7 patents
Utility
Apparatus and Method for Concentrating Hydrogen Isotopes
11 May 23
In an embodiment, a method of concentrating a hydrogen isotope, comprises delivering a fluid comprising the hydrogen isotope to be concentrated and an additional gas other than then hydrogen isotope to an anode of an electrochemical cell comprising a hydron exchange membrane comprising hydrons of the hydrogen isotope, and also comprising said anode on a first side of the hydron exchange membrane, a cathode on a second side of the hydron exchange membrane, and an electrical circuit connection between the anode and the cathode; removing a first stream in fluid communication with the cathode, the first stream comprising concentrated hydrogen isotope; and removing a second stream in fluid communication with the anode, comprising the additional gas delivered to the anode depleted of the hydrogen isotope.
Daryl Ludlow, Gregory P. Hesler, Trent M. Molter
Filed: 6 Jan 23
Utility
Biopolar Membrane Cell for the Capture of Carbon Dioxide
27 Apr 23
In an aspect, a bipolar membrane cell comprises a separation layer located in between an anode half-cell and a cathode half-cell; wherein the anode half-cell comprises a proton exchange membrane and an anode; where the proton exchange membrane is located in between the anode and the separation layer; wherein the cathode half-cell comprises an anion exchange membrane and a cathode; wherein the anion exchange membrane is located in between the cathode and the separation layer; and an external circuit connecting the anode and the cathode.
Praveen Kolla, Trent M. Molter
Filed: 5 Oct 22
Utility
a Method of Purifying Helium from Mixed Gas
27 Oct 22
In an aspect, a hydrogen separation unit includes an electrochemical cell stack that includes a separator stack located in between an anode side and a cathode side; a mixed gas conduit for receiving a mixed gas stream to the anode side; an anode removal conduit for removing a helium rich stream from the anode side; and a cathode removal conduit for removing a hydrogen rich stream from the cathode side.
Trent M. Molter, Robert Roy
Filed: 8 Sep 20
Utility
Method and System for Recovering Hydrogen and Converting a Carbon Compound to a Valualbe Organic Product
5 May 22
In an aspect a method of recovering hydrogen, the method comprises reacting a hydrocarbon to form a carbon compound and hydrogen in the presence of a catalyst, wherein the carbon compound comprises at least one of carbon dioxide or carbon monoxide; separating the carbon compound from the hydrogen; directing the carbon compound to a cathode side of an electrochemical cell and directing water to an anode side of the electrochemical cell; electrolyzing the water on the anode side to form oxygen and protons; applying a voltage to a membrane and electrode assembly in the electrochemical cell to cause the protons to traverse through a proton exchange membrane from an anode to a cathode on the cathode side; and reacting the protons with the carbon compound to form an organic product.
Trent M. Molter, Robert Roy
Filed: 18 Feb 20
Utility
Water Electrolysis and Cryogenic Liquefaction System
2 Sep 21
In an aspect, a system comprises a water stream in fluid communication with an electrolyzer; the electrolyzer comprising an anode and a cathode side chamber; a deep space oxygen radiator in fluid communication with the anode side chamber of the electrolyzer; a cryogenic heat exchanger comprising an oxygen storage tank in fluid communication with the deep space oxygen radiator; an electrochemical hydrogen compressor in fluid communication with the cathode side chamber; a hydrogen storage tank in fluid communication with the electrochemical hydrogen compressor via a cooled hydrogen stream; wherein at least a portion of the cooled hydrogen stream is in a first fluid communication with an expansion valve and the cryogenic heat exchanger; wherein the hydrogen storage tank is in a second fluid communication with the electrochemical hydrogen compressor via a warmed hydrogen stream; and wherein the cryogenic heat exchanger is in fluid communication with the warmed hydrogen stream.
Trent M. Molter, Robert Roy, William Notardonato
Filed: 1 Mar 21
Utility
Hydrogen Monitoring and Delivery Components and Methods
23 Dec 20
In an embodiment, a hydrogen monitoring system comprises a plurality of sensing elements that individually comprise a working electrode, a counter electrode, an insulating layer located in between the working electrode and the counter electrode, a catalyst located on an end of both the working electrode and the counter electrode, an electrolyte located on the end of the sensing elements on both the working electrode and the counter electrode, between the working electrode and the counter electrode, and in contact with the catalyst, and an electrical circuit located on an opposite end of the sensing element that connects the working electrode and the counter electrode.
Trent M. Molter, Ugur Pasaogullari, Leonard J. Bonville, Charles Banas, Gregory Hesler
Filed: 2 Sep 20
Utility
In Situ Apparatus and Method for Providing Deuterium Oxide or Tritium Oxide In an Industrial Apparatus or Method
4 Nov 20
In an aspect, an electrochemical hydrogen isotope recycling apparatus for recycling a feedstream comprising a single isotope of hydrogen, comprising: an electrochemical recycling unit, the unit comprising an anode; a cathode; an isotope-treated, cation exchange membrane operatively disposed between the anode and cathode, the isotope-treated, cation exchange membrane having heavy water containing the isotope of hydrogen therein, the unit configured to receive the feedstream containing the single isotope of hydrogen; wherein the single isotope is deuterium or tritium and when the single isotope is deuterium, the heavy water comprises D2O and when the single isotope is tritium, the heavy water is T2O.
Daryl Ludlow, Glenn Eisman, Trent M. Molter
Filed: 23 Jun 20
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