Method and system for multi-stage compression of a gas using a liquid

What is claimed: 1. A method of compressing a gas, comprising: pumping, using a pump, at least a portion of a liquid contained in a first chamber to a second chamber initially containing only a gas at a first pressure such that the at least the portion of the liquid pumped into the second chamber compresses the gas in the second chamber to a second pressure greater than the first pressure and admitting the at least the portion of the liquid pumped into the second chamber into the second chamber using a liquid admission mechanism configured to admit the at least the portion of the liquid pumped into the second chamber such that the admitted liquid flows along at least an internal wall surface of the second chamber. 2. The method of claim 1 , wherein said first chamber and said second chamber are fluidly connected through the pump. 3. The method of claim 1 , wherein the first chamber comprises a first volume of the liquid and a first volume of the gas. 4. The method of claim 1 , wherein admitting the at least the portion of the liquid pumped into the second chamber into the second chamber using the liquid admission mechanism configured to admit the at least the portion of the liquid pumped into the second chamber comprises admitting the at least the portion of the liquid pumped into the second chamber into the second chamber using a Coanda nozzle. 5. The method of claim 1 , further comprising: receiving a pressurized gas into the first chamber having the liquid at the same time the at least the portion of the liquid in the first chamber is being pumped to the second chamber using the pump; and compressing the gas in the second chamber to the second pressure greater than the first pressure by the portion of the liquid pumped into the second chamber. 6. The method of claim 5 , wherein the pressurized gas is received into the first chamber from a buffer chamber. 7. The method of claim 1 , wherein any one or both of the first chamber and the second chamber have an internal geometry configured for admitting the liquid into the respective chamber so that the admitted liquid flows at least along a portion of the internal wall surface of the respective chamber for heat and mass transfer between the gas, the liquid and the portion of the internal surface of the respective chamber. 8. The method of claim 1 , further comprising circulating the gas and the liquid in a bottom and an upper part of any one or both of the first chamber or second chamber for heat and mass transfer between the liquid and the gas. 9. The method of claim 1 , wherein the liquid is admitted to any one or both of the first chamber and the second chamber via a nozzle that acts as the liquid admission mechanism. 10. A method of compressing a gas, comprising: providing a first chamber, said first chamber having a first volume of a liquid and a first volume of a gas; providing a second chamber, said second chamber having a second volume of the liquid and a second volume of the gas, wherein the second volume of the gas in the second chamber is at a first pressure and said first chamber and said second chamber are fluidly connected through a pump; and receiving a pressurized gas into the first chamber having the first volume of the liquid and the first volume of the gas and simultaneously pumping, using the pump, at least a portion of the first volume of the liquid in the first chamber to the second chamber such that the at least the portion of the first volume of the liquid pumped into the second chamber compresses the second volume of the gas in the second chamber to a second pressure greater than the first pressure, wherein the at least the portion of the first volume of the liquid pumped into the second chamber is admitted into the second chamber using a liquid admission mechanism so that the admitted liquid flows along an internal wall surface of the second chamber. 11. The method of claim 10 , wherein the pressurized gas is received into the first chamber from a buffer chamber. 12. The method of claim 10 , wherein any one or both of the first chamber and the second chamber have an internal geometry configured for admitting the liquid into the respective chamber so that the admitted liquid flows at least along a portion of the internal wall surface of the respective chamber for heat and mass transfer between the gas, the liquid and the portion of the internal wall surface of the respective chamber. 13. The method of claim 10 , further comprising circulating the gas and the liquid in a bottom and an upper part of any one or both of the first chamber or second chamber to for heat and mass transfer between the liquid and the gas. 14. The method of claim 10 , wherein the liquid is admitted to the first chamber or the second chamber via a nozzle that comprises the liquid admission mechanism. 15. A system for compressing a gas, comprising: a first chamber, said first chamber having a volume of liquid; a second chamber, said second chamber initially having only at least a volume of a gas at a first pressure; a pump, wherein the pump is in fluid communication with the first chamber and the second chamber, wherein the pump pumps at least a portion of the volume of liquid contained in the first chamber to the second chamber containing the gas at the first pressure such that the portion of the volume of the liquid pumped into the second chamber compresses the volume of gas in the second chamber to a second pressure greater than the first pressure, wherein the portion of the volume of the liquid pumped into the second chamber is admitted into the second chamber via a liquid admission mechanism so that the admitted liquid flows along an internal wall surface of the second chamber. 16. The system of claim 15 , wherein the first chamber having the liquid further comprises a gas inlet that introduces a pressurized gas into the first chamber at the same time the portion of the volume of the liquid in the first chamber being pumped to the second chamber using the pump. 17. The system of claim 16 further comprising a buffer chamber in fluid connection with the first chamber, wherein the pressurized gas is received into the first chamber from the buffer chamber. 18. The system of claim 15 , wherein any one or both of the first chamber and the second chamber have an internal geometry configured for admitting the liquid into the respective chamber so that the admitted liquid flows at least along a portion of the internal wall surface of the respective chamber for heat and mass transfer between the gas, the liquid and the portion of the internal wall surface of the respective chamber. 19. The system of claim 15 , further comprising circulating the gas and the liquid in a bottom and an upper part of any one or both of the first chamber or second chamber for heat and mass transfer between the liquid and the gas. 20. The system of claim 15 , wherein liquid admission mechanism comprises a Coanda nozzle.