Patent application number | Description | Published |
20080295951 | SPIRAL REVERSE OSMOSIS MEMBRANE ELEMENT, METHOD OF MANUFACTURING THE SAME, AND ITS USE METHOD - A spiral reverse osmosis membrane element that improves impregnation property of a sealing resin at edges of a membrane leaf and can effectively prevent micro-leaks, by using, for example, a porous support having a structure capable of sufficiently impregnating therein a sealing resin, a method for manufacturing the same, and a use method of the same are disclosed. The spiral reverse osmosis membrane element comprises a cylindrically wound body comprising a perforated core tube and, spirally wound therearound, a separation membrane, a feed-side passage material and a permeation-side passage material in a laminated state, and a sealing portion for preventing a feed-side liquid and a permeation-side liquid from being mixed together, wherein the separation membrane facing through the permeation-side passage material has a structure that a porous support and a skin layer are successively laminated on a non-woven fabric layer, and the sealing portion sealed with a sealing resin is provided at the edges of the separation membrane, wherein the separation membrane is impregnated with the sealing resin at least up to the vicinity of the skin layer through the porous support. | 12-04-2008 |
20130224379 | METHOD FOR MANUFACTURING SHEET-SHAPED SEPARATION MEMBRANE - Provided is a method for manufacturing a sheet-shaped separation membrane that allows a sheet-shaped separation membrane having uniform separating ability to be manufactured at a high speed, the method comprising manufacturing a sheet-shaped separation membrane by forming a microporous layer on a porous substrate, wherein the method is characterized in having: a membrane-forming solution application step of coating a porous substrate with a membrane-forming solution in which a polymer is dissolved in a solvent, a congealing liquid application step of applying a congealing liquid by a liquid membrane drop method to the porous substrate coated with the membrane-forming solution, and a solvent removal step of removing the solvent from the congealed microporous layer. | 08-29-2013 |
Patent application number | Description | Published |
20080251447 | PROCESS FOR PRODUCING A DRIED COMPOSITE SEMIPERMEABLE MEMBRANE - The present invention aims at providing a process for producing a dried composite semipermeable membrane having extremely small amount of content of unreacted components, outstanding water permeability and salt-blocking rate even after drying treatment, and outstanding contamination resistance and durability. The present invention relates to a process for producing a dried composite semipermeable membrane comprising the steps of: preparing a composite semipermeable membrane having a skin layer including a polyamide resin obtained by reaction between a polyfunctional amine component and a polyfunctional acid halide component formed on the surface of a porous support; preparing a washed composite semipermeable membrane by washing the composite semipermeable membrane; preparing a treated composite semipermeable membrane by contact of a moisturing solution including a moisturizer and a hydrophilization agent only to the surface of the porous support of the washed composite semipermeable membrane and by contact of a protecting solution only to the surface of the skin layer of the washed composite semipermeable membrane; and drying the treated composite semipermeable membrane. | 10-16-2008 |
20100044902 | COMPOSITE SEMIPERMEABLE MEMBRANE AND PROCESS FOR PRODUCING THE SAME - The present invention aims at providing a composite semipermeable membrane in which water permeability and salt-blocking rate cannot deteriorate by long-term storage, and at providing a process for producing the same. The present invention relates to a composite semipermeable membrane having a skin layer formed on the surface of a porous support, the skin layer including a polyamide resin obtained by interfacial polymerization of a polyfunctional amine component and a polyfunctional acid halide component, wherein the porous support contains at least one kind of additives selected from the group consisting of antioxidants, antibacterial agents, antifungal agents, and moisturizers, in an amount of 95% by weight or more with respect to the whole composite semipermeable membrane. | 02-25-2010 |
20100176052 | PROCESS FOR PRODUCING COMPOSITE SEMIPERMEABLE MEMBRANE - The present invention aims at providing a process for producing composite semipermeable membrane excellent in water permeability and salt-blocking rate, and including an extremely small amount of unreacted components in the membrane, and at providing a composite semipermeable membrane obtained by the production process. The present invention relates to a process for producing a composite semipermeable membrane, comprising the steps of: producing an unwashed composite semipermeable membrane by forming a skin layer including a polyamide resin obtained by reaction between a polyfunctional amine component and a polyfunctional acid halide component on the surface of a porous support; and pretreating the unwashed composite semipermeable membrane by contact to a solution containing a water-soluble alcohol, and subsequently performing a membrane washing treatment by contact to pure water or ion exchange water. | 07-15-2010 |
Patent application number | Description | Published |
20110255549 | COMMUNICATION MANAGEMENT APPARATUS, COMMUNICATION APPARATUS, AND COMMUNICATION METHOD - A communication management apparatus includes a token-circulation-order-information storing unit that stores token circulation order, a token-frame processing unit that determines whether transmission right acquiring apparatus information of the token frame indicates the own apparatus and transmits a token frame in which first transmission right acquisition determination information indicating a sequence number of a communication apparatus that can acquire a transmission right in the token circulation order, second transmission right acquisition determination information indicating the number of frames that can be transmitted during one token frame circulation, and transmission right acquiring apparatus information indicating the next transmission destination of the token frame after the own apparatus acquired from the token circulation order are set, and a data-frame-communication processing unit that transmits and receives the data frame, thereby to reduce time required until a communication node that acquired the token frame transmits data. | 10-20-2011 |
20120082170 | COMMUNICATION MANAGEMENT APPARATUS, COMMUNICATION APPARATUS, AND COMMUNICATION METHOD - A communication management apparatus includes a token-circulation-order-information storing unit that stores token circulation order, a token-frame processing unit that determines whether transmission right acquiring apparatus information of the token frame indicates the own apparatus and transmits a token frame in which first transmission right acquisition determination information indicating a sequence number of a communication apparatus that can acquire a transmission right in the token circulation order, second transmission right acquisition determination information indicating the number of frames that can be transmitted during one token frame circulation, and transmission right acquiring apparatus information indicating the next transmission destination of the token frame after the own apparatus acquired from the token circulation order are set, and a data-frame-communication processing unit that transmits and receives the data frame, thereby to reduce time required until a communication node that acquired the token frame transmits data. | 04-05-2012 |
20130329753 | COMMUNICATION APPARATUS AND COMMUNICATION METHOD - A managing station comprises a delay time measuring unit that measures, while transmitting a delay time measurement frame to each of the slave stations and receiving a response frame responsive to the delay time measurement frame from the slave station, an elapsed time from when transmitting the delay time measurement frame to when receiving the response frame and that calculates a delay time of the slave station; and a delay detecting unit that compares the calculated delay time and a delay judgment value that is an average of the delay times calculated in a past for the slave station to determine whether delay is occurring in the slave station for each of the slave stations and that identifies, if delay is occurring in the slave station, the position of a delay element using connection configuration information indicating connection states between the communication apparatuses in the network. | 12-12-2013 |
20160036729 | COMMUNICATION MANAGEMENT APPARATUS, COMMUNICATION APPARATUS, AND COMMUNICATION METHOD - A communication management apparatus includes a token-circulation-order-information storing unit that stores token circulation order, a token-frame processing unit that determines whether transmission right acquiring apparatus information of the token frame indicates the own apparatus and transmits a token frame in which first transmission right acquisition determination information indicating a sequence number of a communication apparatus that can acquire a transmission right in the token circulation order, second transmission right acquisition determination information indicating the number of frames that can be transmitted during one token frame circulation, and transmission right acquiring apparatus information indicating the next transmission destination of the token frame after the own apparatus acquired from the token circulation order are set, and a data-frame-communication processing unit that transmits and receives the data frame, thereby to reduce time required until a communication node that acquired the token frame transmits data. | 02-04-2016 |
Patent application number | Description | Published |
20100032839 | ELECTRODE STRUCTURE, SEMICONDUCTOR ELEMENT, AND METHODS OF MANUFACTURING THE SAME - According to the present invention, there is provided an electrode structure which includes: a nitride semiconductor layer; an electrode provided over the nitride semiconductor layer; and an electrode protective film provided over the electrode, wherein the nitride semiconductor layer contains a metal nitride containing Hb, Hf or Zr as a constitutive element, the electrode has a portion having a metal oxide containing Ti or V as a constitutive element formed therein, and the electrode protective film covers at least a portion of the electrode, and contains a protective layer having Au or Pt as a constitutive element. | 02-11-2010 |
20100200863 | ELECTRODE STRUCTURE, SEMICONDUCTOR DEVICE, AND METHODS FOR MANUFACTURING THOSE - A first layer containing Ti as a constituent element, a second layer containing Nb as a constituent element, and a third layer containing Au as a constituent element are formed on a GaN substrate 11. Thereafter, the GaN substrate 11 and the first to third layers are kept at 700° C. or higher and at 1300° C. or lower. This allows a metal oxide of Ti to be distributed to extend from the interface between the GaN substrate 11 and the electrode 14 over to the inside of the electrode 14. Further, a metal nitride of Nb is formed in the inside of the GaN substrate 11. The metal nitride of Nb will be distributed to extend from the inside of the electrode 14 over to the inside of the GaN substrate 11. | 08-12-2010 |
20120028456 | ELECTRODE STUCTURE, SEMICONDUCTOR ELEMENT, AND METHODS OF MANUFACTURING THE SAME - According to the present invention, there is provided an electrode structure which includes: a nitride semiconductor layer; an electrode provided over the nitride semiconductor layer; and an electrode protective film provided over the electrode, wherein the nitride semiconductor layer contains a metal nitride containing Nb, Hf or Zr as a constitutive element, the electrode has a portion having a metal oxide containing Ti or V as a constitutive element formed therein, and the electrode protective film covers at least a portion of the electrode, and contains a protective layer having Au or Pt as a constitutive element. | 02-02-2012 |
20140230873 | THERMOELECTRIC CONVERSION ELEMENT AND METHOD OF MANUFACTURING THE SAME, AND HEAT RADIATION FIN - A thermoelectric conversion element includes: a magnetic body having a magnetization; and an electromotive body formed of material exhibiting a spin orbit coupling and jointed to the magnetic body. The magnetic body has an upper joint surface jointed to the electromotive body. The upper joint surface has concavities and convexities. | 08-21-2014 |
20150101648 | THERMOELECTRIC CONVERSION ELEMENT, THERMOELECTRIC CONVERSION SYSTEM AND MANUFACTURING METHOD OF THERMOELECTRIC CONVERSION ELEMENT - A thermoelectric conversion element includes a cable. The cable includes a first member extended in the axis direction of the cable, and a second member extended in the axis direction to cover at least a part of the outer face of the first member. One of the first and second members is a magnetic body. The other of the first and second members is a conductive body formed of material exhibiting a spin orbit coupling. | 04-16-2015 |
20150194587 | THERMOELECTRIC CONVERSION ELEMENT AND MANUFACTURING METHOD FOR SAME - A thermoelectric conversion element includes a thermoelectric conversion sheet possessing flexibility. The thermoelectric conversion sheet includes a magnetic layer, an electricity-generating layer that is formed on the magnetic layer so as to contact with the magnetic layer and that is formed of a material exhibiting spin orbit coupling, and a first electrode and a second electrode formed on the electricity-generating layer so as to contact with the electricity-generating layer. The first electrode and the second electrode extend in a longitudinal direction of the thermoelectric conversion sheet, and are separated from each other in a first direction perpendicular to the longitudinal direction. | 07-09-2015 |
20150236246 | THERMOELECTRIC CONVERSION ELEMENT AND METHOD FOR MANUFACTURING THE SAME - A thermoelectric conversion element includes a magnetic layer which has a component magnetized in an in-plane direction, an electromotive layer which includes a material with spin orbit coupling, and a spin injection layer. The spin injection layer is provided between the magnetic layer and the electromotive layer and magnetically coupled to both the magnetic layer and the electromotive layer. A magnetic moment per unit volume of the spin injection layer is smaller than the magnetic moment per unit volume of the magnetic layer. | 08-20-2015 |
20150303363 | THERMOELECTRIC CONVERSION ELEMENT, USE OF THE SAME, AND METHOD OF MANUFACTURING THE SAME - An object of the present invention is to provide a thermoelectric conversion element that can demonstrate satisfactory thermoelectric conversion performance, and also has flexibility or can be mounted on a surface having irregularities or a curved surface, a method of manufacturing such a thermoelectric conversion element, and a method of using such a thermoelectric conversion element. A thermoelectric conversion element according to the present invention includes a columnar crystal ferrite layer and an electromotive film formed on the columnar crystal ferrite layer. The electromotive film is configured to generate an electromotive force in an in-plane direction by an inverse spin Hall effect. Columnar crystal grains of the columnar crystal ferrite layer include a major axis a of not less than 200 nm and a minor axis b of not more than 500 nm where a>b. | 10-22-2015 |
20150333247 | THERMOELECTRIC CONVERSION ELEMENT AND MANUFACTURING METHOD FOR THE SAME - Concerning a thermoelectric conversion element, it is desired to provide a new spin current to charge current conversion material. A thermoelectric conversion element includes a magnetic layer possessing in-plane magnetization, and an electromotive layer magnetically coupled to the magnetic layer. The electromotive layer is formed of a carbon material, possesses anisotropy of electric conductivity, and further includes an additive. | 11-19-2015 |
20150372213 | Thermoelectric Conversion Element and Method for Making the Same - In order to further improve the spin-current/electric-current conversion efficiency in a spin-current thermoelectric conversion element, a thermoelectric conversion element includes a magnetic material layer having in-plane magnetization; and an electromotive material layer magnetically coupled with the magnetic material layer. The electromotive material layer includes a first conductor with a spin orbit coupling arising, and a second conductor having lower electric conductivity than electric conductivity of the first conductor. | 12-24-2015 |