Patent application number | Description | Published |
20140317174 | METHOD AND DEVICE FOR UPDATING CLIENT - Embodiments of the present application relate to a method for updating a client, a device for updating a client, and a computer program product for updating a client. The method includes determining whether the client is to be updated, in the event that the client is to be updated, determining update packages for the client, determining a user's preferred functions from among functions offered by the client based on saved record of operations of the user corresponding to the client, determining update packages, from among the determined update packages, on which the user's preferred functions depend to serve as preferred packages, and releasing the preferred packages to the client to be updated. | 10-23-2014 |
20140344338 | TRANSMITTING INFORMATION BASED ON READING SPEED - Transmitting information based on reading speed is disclosed, including: receiving an information acquisition request from a client device, wherein the information acquisition request includes a user identifier; determining the user identifier included in the information acquisition request; determining one or more historical information sent times and one or more historical sent information quantities corresponding to the user identifier from stored historical records; determining a reading speed corresponding to the user identifier based at least in part on the one or more historical information sent times and the one or more historical sent information quantities corresponding to the user identifier; determining a quantity of requested information to be sent to the client device based at least in part on the reading speed corresponding to the user identifier; and sending the quantity of requested information to the client device. | 11-20-2014 |
Patent application number | Description | Published |
20130224104 | Heat Exchanger Using Non-Pure Water for Steam Generation - A process and a device are described for producing high purity and high temperature steam from non-pure water which may be used in a variety of industrial processes that involve high temperature heat applications. The process and device may be used with technologies that generate steam using a variety of heat sources, such as, for example industrial furnaces, petrochemical plants, and emissions from incinerators. Of particular interest is the application in a thermochemical hydrogen production cycle such as the Cu—Cl Cycle. Non-pure water is used as the feedstock in the thermochemical hydrogen production cycle, with no need to adopt additional and conventional water pre-treatment and purification processes. The non-pure water may be selected from brackish water, saline water, seawater, used water, effluent treated water, tailings water, and other forms of water that is generally believed to be unusable as a direct feedstock of industrial processes. The direct usage of this water can significantly reduce water supply costs. | 08-29-2013 |
20130236392 | Thermochemical Reactors and Processes for Hydrolysis of Cupric Chloride - A thermochemical reactor ( | 09-12-2013 |
20160039724 | SYSTEMS, METHODS AND DEVICES FOR THE CAPTURE AND HYDROGENATION OF CARBON DIOXIDE WITH THERMOCHEMICAL Cu-Cl AND Mg-Cl-Na/K-CO2 CYCLES - Systems, methods, and devices for producing hydrogen and capturing CO2 from emissions combine both H2 production and CO2 capture processes in forms of thermochemical cycles to produce useful products from captured CO2. The thermochemical cycles are copper-chlorine (Cu—Cl) and magnesium-chlorine-sodium/potassium cycles (Mg—CI—Na/K—CO2). One system comprises a Cu—Cl cycle, a CO2 capture loop, and a hydrogenation cycle. Another system comprises an Mg—CI—Na/K—CO2 cycle and a hydrogenation cycle. Devices for hydrogen production, CO2 capture, hydrogenation, and process and equipment integration include a two-stage fluidized/packed bed, hybrid two-stage spray-fluidized/packed bed reactor, a two-stage wet-mode absorber, a hybrid two-stage absorber, and a catalyst packed/fluidized bed reactor. | 02-11-2016 |