Patent application number | Description | Published |
20110262820 | FUEL CELL SYSTEM HAVING A REFORMER - A fuel cell system includes a fuel cell stack, an oxidizer supply unit, a reformer, a fuel tank, and a water tank. The reformer generates a hydrogen-containing reformed gas reformed from hydrocarbon-based fuel and supplies it to the fuel cell stack. The fuel tank supplies the hydrocarbon-based fuel to the reformer. The water tank supplies water to the reformer. The reformer includes a reforming unit configured to have a reforming reaction generated therein, a combustion unit configured to supply heat energy to the reforming unit, and a carbon monoxide reduction unit configured to reduce the concentration of carbon monoxide in a reformed gas discharged from the reforming unit. A combustion gas pipe is connected to the combustion unit. A reformed gas pipe is disposed between the reforming unit and the carbon monoxide reduction unit. At least one of the combustion gas pipe and the reformed gas pipe is configured to pass through the inside of the water tank or to raise a temperature of the water tank through contact with the water tank, thereby preventing the freezing of the water tank. | 10-27-2011 |
20110318664 | FUEL CELL SYSTEM AND DRIVING METHOD FOR THE SAME - A fuel cell system including a fuel cell stack having a plurality of unit cells is provided. A method of driving the fuel cell stack is also provided. The method may include supplying a fuel to a fuel cell stack, supplying an oxidizer to the fuel cell stack, controlling supply of the fuel and the oxidizer to operate the fuel cell stack, calculating a total operation time of the fuel cell, and/or varying a stack activation period in which the oxidizer is blocked to the fuel cell stack according to the total operation time and a stack activation cycle of which the stack activation period is generated. | 12-29-2011 |
20120003553 | FUEL CELL SYSTEM AND DRIVING METHOD OF THE SAME - A method of driving a fuel cell system is disclosed. The method of driving the fuel cell system may include supplying water to a reformer by pressing a pump pipe to pressing members to move the pressing members in a first direction, stopping power generation including stopping a supply of fuel and oxidant to the reformer, and discharging water in the reformer by moving the pressing members in a second direction opposite to the first direction while pressing the pump pipe with the pressing members. A fuel cell system is also disclosed. The fuel cell system includes a reformer, a fuel cell stack and a water transferring pump. The water transferring pump includes pressing members and a pump pipe. The pump pipe is in fluid communication with a water transferring pipe. | 01-05-2012 |
20130004875 | GAS-LIQUID SEPARATOR AND FUEL CELL SYSTEM HAVING THE SAME - A gas-liquid separator including a housing, a first absorbing member, a second absorbing member, and a liquid pump is disclosed. The housing may include an inflow port, a gas outlet port, and a liquid outlet port. The first absorbing member may be disposed contacting the liquid outlet port in an inner space of the housing. The first absorbing member may be configured to absorb liquid in a gas-liquid mixture received from the inlet port. The second absorbing member may be disposed apart from the first absorbing member in the inner space of the housing. The second absorbing member may have a smaller volume than the absorbing member. The liquid pump may be in fluid communication with the liquid outlet port and be configured to discharge liquid absorbed by the first absorbing member | 01-03-2013 |
20130059216 | FUEL CELL SYSTEM - A fuel cell system is disclosed. The fuel cell system may include a fuel cell stack configured for generating electrical energy by a reaction of an oxidant and a fuel, a recovery unit including a first gas liquid separator configured for separating a by-product discharged by the fuel cell stack into a first gas and a first liquid, a first heat exchanger configured for cooling the first gas supplied by the first gas liquid separator, and a second gas liquid separator configured for separating a by-product supplied by the first heat exchanger into a second gas and a second liquid, and a remover unit fluidly connected to the second gas liquid separator and configured for removing the second gas from the recovery unit. | 03-07-2013 |
20140039170 | COMPOSITION FOR TOPICAL SKIN APPLICATION CONTAINING GINSENOSIDE F2 DERIVED FROM HYDROPONIC GINSENG - Beneficial effects are obtained by topically applying ginsenoside F2 to the skin to improve skin conditions, improve water content on the skin surface and related benefits improving skin problems associated with acne or atopy, providing a skin whitening effect, helping control of sebaceous secretion, tightening skin pores, or improving skin complexion through enhanced blood circulation, but also to improve scalp and hair conditions, such as providing an anti-dandruff effect, promoting hair growth, or preventing generation of grey hair. | 02-06-2014 |
20140132058 | IN-WHEEL MOTOR SYSTEM - Disclosed is an in-wheel motor system including: an in-wheel motor mounted inside a wheel and generating a driving force; an oil pump provided adjacent to the in-wheel motor and supplying cooling oil into the in-wheel motor; and an oil tank provided under the in-wheel motor and collecting cooling oil discharged from the in-wheel motor, wherein the oil pump and the oil tank are arranged at a lower end of the in-wheel motor and between the in-wheel motor and a steering tie-rod in a longitudinal direction of a vehicle so as to be located at a more inner position than a knuckle in a widthwise direction of the vehicle. In the in-wheel motor system, the oil tank and the oil pump may be efficiently arranged to minimize the size of the oil tank and to improve the cooling performance. | 05-15-2014 |
20140252536 | SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SAME - A semiconductor device includes line patterns disposed on a substrate, the line patterns extending in a first direction and being parallel to one another. The semiconductor device includes conductive patterns spaced apart from each other in the first direction between an adjacent pair of the line patterns. The semiconductor device includes insulating fences electrically isolating the conductive patterns from each other and having chamfered corners. The semiconductor device includes insulating patterns filling gaps between side surfaces of the line patterns and the chamfered corners of the insulating fences. | 09-11-2014 |
20140321648 | METHOD AND SYSTEM FOR PROVIDING INFORMATION USING AGREEMENT PROCEDURE EXECUTED BY USING PROXIMITY COMMUNICATION - A method and system for providing information using a prior agreement procedure via proximity communication is provided. Upon receiving a request for an information providing agreement from a mobile terminal which is capable of proximity communication, the information providing method transmits the information providing agreement. Accordingly, since the mobile terminals request/allow the information providing agreement by using the proximity communication, the information leakage/exposure caused by an illegal use of other's name or identity theft can be prevented beforehand. In particular, since this process requires the users to meet face to face, the security can be further enhanced. | 10-30-2014 |
20150035046 | SEMICONDUCTOR DEVICE INCLUDING FIELD EFFECT TRANSISTOR - A semiconductor device includes a fin portion protruding from a substrate. The fin portion includes a base part, an intermediate part on the base part, and a channel part on the intermediate part. A width of the intermediate part is less than a width of the base part and greater than a width of the channel part. A gate electrode coves both sidewalls and a top surface of the channel part, and a device isolation pattern covers both sidewalls of the base part and both sidewalls of the intermediate part. | 02-05-2015 |
20150044829 | Methods of Fabricating Semiconductor Devices Having Punch-Through Stopping Regions - Methods of fabricating semiconductor devices are provided including providing a substrate having a first region and a second region, the substrate defining trenches in the first and second regions; forming active fins on the first and second regions, the active fins protruding from the trenches in the first and second regions; forming spacers on sidewalls of the active fins in the first and second regions; recessing floors of the trenches under the spacers to provide extensions of the active fins; implanting impurities of a first type in the extensions of the active fins in the first region; and implanting impurities of a second, type, different from the first type, in the extensions of the active fins in the second region. | 02-12-2015 |