Techniques, methods and systems for preparation liquid fuels from hydrocarbon and carbon dioxide are disclosed. The present invention can transform hydrocarbon and carbon dioxide generated from organic feed stocks or other industrial emissions into renewable engineered liquid fuels and store them in
Techniques, methods and systems for preparation liquid fuels from hydrocarbon and carbon dioxide are disclosed. The present invention can transform hydrocarbon and carbon dioxide generated from organic feed stocks or other industrial emissions into renewable engineered liquid fuels and store them in a cost-efficient way. The method of the present invention includes: supplying hydrocarbon and carbon dioxide to a heated area of a reaction chamber in controlled volumes; forming carbon monoxide by the energy provided by the heated area; transporting carbon monoxide and hydrogen to a reactor in controlled volumes; supplying additional hydrogen to the reactor; regulating the pressure in the reactor by adjusting the controlled volumes in order to achieve a predetermined object; forming the liquid fuel in the reactor according to the predetermined object; and, storing the liquid fuel in a storage device.
대표청구항▼
1. A system for preparing a liquid fuel, the system comprising: a heated area comprising a hydrocarbon input port for direct flow of hydrocarbon at a first controlled volume into the heated area, a carbon dioxide input port for direct flow of carbon dioxide at a second controlled volume into the hea
1. A system for preparing a liquid fuel, the system comprising: a heated area comprising a hydrocarbon input port for direct flow of hydrocarbon at a first controlled volume into the heated area, a carbon dioxide input port for direct flow of carbon dioxide at a second controlled volume into the heated area, wherein the hydrocarbon and the carbon dioxide form carbon monoxide and hydrogen by an energy provided by the heated area, and a first heated area outlet port for transporting at least one of the carbon dioxide, the carbon monoxide, and the hydrogen out of the heated area;a reactor, in fluid communication with the heated area, wherein the reactor comprises a first inlet port for directly receiving the carbon monoxide in a third controlled volume and the hydrogen in a fourth controlled volume, and a second inlet port for directly receiving additional hydrogen in a fifth controlled volume, wherein the reactor forms the liquid fuel from the carbon monoxide, the hydrogen, and the additional hydrogen according to a predetermined object, and a reactor outlet port for transporting the liquid quid fuel out of the reactor; andan ammonia reactor having an inlet port in direct fluid communication with a second heated area outlet port for transporting the hydrogen out of the heated area to the ammonia reactor to form ammonia with nitrogen, wherein the ammonia reactor further includes an ammonia reactor outlet port in direct fluid communication with the reactor for transporting ammonia reactor generated hydrogen out of the ammonia reactor to the reactor. 2. The system of claim 1, wherein the predetermined object includes at least one of a maximized production of the liquid fuel, a minimum energy input to the reactor, and a longest use duration of a catalyst used in the reactor. 3. The system of claim 1, further comprising a regulating device disposed between the heated area and the reactor. 4. The system of claim 1, further comprising: a heat exchanger to add heat to the hydrocarbon and the carbon dioxide. 5. The system of claim 1, wherein the additional hydrogen is pressurized and supplied cyclically. 6. The system of claim 1, further comprising: a combustor, generating a sixth controlled volume of additional carbon dioxide and heating the heated area. 7. The system of claim 6, wherein an oxygen is supplied to the combustor in a seventh controlled volume and an additional carbon monoxide is supplied to the combustor in an eighth controlled volume. 8. The system of claim 1, wherein the heated area is heated by a solar energy. 9. The system of claim 1, wherein the hydrocarbon comprises methane, and wherein the liquid fuel comprises alcohol. 10. The system of claim 1, wherein the liquid fuel is transformed into a gaseous form by recycled heat energy. 11. The system of claim 1, wherein the liquid fuel is stored with at least one of water, carbon donor, ammonia, and an additive used to improve energy density. 12. The system of claim 1, wherein the carbon dioxide is supplied from an ethanol plant. 13. The system of claim 1, further comprising a storage device having an inlet port direct in fluid communication with the reactor outlet port, wherein the storage device is capable of storing the liquid fuel. 14. The system of claim 1, further comprising a carbon dioxide supply in fluid communication with the carbon dioxide input port. 15. The system of claim 1, further comprising an additional hydrogen supply in fluid communication with the second input port of the reactor. 16. The system of claim 6, further comprising an oxygen source and a carbon monoxide source in fluid communication with the combustor. 17. A system for preparing a liquid fuel, the system comprising: a heated area comprising a hydrocarbon input port for direct flow of hydrocarbon at a first controlled volume into the heated area, a carbon dioxide input port for direct flow of carbon dioxide at a second controlled volume into the heated area, wherein the hydrocarbon and the carbon dioxide form carbon monoxide and hydrogen by an energy provided by the heated area, and a first heated area outlet port for transporting at least one of the carbon dioxide, the carbon monoxide, and the hydrogen out of the heated area;a reactor, in fluid communication with the heated area, wherein the reactor comprises a first inlet port for directly receiving the carbon monoxide in a third controlled volume and the hydrogen in a fourth controlled volume, and a second inlet ort for directly receiving additional hydrogen in a fifth controlled volume, wherein the reactor forms the liquid fuel from the carbon monoxide, the hydrogen, and the additional hydrogen according to a predetermined object, and a reactor outlet port for transporting the liquid fuel out of the reactor;an ammonia reactor having an inlet port in direct fluid communication with a second heated area outlet port for transporting the hydrogen out of the heated area to the ammonia reactor to form ammonia with nitrogen; anda storage device having a first inlet port in direct fluid communication with the reactor outlet port, and a second inlet port in direct fluid communication with an ammonia reactor outlet port, wherein the storage device is capable of storing the liquid fuel generated in the reactor and ammonia generated in the ammonia reactor.
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Williams, Rodger K.; Payne, Edward A., Alternate fuel blending system and associated method.
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