Patent application number | Description | Published |
20090113234 | VIRTUALIZATION SWITCH AND METHOD FOR CONTROLLING A VIRTUALIZATION SWITCH - A virtualization switch includes first communication line connection terminals which can be connected to a host computer, a physical storage apparatus or a plurality of physical storage apparatuses, and another virtualization switch, a second communication line connection terminal which can be connected to a single line concentrator or a plurality of line concentrators connected to a manager computer by a second communication line a storage virtualization unit, a first communication unit which can communicate with an other virtualization switch through a first communication line, second communication unit which can communicate with the other virtualization switch through an second communication line, second communication line monitor unit which test communication between the virtualization switch, and abnormal state coping unit which executes a closing process and causes the first communication unit to output a failover designation instruction. | 04-30-2009 |
20100306492 | Relay device and relay program - Relay devices each include a port connected to a communication channel that is used to transfer and receive an access request to and from another relay device; a first virtual area section that is set as a virtual memory area that receives an access request; and a second virtual area section set as a virtual memory area for receiving an access request transferred from another relay device. The relay device sends, if a channel to a storage device is in operation, the access request that is sent to the first virtual area section and the access request that is sent to the second virtual area section, to the storage device via the channel. The relay device transfers, if the channel is not in operation, the access request sent to the first virtual area section, to another relay device via the communication channel connected to the port. | 12-02-2010 |
20100332772 | APPARATUS, COMPUTER-READABLE RECORDING MEDIUM AND STORAGE SYSTEM - A apparatus for controlling a first storage and a second storage, has a controller for receiving a write command and a read command sent out from a host and for sending out the write command and the read command to the first storage and the second storage, a determining unit for sending out a request corresponding to the write command to the first storage and the second storage, for receiving a first response corresponding to the request from the first storage and a second response corresponding to the request from the second storage, and for determining one of the storages on the basis of each of response times, a first writing unit for writing data into the determined storage, and a second writing unit for writing the data written in the determined storage into the other storage after writing the data into the determined storage by the first writing unit. | 12-30-2010 |
20110191519 | SWITCHING DEVICE, SWITCH CONTROL METHOD, AND STORAGE SYSTEM - A queue number acquiring unit acquires a command queuing number that is the upper limit of the number of process-waiting instructions that can be stored in each of storages that make up a virtual disk for each storage. A minimum queue number selecting unit selects the minimum value of the command queuing numbers of the storages that make up the virtual disk as a minimum queue number. A queue number setting unit sets the selected minimum queue number as the command queuing number of the virtual disk that includes the storage device of which the command queuing number is selected as the minimum queue number for each virtual disk. | 08-04-2011 |
20110197091 | SWITCH DEVICE, SWITCH CONTROL METHOD AND STORAGE SYSTEM - A switch device includes a memory unit for storing therein an error response for each error event to be sent in response at the time of a failure with respect to a control signal that controls a storage device connected to the switch device, an error response output unit for receiving input of the control signal and sequentially outputting each error response stored in the memory unit, an operation information computing unit for detecting an operation of a calculating device, which is connected to the switch device, corresponding to each error response output by the error response output unit and for obtaining, as operation information, a condition defining the operation of the calculating device upon receiving each error response, and an operation setting unit for setting operation condition at the time of a failure based on the operation information. | 08-11-2011 |
Patent application number | Description | Published |
20090117421 | METHOD OF OPERATING HYDROGEN AND POWER GENERATING SYSTEM - If the combination fuel cell and ion pump is judged to be operating in a hydrogen generation mode, an input amount of electricity supplied to the combination fuel cell and ion pump is controlled, so as to control an amount of refined hydrogen generated thereby. If the combination fuel cell and ion pump is judged to be operating in an electricity generation mode, an output amount of electricity supplied from the combination fuel cell and ion pump is controlled, so as to control an amount of electricity generated thereby. The input amount of electricity supplied to the combination fuel cell and ion pump, or the output amount of electricity supplied from the combination fuel cell and ion pump, is corrected based on the temperature of a combustor. | 05-07-2009 |
20090123791 | HYDROGEN AND POWER GENERATION SYSTEM AND METHOD FOR SHUTTING DOWN THE SAME - A hydrogen and power generation system includes a reforming device for producing a reformed gas from a reformable raw fuel, a combination fuel cell and ion pump operable selectively in a hydrogen generation mode and an electricity generation mode, a PSA mechanism for removing an unwanted component from the hydrogen produced by the combination fuel cell and ion pump, the PSA mechanism | 05-14-2009 |
20090123796 | HYDROGEN AND POWER GENERATION SYSTEM AND METHOD OF ACTIVATING HYDROGEN GENERATION MODE THEREOF - A hydrogen and power generation system has a reforming device for producing a reformed gas from a reformable raw fuel, a combination fuel cell and ion pump operable selectively in a hydrogen generation mode and an electricity generation mode, an anode off-gas passage for supplying an anode off-gas discharged from an anode of the combination fuel cell and ion pump to a catalytic combustor, a cathode off-gas passage for discharging a cathode off-gas from a cathode of the combination fuel cell and ion pump, a cathode purge passage, which branches from the cathode off-gas passage and is connected to the anode off-gas passage, and a valve mechanism connected to the cathode purge passage. | 05-14-2009 |
20100219066 | WATER ELECTROLYSIS SYSTEM - A water electrolysis system includes a water electrolysis apparatus for electrolyzing pure water supplied from a pure water supply apparatus for manufacturing high-pressure hydrogen. The water electrolysis apparatus has a pipe serving as a hydrogen outlet to which a gas-liquid separator, a cooler, and a water adsorption apparatus are successively connected in this order along the direction in which hydrogen is discharged from the water electrolysis apparatus. A first back-pressure valve is connected between the cooler and the water adsorption apparatus, and a second back-pressure valve is connected downstream of the water adsorption apparatus. | 09-02-2010 |
20100230295 | METHOD OF SHUTTING DOWN WATER ELECTROLYSIS APPARATUS - A water electrolysis apparatus applies an electrolysis voltage between current collectors disposed on the respective sides of an electrolyte membrane thereby to electrolyze water to generate oxygen in an anode electrolysis chamber and hydrogen in a cathode electrolysis chamber under a pressure higher than a normal pressure. The water electrolysis apparatus is shut down by applying a voltage between the current collectors after the cathode electrolysis chamber stops supplying the hydrogen, reducing a pressure in at least the cathode electrolysis chamber while the voltage is being applied, and stopping applying the voltage when the pressure in the cathode electrolysis chamber is equal to a pressure in the anode electrolysis chamber. | 09-16-2010 |
20110240486 | WATER ELECTROLYSIS SYSTEM AND METHOD OF OPERATING SAME - A water electrolysis system includes a water electrolysis apparatus for producing high-pressure hydrogen by electrolyzing pure water and a casing. The casing defines therein an accommodating chamber accommodating the water electrolysis apparatus etc. therein, first electric component compartments separate from the accommodating chamber and housing a controller and an electrolysis power supply therein, the first electric component compartments having first fans for introducing external air, and a second electric component compartment separate from the accommodating chamber and housing a relay, the second electric component compartment being connected to the first electric component compartments by a pipe. | 10-06-2011 |
Patent application number | Description | Published |
20100160647 | ETHYNYLINDOLE COMPOUNDS - As a compound having a potent oral activity and a long-lasting cysLT | 06-24-2010 |
20120094944 | NOVEL IMIDAZOPYRIDINE COMPOUND - For the prevention and/or treatment of chymase-mediated diseases such as skin diseases, circulatory diseases, digestive system diseases, respiratory diseases, liver diseases, ocular diseases or the like, a drug is provided having as an active ingredient a compound having extremely strong chymase inhibitory activity, high safety, and high metabolic stability. The compound represented by the formula (I): | 04-19-2012 |
20150111865 | Trk-INHIBITING COMPOUND - An object of the present invention is to provide a drug containing a compound having Trk-inhibiting activity as an active ingredient in prophylaxis and/or therapy of diseases such as pain, pruritus, lower urinary tract dysfunction, asthma, allergic rhinitis, inflammatory bowel disease or Chagas disease. A compound represented by the general formula (I): | 04-23-2015 |
20160000783 | Trk-INHIBITING COMPOUND - The present invention provides a drug containing a compound having Trk-inhibiting activity as an active ingredient in prophylaxis and/or therapy for Trk-related diseases such as pain, pruritus, lower urinary tract dysfunction, asthma, allergic rhinitis, inflammatory bowel disease or Chagas disease. A compound represented by the general formula (I), wherein all symbols represent the same meanings as described in the specification, a salt thereof, an N-oxide thereof, a solvate thereof or a prodrug thereof is useful as a drug component having Trk-inhibiting activity in prophylaxis and/or therapy of diseases such as pain, pruritus, lower urinary tract dysfunction, asthma, allergic rhinitis, inflammatory bowel disease or Chagas disease. | 01-07-2016 |
Patent application number | Description | Published |
20100010970 | DOCUMENT SEARCHING DEVICE, DOCUMENT SEARCHING METHOD, DOCUMENT SEARCHING PROGRAM - A document retrieval apparatus holds: index information in which data and an entity document are associated, with respect to a group of entity documents that are XML documents including entity information; and index information in which data and an annotation document are associated, with respect to a group of annotation documents including annotation information that corresponds to the entity information, respectively. Upon receiving an input of a retrieval query including the entity data for retrieval and the annotation data for retrieval, the document retrieval apparatus at first specifies an entity document including the entity data for retrieval. Further, the document retrieval apparatus specifies an annotation document including the annotation data for retrieval, and specifies an entity document corresponding to the specified annotation document. Subsequently, the document retrieval apparatus selects an entity document that meets the retrieval query from the entity document specified by the entity data for retrieval and the entity document specified by the annotation data for retrieval. | 01-14-2010 |
20100100544 | DOCUMENT SEARCHING DEVICE, DOCUMENT SEARCHING METHOD, AND DOCUMENT SEARCHING PROGRAM - The present invention relates to a document retrieval apparatus for retrieving the desired data from a structured a document file. The apparatus holds index information in which a tag set including tags that are in a hierarchical relation with each other, is associated with one or more of positions of which path expressions include the tag set, in a structured document file. When receiving an input of a partial path expression, the apparatus specifies a position where the tag set included in the partial path expression is present as part of a path expression of the position, as a candidate position for a position to be retrieved, with reference to the index information. | 04-22-2010 |
Patent application number | Description | Published |
20110180416 | METHOD FOR OPERATING WATER ELECTROLYSIS SYSTEM - A method for operating a water electrolysis system includes determining whether or not a water electrolysis apparatus is shut down. The water electrolysis system includes the water electrolysis apparatus, a water circulation apparatus, and a gas-liquid separation apparatus. The water electrolysis apparatus includes power feeders provided on an anode side and a cathode side of an electrolyte membrane. The water electrolysis apparatus generates oxygen on the anode side and generates hydrogen on the cathode side at a higher pressure than a pressure of the oxygen by electrolysis of water. Pressure on the cathode side is released when it is determined that the water electrolysis apparatus is shut down. The water circulation apparatus is operated until a concentration of hydrogen remaining on the anode side is a specified value or less under a condition in which a release of pressure on the cathode side is completed. | 07-28-2011 |
20110198235 | WATER ELECTROLYSIS SYSTEM AND METHOD FOR SHUTTING DOWN THE SAME - A water electrolysis system includes a water electrolysis apparatus including an electrolyte membrane. The electrolyte membrane is provided between an anode and a cathode. The water electrolysis apparatus is configured to generate oxygen on a side of the anode and hydrogen on a side of the cathode at a pressure higher than a pressure of the oxygen through electrolysis of water. A gas-liquid separation apparatus separates unreacted water and produced gas discharged from a water outlet of the water electrolysis apparatus. A water circulation apparatus circulates the water between the water electrolysis apparatus and the gas-liquid separation apparatus. The water circulation apparatus includes a return pipe having an on-off valve and connecting the water outlet and the gas-liquid separation apparatus. A hydrogen exhaust pipe is connected to the return pipe between the water outlet and the on-off value and extends upward from the water electrolysis apparatus. | 08-18-2011 |
20120018033 | HYDROGEN FILLING SYSTEM AND METHOD OF OPERATING THE SAME - A hydrogen filling system to fill a hydrogen fuel tank with hydrogen includes a high-pressure water electrolysis device capable of electrolyzing water to produce oxygen and the hydrogen. A hydrogen pipe connects the high-pressure water electrolysis device and a filling mechanism to fill the hydrogen fuel tank with the hydrogen. At least one hydrogen storage tank is provided to the hydrogen pipe to store the hydrogen produced by the high-pressure water electrolysis device at substantially a same pressure as a maximum filling pressure of the hydrogen fuel tank. A first valve mechanism is arranged downstream of the at least one hydrogen storage tank. A bypass pipe is provided to the hydrogen pipe and connects the high-pressure water electrolysis device and the filling mechanism to bypass the at least one hydrogen storage tank and the first valve mechanism. A second valve mechanism is arranged on the bypass pipe. | 01-26-2012 |
20120209434 | METHOD FOR OPERATING DIFFERENTIAL PRESSURE WATER ELECTROLYSIS APPARATUS - A method for operating a differential pressure water electrolysis apparatus includes calculating in advance values of an electric current required for an electrolysis of water in response to pressures of a cathode-side electrolysis chamber, detecting a pressure of the cathode-side electrolysis chamber when the electrolysis of water is not carried out, determining whether or not the electrolysis of water is to be started, and starting the electrolysis of water with an electric current having a value equal to or higher than a value which is calculated in advance in the calculating of the values of the electric current and which corresponds to a detected pressure of the cathode-side electrolysis chamber when it is determined that the electrolysis of water is to be started. | 08-16-2012 |
20120222955 | HIGH-PRESSURE HYDROGEN PRODUCING APPARATUS - A high-pressure hydrogen producing apparatus includes a first cell device and a second cell device. The first cell device includes an electrolyte membrane, an anode electrode catalyst layer and an anode current collector provided on a first surface of the electrolyte membrane, and a cathode electrode catalyst layer and a cathode current collector provided on a second surface of the electrolyte membrane. The second cell device includes an electrolyte membrane, an anode current collector provided on a first surface of the electrolyte membrane of the second cell device, and a cathode current collector provided on a second surface of the electrolyte membrane of the second cell device. | 09-06-2012 |
20120255867 | WATER ELECTROLYSIS SYSTEM AND METHOD OF OPERATING WATER ELECTROLYSIS SYSTEM - A water electrolysis system includes a water electrolysis apparatus, a gas-liquid separating apparatus, a hydrogen supply line, a water level detector, and a current regulator. The water electrolysis apparatus is to electrolyze water to generate oxygen and high-pressure hydrogen having a higher pressure than a pressure of the oxygen. The gas-liquid separating apparatus is disposed upstream of the water electrolysis apparatus in a gravitational direction to separate moisture contained in the high-pressure hydrogen. The hydrogen supply line is to supply the high-pressure hydrogen discharged from the water electrolysis apparatus to the gas-liquid separating apparatus. The water level detector is configured to detect a water level in the gas-liquid separating apparatus. The current regulator is configured to regulate a current to be applied to the water electrolysis apparatus based on the water level detected by the water level detector in the gas-liquid separating apparatus. | 10-11-2012 |
20120298520 | WATER ELECTROLYSIS SYSTEM AND METHOD FOR OPERATING WATER ELECTROLYSIS SYSTEM - A water electrolysis system includes a water electrolysis device, a gas-liquid separator, a water-amount detector, a hydrogen storage device, a hydrogen storage device, a decompressing device, and a control device. The control device includes a residual capacity calculator, a hydrogen production amount calculator, and an electrolysis termination determiner. The residual capacity calculator is configured to calculate a residual capacity of the hydrogen storage device. The hydrogen production amount calculator is configured to calculate an amount of hydrogen produced by the water electrolysis device in a drainage period in which the amount of water in the gas-liquid separator increases to an upper limit from a lower limit. The electrolysis termination determiner is configured to terminate the water electrolysis process when the amount of hydrogen calculated by the hydrogen production amount calculator is greater than the residual capacity calculated by the residual capacity calculator. | 11-29-2012 |
20140102911 | HIGH PRESSURE WATER ELECTROLYSIS SYSTEM AND METHOD FOR ACTIVATING SAME - A high pressure water electrolysis system includes a high pressure water electrolysis device, a hydrogen storage device, a high pressure hydrogen pipe, a branch pipe, a non-return valve, a pressure detector, and a controller. The controller includes a threshold storage device, a threshold determination device, and a solenoid valve opening/closing operation device. The threshold storage device is configured to store a first threshold of a pressure value detected by the pressure detector and a second threshold lower than the first threshold. The threshold determination device is configured to determine whether or not the pressure value detected by the pressure detector has reached the second threshold. The solenoid valve opening/closing operation device is configured to open and close a solenoid valve if it is determined that the pressure value detected by the pressure detector has reached the second threshold. | 04-17-2014 |
20150060293 | CONTROL METHOD OF DIFFERENTIAL PRESSURE WATER ELECTROLYSIS SYSTEM - In a control method of a differential pressure water electrolysis system, a reference water level of a gas-liquid separator for normal operations is set to discharge a liquid water stored in the gas-liquid separator to a discharge tube. A depressurization reference water level which is a lower water level than the reference water level is set to discharge the liquid water stored in the gas-liquid separator to the discharge tube upon depressurizing. A depressurization valve is opened to reduce pressure at a cathode side after operation of a differential pressure water electrolysis device has been stopped, in a state with voltage applied. A permissible water level upper limit value at which an open/close valve is opened is switched from the reference water level to the depressurization reference water level when the depressurization valve is opened. | 03-05-2015 |
20150108005 | HIGH DIFFERENTIAL PRESSURE WATER ELECTROLYSIS SYSTEM AND METHOD FOR STARTING THE SAME - A high differential pressure water electrolysis system includes a high differential pressure water electrolysis device, a water supply tank, a high pressure gas-liquid separator, a hydrogen outlet line, a drain line, a low pressure gas-liquid separator, a water return line, and a pressure maintaining mechanism. The drain line is to drain a liquid water separated by the high pressure gas-liquid separator. The low pressure gas-liquid separator is disposed in the drain line and has a discharge line via which a gas separated by the low pressure gas-liquid separator is to be discharged. The water return line connects the low pressure gas-liquid separator and the water supply tank. The pressure maintaining mechanism is disposed in the discharge line and configured to maintain a pressure in the low pressure gas-liquid separator to be higher than a pressure in the water supply tank. | 04-23-2015 |