Class / Patent application number | Description | Number of patent applications / Date published |
205551000 | Nitrogen containing compound produced | 9 |
20090260993 | Method for obtaining sodium carbonate crystals - Method for producing sodium carbonate, according to which an aqueous sodium chloride solution ( | 10-22-2009 |
20120228149 | Electrochemical Generation of Quaternary Ammonium Compounds - Method and apparatus for electrochemical generation of quaternary ammonium hypohalite salts, which may be combined with the capabilities of free chlorine to form a novel biocidal system. An aqueous solution preferably comprising dissolved quaternary ammonium halide salts is electrolyzed, which converts the halide component of the quaternary ammonium salt to the corresponding halogen. The halogen dissolves in the aqueous solution producing hypohalous acid and hypohalite anion. A combination of one or more quaternary ammonium compounds and a halide salt, surfactant, and/or germicide may be electrolyzed. The solution may be incorporated into a delivery system for example, a spray bottle or hand sanitizer, or as part of a dispensing system whereby quaternary ammonium halide salts absorbed onto wipes can be dispensed as quaternary ammonium hypohalite salts. | 09-13-2012 |
20160122886 | ELECTRODE COMPOSITION, APPARATUS AND METHOD FOR REMOVING NITROGEN OXIDE - An electrode composition for removing nitrogen oxide, includes: a catalytic material and an adsorption material, wherein the adsorption material is a perovskite material of formula A | 05-05-2016 |
205552000 | Ammonia | 6 |
20090095636 | Electrolytic Cells and Methods for the Production of Ammonia and Hydrogen - A method using an electrolytic cell to electrolyze urea to produce at least one of H | 04-16-2009 |
20120241328 | AMMONIA SYNTHESIS USING LITHIUM ION CONDUCTIVE MEMBRANE - Ammonia is synthesized using electrochemical and non-electrochemical reactions. The electrochemical reactions occur in an electrolytic cell having a lithium ion conductive membrane that divides the electrochemical cell into an anolyte compartment and a catholyte compartment. The catholyte compartment includes a porous cathode closely associated with the lithium ion conductive membrane. The overall electrochemical reaction is: 6LiOH+N | 09-27-2012 |
20130001098 | METHOD AND APPARATUS FOR AMMONIA (NH3) GENERATION - Various apparatuses and methods for producing ammonia are provided. One embodiment has uses a plurality of environments and an electrode configured to be exposed to the plurality of environments. The electrode is configured to receive hydrogen while being exposed to one of the environments, reduce nitrogen while being exposed to another environment, and allow the hydrogen and nitrogen to react with each other to form ammonia. Other embodiments provide for simultaneous hydrogen oxidation and nitrogen reduction at the same electrode, which in turn react for formation of ammonia. | 01-03-2013 |
20140158548 | ELECTROLYTIC CELLS AND METHODS FOR THE PRODUCTION OF AMMONIA AND HYDROGEN - A method using an electrolytic cell to electrolyze urea to produce at least one of H | 06-12-2014 |
20150353369 | AMMONIA SYNTHESIS METHOD AND CATALYST FOR AMMONIA SYNTHESIS - The objective of the present invention is to provide a method which can efficiently produce ammonia at low temperature and low pressure and which can respond flexibly to an unsteady electrical power supply condition. In addition, the objective of the present invention is to provide a catalyst which is excellent in activity for synthesizing ammonia and which is used in a method for efficiently producing ammonia without regard to supply condition and supply location of electrical power. The method for synthesizing ammonia according to the present invention is characterized in that a reactor for synthesizing ammonia is used, and the reactor has a pair of electrodes, a voltage applying means for applying voltage between the electrodes, a catalyst between the electrodes, a raw material gas inlet port, and an ammonia-containing gas discharge port, and comprising the steps of introducing at least nitrogen and hydrogen as a raw material gas into the reactor for synthesizing ammonia, and applying a voltage to the electrodes of the reactor for synthesizing ammonia, wherein electrical discharge does not occur by the voltage. | 12-10-2015 |
20160251765 | ELECTROCHEMICAL CELL CONTAINING A GRAPHENE COATED ELECTRODE | 09-01-2016 |