Patent application number | Description | Published |
20100126876 | Water Purification - A water purification system has a water electrolysis system, combustion evaporation, and condensation chambers; hydrogen and oxygen channels; and a water vapor conduit. The water electrolysis system generates hydrogen and oxygen from water. The hydrogen and oxygen are transported to the oxygen chamber in channels. The hydrogen is combusted in the oxygen in the combustion chamber to generate heated water vapor. The evaporation chamber generates water vapor from water. The water vapor conduit is disposed between the evaporation chamber and the condensation chamber. Heated water vapor from the combustion chamber traveling from the combustion chamber into the condensation chamber generates a vacuum on the water vapor conduit, drawing water vapor from the evaporation chamber into the condensation chamber. The condensation chamber receives water vapor from both the combustion chamber and the evaporation chamber. Water vapor from the combustion chamber and the evaporation chamber are condensed into purified liquid water. | 05-27-2010 |
20100154429 | Water Purification - A water purification system has a water electrolysis system, combustion water vapor production, and condensation chambers; hydrogen and oxygen channels; and a water vapor conduit. The water electrolysis system generates hydrogen and oxygen from water. The hydrogen and oxygen are transported to the oxygen chamber in channels. The hydrogen is combusted in the oxygen in the combustion chamber to generate heated water vapor. The water vapor production chamber generates water vapor from water. The water vapor conduit is disposed between the water vapor production chamber and the condensation chamber. Heated water vapor from the combustion chamber traveling from the combustion chamber into the condensation chamber generates a vacuum on the water vapor conduit, drawing water vapor from the water vapor production chamber into the condensation chamber. The condensation chamber receives water vapor from both the combustion chamber and the water vapor production chamber. Water vapor from the combustion chamber and the water vapor production chamber are condensed into purified liquid water. | 06-24-2010 |
20100224477 | Water Purification - A water purification system has a copper-chlorine thermochemical water decomposition system, combustion, evaporation, and condensation chambers; hydrogen and oxygen channels; and a water vapor conduit. The copper-chlorine thermochemical water decomposition system generates hydrogen and oxygen from water. The hydrogen and oxygen are transported to the oxygen chamber in channels. The hydrogen is combusted in the oxygen in the combustion chamber to generate heated water vapor. The evaporation chamber generates water vapor from water. The water vapor conduit is disposed between the evaporation chamber and the condensation chamber. Heated water vapor from the combustion chamber traveling from the combustion chamber into the condensation chamber generates a vacuum on the water vapor conduit, drawing water vapor from the evaporation chamber into the condensation chamber. The condensation chamber receives water vapor from both the combustion chamber and the evaporation chamber. Water vapor from the combustion chamber and the evaporation chamber are condensed into purified liquid water. | 09-09-2010 |
20110024283 | Ammonia Production And Water Purification - A method for purifying water and generating ammonia liquor is disclosed. Hydrogen, oxygen, organic matter contaminated water vapor, and ambient air, containing nitrogen, are provided to a combustion chamber. The hydrogen is combusted in the oxygen in the combustion chamber with the contaminated water vapor and nitrogen. The nitrogen is fixated. Water vapor is produced. The contaminated water vapor is heated to decontaminate the contaminated water vapor. The produced water vapor, fixated nitrogen, and organic matter decontaminated water vapor are exhausted from the combustion chamber. The generated water vapor, fixated nitrogen, and decontaminated water vapor are condensed to obtain ammonia liquor. Water is evaporated from the ammonia liquor to form purified water vapor and concentrate the ammonia liquor. | 02-03-2011 |
20120251429 | SYSTEMS AND METHODS OF PRODUCING CHEMICAL COMPOUNDS - Systems and methods of producing chemical compounds are disclosed. An example chemical production system includes an intake chamber having intake ports for entry of a gas mixture. An igniter ignites the gas mixture in the intake chamber. A nozzle restricts exit of the ignited gas mixture from the intake chamber. An expansion chamber cools the ignited gas with a cooling agent. The expansion chamber has an exhaust where the cooled gas exits the expansion chamber. A chemical compound product is formed in the expansion chamber. | 10-04-2012 |
20120252999 | PRODUCTION OF CHEMICAL COMPOUNDS - Systems and methods of producing chemical compounds are disclosed. An example chemical production system includes a combustion chamber having intake ports for entry of a gas mixture. An igniter ignites the gas mixture in the intake chamber to facilitate a reaction at a high temperature and high pressure. A nozzle restricts exit of the ignited gas mixture from the combustion chamber. An expansion chamber cools the ignited gas. The expansion chamber has an exhaust where the cooled gas exits the expansion chamber. A chemical compound product is formed in the expansion chamber. | 10-04-2012 |
20120321528 | PULSE JET SYSTEM AND METHOD - A pulse jet system and method is disclosed. In an example, the pulse jet system includes a combustion chamber, intake ports to deliver combustion agents to the combustion chamber, an expansion chamber to cool a combustion product following combustion of the combustion agents in the combustion chamber, and an exhaust to exit the cooled gas from the expansion chamber. In another example, the pulse jet system includes a combustion chamber with intake ports to deliver combustion agents to the combustion chamber, wherein the combustion chamber is part of a four cycle engine. The pulse jet system also includes an expansion chamber to cool a combustion product following combustion of the combustion agents in the combustion chamber. | 12-20-2012 |
20140134057 | CHEMICAL PRODUCTION SYSTEM - Systems and methods of producing chemical compounds are disclosed. An example chemical production system includes an intake chamber having intake ports for entry of a gas mixture. An igniter ignites the gas mixture in the intake chamber. A nozzle restricts exit of the ignited gas mixture from the intake chamber. An expansion chamber cools the ignited gas with a cooling agent. The expansion chamber has an exhaust where the cooled gas exits the expansion chamber. A chemical compound product is formed in the expansion chamber. | 05-15-2014 |
20140357893 | RECOVERY FROM ROCK STRUCTURES AND CHEMICAL PRODUCTION USING HIGH ENTHALPY COLLIDING AND REVERBERATING SHOCK PRESSURE WAVES - An example system includes a combustion chamber including at least one inlet and at least one outlet, and at least one reflective surface to direct shock waves in a pattern that meets at a midline nodal point. The example system also includes an ignition source to generate high enthalpy colliding and reverberating shock pressure waves and detonation gasses for dynamic pressurization. An example method for using high enthalpy colliding and/or reverberating shock pressure waves for chemical and material processing. The example method includes providing a combustion chamber including at least one inlet and at least one outlet, and at least one reflective surface to direct shock waves in a pattern that meets at a midline nodal point. The example method also includes colliding reflected or opposing combustion-induced or detonation-induced wave fronts within the combustion chamber. | 12-04-2014 |