Patent ID: 8182584

Claim:
A method for recovering potable water from engine exhaust of an internal combustion engine comprising the steps of: (a) providing a desiccant gas dryer having a contactor to receive said engine exhaust from said internal combustion engine, wherein said engine exhaust enters said contactor at a gas inlet port thereof and exits said contactor at a gas outlet port thereof; (b) spraying a lithium chloride solution into an interior portion of said contactor, said contactor facilitating a transfer of water vapor from said engine exhaust passing through said contactor to said lithium chloride solution, wherein a plurality of spray nozzles aligned with the gas outlet port of said contactor spray said lithium chloride solution into the interior portion of said contactor; (c) providing a sump aligned with the gas inlet port of said contactor to receive said lithium chloride solution containing lithium chloride and said water vapor from said contactor; (d) measuring a concentration for lithium chloride within said sump, wherein the concentration of the lithium chloride within said sump is normally at a first concentration level of approximately two percent; (e) providing a conductivity sensor located within said sump, wherein said conductivity sensor measures the concentration of the lithium chloride within said sump; (f) filtering contaminants from said liquid chloride solution, wherein a filter receives said lithium chloride solution and then filters said lithium chloride solution to remove said contaminants from said lithium chloride solution; (g) removing said water vapor from said lithium chloride solution, wherein a reverse osmosis unit said removes water vapor from said lithium chloride solution which exits said said reverse osmosis unit as drinking water; (h) transferring said lithium chloride solution from said reverse osmosis unit to said plurality of nozzles wherein the concentration of the lithium chloride contained within said lithium chloride solution exiting said reverse osmosis unit is normally at a second concentration level of approximately four percent; (i) providing a first pump having an inlet port connected to said sump and a discharge port connected to said reverse osmosis unit; and (j) providing a normally closed bypass valve having an inlet port connected to the discharge port of said first pump and an outlet port connected to said spray nozzles, said normally closed bypass valve opening when a concentration level of the lithium chloride in said sump is above said first concentration level allowing said lithium chloride solution to bypass said reverse osmosis unit and flow directly to said spray nozzles.