHODS OF SYNTHETIC CHEMICAL AND FUEL PRODUCTION THROUGH INTEGRATED PROCESSING AND EMISSION RECOVERY - The process described in this embodiment relates to the field of synthetic fuel and synthetic chemical production through co-processing methods such as pyrolysis, combustion, gasification, distillation, catalytic synthesis, methanol synthesis, hydro-treatment, and hydrogenation, cavitation, bioreaction, and water treatment. The inventions described herein relates to synthetic hydrocarbons derived from various carbonaceous materials such as biomass, solid municipal waste and coal which can be converted into typical industrial products and various unique synthetic fuels. The byproducts of each process are directed to other processes for additional product yield and to reduce waste and emissions. | 12-26-2013 |
Rolf L. Onjukka, Cordova, TN US
Patent application number | Description | Published |
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20100011778 | Environmentally friendly methods and systems of energy production - A process of energy production is disclosed. The process includes integrating three or more energy production technologies such that a first byproduct of a first energy production technology is applied to a second energy production technology and a second byproduct of the second energy production technology is applied to a third energy production technology. The process also includes operating the integrated energy production technologies to produce energy such that at least a portion of the first byproduct is utilized in an operation of the second energy production technology and a portion of the second byproduct is utilized in an operation of the third energy production technology. | 01-21-2010 |
Rolf L. Onjukka, Arlington, TX US
Patent application number | Description | Published |
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20120101317 | Fomula for Joint Synthetic Jet, Rocket, And Diesel Fuel - A synthetic fuel formula using a blend of High Density Synthetic (HDS) (e.g. Decalin and Tetralin), and Low Density Synthetic (LDS) (e.g. Synthetic Paraffinic Kerosene—SPK) is disclosed. This HDS and LDS blend has been shown to be useful as a jet, rocket and diesel fuel of standard density, and under low temperature conditions. The inventions described herein relate to 100% synthetic hydrocarbon fuels derived from various carbonaceous materials such as, but not limited to, biomass, municipal waste, natural gas, and coal. This 100% synthetic fuel can be universally used for both jet and diesel fuels. It meets Joint Battlefield Use Fuel of the Future (J-BUFF), or Single Battlefield Fuel (SBF) strategic requirements. The commercial advantage of the present invention is that it can be prepared from commercial available fuel stocks or co-processed using currently available chemical processes. | 04-26-2012 |
20130340322 | ENHANCED METHODS OF SYNTHETIC CHEMICAL AND FUEL PRODUCTION THROUGH INTEGRATED PROCESSING AND EMISSION RECOVERY - The process described in this embodiment relates to the field of synthetic fuel and synthetic chemical production through co-processing methods such as pyrolysis, combustion, gasification, distillation, catalytic synthesis, methanol synthesis, hydro-treatment, and hydrogenation, cavitation, bioreaction, and water treatment. The inventions described herein relates to synthetic hydrocarbons derived from various carbonaceous materials such as biomass, solid municipal waste and coal which can be converted into typical industrial products and various unique synthetic fuels. The byproducts of each process are directed to other processes for additional product yield and to reduce waste and emissions. | 12-26-2013 |