Hugh L.
Hugh L. Allen-Magande, Atlanta, GA US
Patent application number | Description | Published |
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20130186967 | METHODS AND APPARATUS FOR HEATING AIR WITH HOT WATER - A method controls an air handler that generates heated air from hot water generated by a water heater. The method includes generating a signal in the presence or absence of an indicia of water flow associated with the water heater; initiating operation of a pump associated with the air handler when the signal indicates that water flow associated with the water heater is at least at a selected level to supply hot water to the air handler sufficient to generate heated air; and/or terminating operation of the pump and/or a blower/fan associated with the air handler when the presence or absence signal indicates that the water flow associated with the water heater is less than the selected level. | 07-25-2013 |
Hugh L. Allen-Magande, Alpharetta, GA US
Patent application number | Description | Published |
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20150053198 | METHODS AND APPARATUS FOR HEATING AIR WITH HOT WATER - A method controls an air handler that generates heated air from hot water generated by a water heater. The method includes generating a signal in the presence or absence of an indicia of water flow associated with the water heater; initiating operation of a pump associated with the air handler when the signal indicates that water flow associated with the water heater is at least at a selected level to supply hot water to the air handler sufficient to generate heated air; and/or terminating operation of the pump and/or a blower/fan associated with the air handler when the presence or absence signal indicates that the water flow associated with the water heater is less than the selected level. | 02-26-2015 |
Hugh L. Hixon, Jr., Scottsdale, AZ US
Patent application number | Description | Published |
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20090286220 | Hypothermic preservation of biological tissues and cells - A method for hypothermic preservation of biological tissue for later recovery to a viable state includes flushing the biological tissue with a gas mixture of sulfur hexafluoride or xenon and oxygen. The sulfur hexafluoride or xenon is in a concentration in the mixture between about 75 mole percent to 95 mole percent. The method includes pressurizing the biological tissue, preferably isothermically, with the mixture to a pressure that will form clathrates inside the biological tissue at a desired storage temperature in a range of about +1° C. to about +5° C. The method includes a step of cooling the biological tissue, preferably isobarically, to the desired storage temperature. Optional steps for further cooling to no colder than about −20° C. and for depressurization are provided as well as steps for recovering the hypothermically preserved biological tissue to a viable state, preferably using a recovery gas mixture. | 11-19-2009 |