Electrochemical compressor refrigeration appartus with integral leak detection system

What is claimed is: 1 . An electrochemical system comprising: an electrochemical compressor connected to an electrical power supply at a potential and through which a working fluid that includes a component that primarily acts as an electrochemically-active component flows and comprising: an inlet; an outlet; one or more electrochemical cells, each electrochemical cell comprising: an anode connected to the electrical power supply, a cathode connected to the electrical power supply, and an electrolyte disposed between and in intimate electrical contact with the cathode and the anode to pass at least a portion of the working fluid between the anode to the cathode; wherein the working fluid at a first pressure is pumped through the, electrolyte by an electrical potential across the anode and cathode to produce a working fluid at a second pressure that is at a higher pressure than said first pressure; a sealed rigid vessel having an interior volume in which the electrochemical compressor is housed, and comprising: a vessel wall; an input opening in said vessel wall; wherein an inlet conduit extends through the inlet opening and an inlet flow of working, fluid flow therethrough to the electrochemic compressor; an output opening in said vessel wall; wherein an outlet conduit extends through the outlet opening and an outlet flow of working fluid flow therethrough to the electrochemical compressor; wherein the inlet flow of working fluid is at a first pressure and wherein the outlet flow of working fluid is at a second pressure that is greater than the first pressure. 2 . The electrochemical system of claim 1 , wherein the vessel all is a polymeric wall, wherein a wall thickness is at least 90% polymer, 3 . The electrochemical system of claim 2 , wherein the polymer of the polymer wall is a fluoropolymer. 4 . The electrochemical system of claim 2 , wherein the polymer of the polymer wall is a thermoset polymer. 5 . The electrochemical system of claim 2 , wherein a surface of the polymer wall is metallized. 6 . The electrochemical system of claim 2 , wherein an interior surface of the polymer wall is metallized 7 . The electrochemical system of claim 1 , wherein the vessel wall is a composite polymeric wall having reinforcing material configured at least partially within the wall. 8 . The electrochemical system of claim 7 , wherein the reinforcing material comprises fibers. 9 . The electrochemical system of claim 1 , wherein the inlet and the outlet conduit is a metal conduit that is brazed with a brazing material to the sealed rigid vessel. 10 . The electrochemical system of claim 9 , wherein metal conduit is brazed with a brazing material to the sealed rigid vessel to create a sealed surface between the metal conduit and the sealed rigid vessel, and wherein the sealed surfaces comprise chromium. 11 . The electrochemical system of claim 10 , wherein the chromium is plated onto the sealed rigid vessel prior to the metal conduit being brazed thereto. 12 . The electrochemical system of claim 10 , wherein the brazing material comprise an aluminum alloy. 13 . The electrochemical system of claim 10 , wherein the brazing material comprises an aluminum alloy comprising aluminum and silicon. 14 . The electrochemical system of claim 10 , wherein the sealed surface contains no zinc. 15 . The electrochemical system of claim 1 , further comprising a leak sensor at least partially configured within the interior of the sealed rigid vessel to detect a concentration of the working fluid within the interior volume of the sealed rigid vessel; and further comprising an alarm and wherein the leak sensor is coupled with a control system that activates said alarm when the concentration of the working fluid is above an upper threshold value. 16 . The electrochemical system of claim 1 , further comprising a leak sensor at least partially configured within the interior of the sealed rigid vessel to detect a concentration of the working fluid within the interior volume of the sealed rigid vessel; wherein the leak sensor is coupled with a control system and wherein the control system changes the potential across the anode and cathode when the leak sensor detects a working fluid concentration that is above an upper threshold level, 17 . The electrochemical system of claim 16 , wherein the control system shuts down the electrochemical compressor when after a delay time and the concentration of the working fluid is still above an upper threshold value. 18 . The electrochemical system of claim 1 , wherein sealed rigid vessel comprises an outer vessel wall and an inner vessel wall and a void space between the first and second walls. 19 . The electrochemical system of claim 18 , further comprising a leak sensor at least partially configured within the void space to detect a concentration of the working fluid within the void space; and further comprising an alarm and wherein the leak sensor is coupled with a control system that activates said alarm when the concentration of the working fluid is above an upper threshold value. 20 . The electrochemical system of claim 1 , further comprising a leak sensor at least partially configured within the interior of the sealed rigid vessel to detect a concentration of the working fluid within the interior volume of the sealed rigid vessel; wherein the leak sensor is coupled with a control system and wherein the control system changes the potential across the anode and cathode when the leak sensor detects a working fluid concentration that is above an upper threshold level; and wherein the control system shuts down the electrochemical compressor after a delay time and the concentration of the working fluid is still above an upper threshold value.