The present disclosure generally relates to an engine with an integrated mixing of fluids device and associated technology for improvement of the efficiency of the engine, and more specifically to an engine equipped with a fuel mixing device for improvement of the overall properties by inline oxygen
The present disclosure generally relates to an engine with an integrated mixing of fluids device and associated technology for improvement of the efficiency of the engine, and more specifically to an engine equipped with a fuel mixing device for improvement of the overall properties by inline oxygenation of the liquid, a change in property of the liquid such as cooling form improved combustion, or the use of re-circulation of exhaust from the engine to further improve engine efficiency and reduce unwanted emissions.
대표청구항▼
1. An internal combustion engine, comprising: a supply of a fuel with a pump;a cylinder with a combustion chamber in communication with a nozzle;an input valve in the combustion chamber for entry of air;a release valve for the release of exhaust gasses formed in the combustion chamber;a mixing devic
1. An internal combustion engine, comprising: a supply of a fuel with a pump;a cylinder with a combustion chamber in communication with a nozzle;an input valve in the combustion chamber for entry of air;a release valve for the release of exhaust gasses formed in the combustion chamber;a mixing device, with lateral openings, having air and fuel traveling in opposite longitudinal directions of the mixing device to merge after the air travels inside of a conical reflector and the fuel travels outside the conical reflector on opposite sides of the conical reflector to form a gaseous fuel mixture;the mixing device being connected to the pump and the nozzle for the gaseous fuel mixture to be released through the nozzle into the combustion chamber; andwherein the gaseous fuel mixture is further mixed with air in the combustion chamber. 2. The internal combustion engine of claim 1, wherein the mixing device includes an air inlet for mixing air into the fuel from the supply of the fuel for producing the gaseous fuel mixture made of at least the fuel and the air. 3. The internal combustion engine of claim 2, wherein the mixing device includes a fluid inlet for mixing a secondary fluid into the fuel for producing the gaseous fuel mixture made of at least the fuel, the air, and the secondary fluid. 4. The internal combustion engine of claim 3, wherein the secondary fluid is selected from a group consisting of water, and ethanol. 5. The internal combustion engine of claim 3, wherein the secondary fluid is exhaust gas. 6. The internal combustion engine of claim 1, wherein the mixing device includes a fluid inlet for mixing a secondary fluid into the fuel for producing the gaseous fuel mixture made of at least the fuel and the secondary fluid. 7. The internal combustion engine of claim 1, wherein the mixing device includes a Livshits Ring for cooling of the gaseous fuel mixture. 8. The internal combustion engine of claim 1, further comprising a high pressure pump for pressurizing the gaseous fuel mixture. 9. The internal combustion engine of claim 1, further comprising a booster with an outlet connected to the combustion chamber and an inlet connected to the mixing device and using the gaseous fuel mixture from the mixing device. 10. An internal combustion engine, comprising: a supply of a fuel with a pump; a cylinder with a combustion chamber in communication with a nozzle;an input valve in the combustion chamber for entry of air;a release valve for the release of exhaust gasses formed in the combustion chamber;a mixing device, with lateral openings having air and fuel traveling in opposite longitudinal directions of the mixing device to merge after the air travels inside of a conical reflector and the fuel travels outside of the conical reflector on opposite sides of the conical reflector to form a gaseous fuel mixture;the mixing device being connected to the pump and the nozzle for producing the gaseous fuel mixture to be released through the nozzle into the combustion chamber;wherein the mixing device includes an air inlet for mixing air into the fuel from the supply of the fuel for producing the gaseous fuel mixture made of at least the fuel and the air; andwherein the air is compressed air for producing the gaseous fuel mixture made of at least the fuel and compressed air. 11. The internal combustion engine of claim 10, wherein the gaseous fuel mixture is released expanded at the nozzle for cooling the pressurized gaseous fuel mixture into the combustion chamber. 12. A system for reducing soot and unwanted emissions of a diesel engine, the system implemented in an engine having a cylinder with a combustion chamber in communication with a nozzle, an input valve, and a release valve, the system comprising: a system for the supply of a fuel to the nozzle, the system comprising a mixing device, with lateral openings with air and fuel traveling in opposite longitudinal directions of the mixing device to merge after the air travels inside of a conical reflector and the fuel travels outside of the conical reflector on opposite sides of the conical reflector for a transformation of the fuel and the air into a gaseous fuel mixture;a system for the supply of a reactant in the combustion chamber via the input valve;a system for the combustion of the gaseous fuel mixture and the reactant in the combustion chamber via the cylinder; anda system for the evacuation of exhaust gas via the release valve. 13. The system for reducing soot of claim 12, wherein the mixing device includes an air inlet for mixing air into the fuel from the system for the supply of the fuel for producing the gaseous fuel mixture made of at least the fuel and the air. 14. The system for reducing soot of claim 13, wherein the mixing device includes a Livshits Ring for cooling of the gaseous fuel mixture before the combustion chamber. 15. The system for reducing soot of claim 13, wherein the system for the supply of fuel further comprises a high pressure pump. 16. The system for reducing soot of claim 13, wherein the system for the supply of fuel further comprises a booster. 17. The system for reducing soot of claim 12, wherein the mixing device includes a fluid inlet for mixing a secondary fluid into the system for the supply of the fuel for producing the gaseous fuel mixture made of at least the fuel and the secondary fluid. 18. The system for reducing soot of claim 17, wherein the secondary fluid is selected from a group consisting of water, ethanol, and methanol. 19. The system for reducing soot of claim 17, wherein the secondary fluid is exhaust gas. 20. The system for reducing soot of claim 12, wherein the mixing device includes a fluid inlet for mixing a secondary fluid into the system for the supply of the fuel for producing the gaseous fuel mixture made of at least the fuel, the air, and the secondary fluid. 21. A system for reducing soot and unwanted emissions of a diesel engine, the system implemented in an engine having a cylinder with a combustion chamber in communication with a nozzle, an input valve, and a release valve, the system comprising: a system for the supply of a fuel to the nozzle, the system comprising a mixing device, with lateral openings with air and fuel traveling in opposite longitudinal directions of the mixing device to merge after the air travels inside of a conical reflector and the fuel travels outside of the conical reflector on opposite sides of the conical reflector for a transformation of the fuel and the air into a gaseous fuel mixture;a system for the supply of a reactant in the combustion chamber via the input valve;a system for the combustion of the gaseous fuel mixture and the reactant in the combustion chamber via the cylinder; anda system for the evacuation of exhaust gas via the release valve wherein the mixing device includes an air inlet for mixing air into the fuel from the system for the supply of the fuel for producing the gaseous fuel mixture made of at least the fuel and the air, and wherein air is compressed air for producing a pressurized gaseous fuel mixture. 22. The system for reducing soot of claim 21, wherein the gaseous fuel mixture is released expanded at the nozzle for cooling the pressurized gaseous fuel mixture into the combustion chamber.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (51)
Surovikin Vitaly F. (ulitsa Lermontova ; 20 ; kv. 80 Omsk SUX) Antonenko Vladimir F. (Kamerny pereulok ; 46 ; kv. 61 Omsk SUX) Babich Gennady V. (ulitsa 20 let RKKA ; 40 ; kv. 15 Omsk SUX) Bobrik Mik, Aerodynamic apparatus for mixing components of a fuel mixture.
Shiraishi,Takuya; Nogi,Toshiharu, Control apparatus for internal combustion engine and control method for internal combustion engine combustion method for internal combustion engine and direct injection engine.
Karlsson Rolf (Alvkarleby SEX) Tinoco Hernan (Alvkarleby SEX) Henriksson Mats (Alvkarleby SEX) Lundstrm Anders (Alvkarleby SEX), Device for mixing two fluids having different temperature.
Wells Marvin D. (Redford MI) Barua Debojit (Troy MI) Richardson William P. (Columbus IN) Evers Lawrence W. (Lake Linden MI), Method and structure for optimizing atomization quality of a low pressure fuel injector.
Bromberg, Leslie; Blumberg, Paul; Cohn, Daniel R.; Heywood, John, Single nozzle direct injection system for rapidly variable gasoline/anti-knock agents mixtures.
King Leonard T. (4109 Cedar Ave. Long Beach CA 90807) Nelmida Leo (21086 Cantebury La. Lake Forest CA 92630), Special injection and distribution device.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.