Hosik
Hosik Kim, Daejeon KR
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20110100006 | INTEGRATED PROCESS FOR WATER-HYDROGEN-ELECTRICITY NUCLEAR GAS-COOLED REACTOR - Disclosed herein is an integrated process for production of electricity, hydrogen, and water using a high-temperature gas-cooled reactor as a single source, including: the high-temperature gas-cooled reactor, a power conversion unit connected directly or indirectly with the high-temperature gas-cooled reactor to receive heat produced by a reactor core of the high-temperature gas-cooled reactor and drive a gas turbine by the heat, thereby producing electricity through an electric generator, a hydrogen production unit that produces hydrogen by receiving the heat produced by the high-temperature gas-cooled reactor and/or the electricity produced by the electric generator, an electrical desalination unit that produces water by using the electricity produced by the electric generator, and a thermal desalination unit that produces water by distilling fresh water from salt water with waste heat recovered from a precooler and an intercooler of the power conversion unit. | 05-05-2011 |
20130287162 | INTEGRATED PROCESS FOR WATER-HYDROGEN-ELECTRICITY NUCLEAR GAS-COOLED REACTOR - Disclosed herein is an integrated process for production of electricity, hydrogen, and water using a high-temperature gas-cooled reactor as a single source, comprising: the high-temperature gas-cooled reactor, a power conversion unit connected directly or indirectly with the high-temperature gas-cooled reactor to receive heat produced by a reactor core of the high-temperature gas-cooled reactor and drive a gas turbine by the heat, thereby producing electricity through an electric generator, a hydrogen production unit that produces hydrogen by receiving the heat produced by the high-temperature gas-cooled reactor and/or the electricity produced by the electric generator, an electrical desalination unit that produces water by using the electricity produced by the electric generator, and a thermal desalination unit that produces water by distilling fresh water from salt water with waste heat recovered from a precooler and an intercooler of the power conversion unit. | 10-31-2013 |
Hosik Lee, Seoul KR
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20120247415 | INTAKE MANIFOLD MODULE FOR PREVENTING FUEL LEAKAGE OF VEHICLE AND MANUFACTURING METHOD THEREOF - An intake manifold module for preventing fuel leakage of a vehicle, may include a runner unit where a runner may be formed, a mount section connected with the runner unit and mounted at an intake port of a cylinder head, and a reinforcing bracket mounted at an edge around an injector installed on the cylinder head in the mount section, wherein the reinforcing bracket may be pre-mounted in a process line prior to an engine assembly line by using a joining member. | 10-04-2012 |
Hosik Lee, Daegu KR
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20140326101 | CABLE PULLING DEVICE USED IN PARKING MODE MANUALLY RELEASING DEVICE FOR SHIFT-BY-WIRE TYPE AUTOMATIC TRANSMISSION - Disclosed therein is a cable pulling device used in a parking mode manually releasing device for an shift-by-wire type automatic transmission. The cable pulling device includes: a base; a lever connected rotatably relative to the base, the lever to which a cable is connected; a bar member; and a spring member. The spring member is arranged between the lever and the bar member and is provided to pressurize the bar member toward the base. The cable is pulled by standing up of the lever. | 11-06-2014 |
Hosik Park, Gwangju KR
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20150224453 | METHOD FOR FABRICATING POLYETHERSULFONE NANOFIBER MEMBRANE BY ELECTROSPINNING - Disclosed is a method for fabricating a polyethersulfone nanofiber membrane with improved mechanical strength for water treatment by electrospinning. According to exemplary embodiments, the polyethersulfone nanofiber membrane possesses higher mechanical strength than conventional polyethersulfone nanofiber membranes that are susceptible to damage and limited in life when applied to water treatment processes. In addition, the polyethersulfone nanofiber membrane has high water permeability and can remove contaminants with high efficiency compared to conventional membranes for water treatment. Therefore, the polyethersulfone nanofiber membrane is suitable for use in water treatment. | 08-13-2015 |