Patent Number: 
Section: claims

1. A device for generating compressed fluids, the device comprising:a first process chamber A for containing and treating a first reaction material, the first process chamber A having an inlet that receives the first reaction material into the first process chamber A;a second process chamber B for containing and treating a second reaction material the second process chamber B having an inlet that receives the second reaction material into the second process chamber B;a third process chamber C, for containing and treating of a fluid designed to be compressed,wherein the first process chamber A, the second process chamber B, and the third process chamber C are each distinct sealed chambers separate from each other,wherein the first process chamber A is adjacent the third process chamber C and the second process chamber B is embedded within the third process chamber C;a nebulization pump (N) operatively connected to the first process chamber and to the second process chamber B, the nebulization pump (N) configured for nebulization of the first reaction material taken from the first process chamber and consequent entry of nebulized first reaction material into the second process chamber B; anda magnetron (M) arranged adjacent the third process chamber C, the magnetron (M) configured to provide an emission of radio waves with variable frequencies in a direction into said second process chamber B,wherein said radio waves, emitted by said magnetron (M) into the second process chamber B, interact with said nebulized first reaction material and the second reaction material, in solid form, contained in said second process chamber B, to thereby produce a high energy plasma that creates a temperature increase in the fluid contained in the third process chamber C to thereby warm-up and by being warmed-up compresses the fluid contained in the third process chamber C. 2. The device according to claim 1,further comprising the first reaction material in the first process chamber A, wherein the first reaction material contained and treated in the first process chamber A is in liquid or gaseous form and is selected from the group consisting of water, fossil hydrocarbons, biologic hydrocarbons, and mixtures or emulsions comprising said water, fossil hydrocarbons, and biologic hydrocarbons. 3. The device according to claim 1, further comprising the second reaction material in the second process chamber B, wherein the second reaction material contained and treated in the second process chamber B comprises solid cluster material selected from the group consisting of copper, nickel, titanium, tungsten, iron, carbon, and compounds containing copper, nickel, titanium, tungsten, iron, or carbon. 4. The device according to claim 1, further comprising the fluid in the third process chamber C, wherein the fluid contained and treated is in the third process chamber C in gaseous form and is selected from the group consisting of atmospheric air, carbon dioxide, helium, nitrogen, and mixtures of atmospheric air, carbon dioxide, helium, and nitrogen. 5. The device according to claim 1, further comprising adjusting valves located at the inlet of the first process chamber A and at the inlet of the second process chamber B, said adjusting valves being operable to control entry of the first process material and the second process material respectively into the first process chamber A and the second process chamber B. 6. The device according to claim 1, further comprising an adjusting valve located at an outlet of the third process chamber, said adjusting valve being operable to control ejection of the compressed fluid from the outlet of the third process chamber C. 7. The device according to claim 1, further comprising: a fourth process chamber D for pre-heating the first process chamber A and the third process chamber C, the first process chamber A and the third process chamber C being enclosed in the fourth process chamber D. 8. The device according to claim 7, further comprising: adjusting valves at an inlet and an outlet of the fourth process chamber, the adjusting valves operable to control entry of a warming-up fluid into the fourth process chamber D and for ejection of said warming-up fluid from said chamber. 9. The device according to claim 8, wherein the warming-up fluid contained in the fourth process chamber D comprises fluids for thermal recovery in liquid or gaseous form. 10. The device according to claim 1, further comprising a balancing valve operatively connected to the first process chamber A and to the third process chamber C, the balancing valve being operable for balancing pressure between the first process chamber A and the third process chamber C for controlling overpressure of the first reaction material in the first process chamber A and controlling overpressure of the fluid in the third process chamber. 11. The device according to claim 1, further comprising an electronic control unit (S) for the coordinated management of the single elements of the device. 12. The device according to claim 1, further comprising the second reaction material in the second process chamber B, wherein the second reaction material contained and treated in the second process chamber B comprises solid powder material selected from the group consisting of copper, nickel, titanium, tungsten, iron, carbon, and powered compounds containing copper, nickel, titanium, tungsten, iron, or carbon. 13. The device according to claim 1, further comprising:the first reaction material in the first process chamber A,the second reaction material in the second process chamber B, andthe fluid in the third process chamber C,wherein the first reaction material is in liquid or gaseous form and is selected from the group consisting of water, fossil hydrocarbons, biologic hydrocarbons, and mixtures or emulsions comprising said water, fossil hydrocarbons, and biologic hydrocarbons,wherein the second reaction material comprises solid cluster or powder material selected from the group consisting of copper, nickel, titanium, tungsten, iron, carbon, and compounds containing copper, nickel, titanium, tungsten, iron, or carbon, andwherein the fluid is in gaseous form and is selected from the group consisting of atmospheric air, carbon dioxide, helium, nitrogen, and mixtures of atmospheric air, carbon dioxide, helium, and nitrogen. 14. The device according to claim 13, wherein the second reaction material is in tablet form. 15. The device according to claim 13, further comprising:first adjusting valves located at the inlet of the first process chamber A and at the inlet of the second process chamber B, said first adjusting valves being operable to control entry of the first process material and the second process material respectively into the first process chamber A and the second process chamber B;a second adjusting valve located at an outlet of the third process chamber, said second adjusting valve being operable to control ejection of the compressed fluid from the outlet of the third process chamber C;a fourth process chamber D for pre-heating the first process chamber A and the third process chamber C, the first process chamber A and the third process chamber C being enclosed in the fourth process chamber D;third adjusting valves at an inlet and an outlet of the fourth process chamber, the third adjusting valves operable to control entry of a warming-up fluid into the fourth process chamber D and for ejection of said warming-up fluid from said chamber,wherein the warming-up fluid contained in the fourth process chamber D comprises fluids for thermal recovery in liquid or gaseous form;a balancing valve operatively connected to the first process chamber A and to the third process chamber C, the balancing valve being operable for balancing pressure between the first process chamber A and the third process chamber C for controlling overpressure of the first reaction material in the first process chamber A and controlling overpressure of the fluid in the third process chamber; andan electronic control unit (S) operative connect to the first adjusting valves, the second adjusting valve, the third adjusting valves, and the balancing valve.