Geofrey C Showalter

20120048741, Mar 1, 2012

Aug 4, 2011

13/198276

William J. Stewart - Albuquerque NM, US
Matthew R. Santillanes - Albuquerque NM, US
Kevin Schwarz - Albuquerque NM, US
Justin Sanchez - Albuquerque NM, US
Geofrey C. Showalter - Moriarty NM, US
Kyle Lee - Albuquerque NM, US

MIOX Corporation - Albuquerque NM

C25B 15/02
C25B 9/18
C25B 9/00

205337, 205335, 204232, 2042298, 204269, 205334, 205351

Method and apparatus for a low maintenance, high reliability on-site electrolytic generator incorporating automatic cell monitoring for contaminant film buildup, as well as automatically removing or cleaning the contaminant film. This method and apparatus preferably does not require human intervention to clean. For high current density cells, cleaning is preferably performed by reversing the polarity of the electrodes and applying a lower current density to the electrodes, preferably by adjusting the salinity or brine concentration of the electrolyte while keeping the voltage constant. Electrolyte flow preferably comprises water and brine flows which are preferably separately monitored and automatically adjusted. For bipolar cells, flow between modules arranged in parallel is preferably approximately equally distributed between modules and between intermediate electrodes within each module.

20190376204, Dec 12, 2019

Jul 30, 2019

16/526144

- Concord OH, US
Matthew R. Santillanes - Albuquerque NM, US
Kevin Schwarz - Albuquerque NM, US
Justin Sanchez - Albuquerque NM, US
Geofrey C. Showalter - Moriarty NM, US
Kyle Lee - Albuquerque NM, US

C25F 1/00
C25B 1/14
C25B 1/26
C25B 9/06
C25B 9/18
C25B 15/02
C25B 15/08
C02F 1/467

Method and apparatus for a low maintenance, high reliability on-site electrolytic generator incorporating automatic cell monitoring for contaminant film buildup, as well as automatically removing or cleaning the contaminant film. This method and apparatus preferably does not require human intervention to clean. For high current density cells, cleaning is preferably performed by reversing the polarity of the electrodes and applying a lower current density to the electrodes, preferably by adjusting the salinity or brine concentration of the electrolyte while keeping the voltage constant. Electrolyte flow preferably comprises water and brine flows which are preferably separately monitored and automatically adjusted. For bipolar cells, flow between modules arranged in parallel is preferably approximately equally distributed between modules and between intermediate electrodes within each module.

20160186357, Jun 30, 2016

Mar 8, 2016

15/064385

- Albuquerque NM, US
Matthew R. Santillanes - Albuquerque NM, US
Kevin Schwarz - Albuquerque NM, US
Justin Sanchez - Albuquerque NM, US
Geofrey C. Showalter - Moriarty NM, US
Kyle Lee - Albuquerque NM, US

C25F 1/00
C25B 9/06
C25B 9/18
C25B 1/14
C25B 1/26

Method and apparatus for a low maintenance, high reliability on-site electrolytic generator incorporating automatic cell monitoring for contaminant film buildup, as well as automatically removing or cleaning the contaminant film. This method and apparatus preferably does not require human intervention to clean. For high current density cells, cleaning is preferably performed by reversing the polarity of the electrodes and applying a lower current density to the electrodes, preferably by adjusting the salinity or brine concentration of the electrolyte while keeping the voltage constant. Electrolyte flow preferably comprises water and brine flows which are preferably separately monitored and automatically adjusted. For bipolar cells, flow between modules arranged in parallel is preferably approximately equally distributed between modules and between intermediate electrodes within each module.

20140124378, May 8, 2014

Jan 14, 2014

14/154579

- Albuquerque NM, US
Matthew R. Santillanes - Albuquerque NM, US
Kevin Schwarz - Albuquerque NM, US
Justin Sanchez - Albuquerque NM, US
Geofrey C. Showalter - Moriarty NM, US
Kyle Lee - Albuquerque NM, US

MIOX Corporation - Albuquerque NM

C25B 15/02
C25B 9/18

205337, 2042751, 204268, 205334

Method and apparatus for a low maintenance, high reliability on-site electrolytic generator incorporating automatic cell monitoring for contaminant film buildup, as well as automatically removing or cleaning the contaminant film. This method and apparatus preferably does not require human intervention to clean. For high current density cells, cleaning is preferably performed by reversing the polarity of the electrodes and applying a lower current density to the electrodes, preferably by adjusting the salinity or brine concentration of the electrolyte while keeping the voltage constant. Electrolyte flow preferably comprises water and brine flows which are preferably separately monitored and automatically adjusted. For bipolar cells, flow between modules arranged in parallel is preferably approximately equally distributed between modules and between intermediate electrodes within each module.