Patent application number | Description | Published |
20110001604 | AUTOMATIC INCIDENT REPORTING IN AN ACCESS CONTROL SYSTEM - A reporting facility for use with a portable access control system to generate an incident report in connection with identification information that is associated with an individual. The reporting facility compares at least some of the identification information with identification records corresponding to persons of interest, and when the identification information substantially matches a record corresponding to a person of interest, the reporting facility applies one or more access rules to determine whether the individual is to be granted or denied access to the location. The reporting facility automatically generates an incident report based on the received identification information. The amount and/or type of information included in an incident report may vary based on whether the identification information substantially matches a record corresponding to a person of interest, received environment information, such as a threat level, etc. The reporting facility transmits the generated incident report to an appropriate authority. | 01-06-2011 |
20110221565 | DYNAMIC ACCESS CONTROL IN RESPONSE TO FLEXIBLE RULES - A dynamic access control facility that enables an operator to determine whether to grant or deny access to an individual based, in part, on the status of the individual. The operator scans the individual's identification information from an identification record using a scanning device. To determine the status of the individual, the facility decodes the scanned identification information and identifies candidates based on the decoded identification information. The facility may identify a number of candidates or no candidates. For each authorized candidate, the facility selects for display the locations or resources that the candidate is authorized to access. When there is at least one candidate, the facility displays the selected candidate(s) to the operator indicating the status of the individual and/or whether access should be denied or granted. In some embodiments, when no candidates are identified, the facility indicates whether the individual should be denied or granted access. | 09-15-2011 |
Patent application number | Description | Published |
20120254118 | RECOVERY OF TENANT DATA ACROSS TENANT MOVES - A history of locations of tenant data is maintained. The tenant data comprises data that is currently being used by the tenant and the corresponding backup data. When a tenant's data is changed from one location to another, a location and a time is stored within the history that may be accessed to determine a location of the tenant's data at a specified time. Different operations trigger a storing of a location/time within the history. Generally, an operation that changes a location of the tenant's data triggers the storing of the location within the history (e.g. upgrade of farm, move of tenant, adding a tenant, load balancing of the data, and the like). When tenant data is needed for an operation (e.g. restore), the history may be accessed to determine the location of the data. | 10-04-2012 |
20120310887 | AUTOMATIC CONFIGURATION OF A RECOVERY SERVICE - A secondary location is configured as a recovery service for a primary location of the service. The secondary location is maintained in a warm state that is configured to replace the primary location in a case of a failover. During normal operation, the secondary location is automatically updated to reflect a current state of the primary location that is actively servicing user load. Content changes to the primary location are automatically reflected to the secondary location. System changes applied to the primary location are automatically applied to the secondary location. For example, removing/adding machines, updating machine/role assignments, removing adding/database are automatically applied to the secondary location such that the secondary location substantially mirrors the primary location. After a failover to the secondary location, the secondary location becomes the primary location and begins to actively service the user load. | 12-06-2012 |
20120311375 | REDIRECTING REQUESTS TO SECONDARY LOCATION DURING TEMPORARY OUTAGE - During an outage at a primary location for an online service that is temporary in duration (e.g. a “temporary outage”), requests are temporarily switched from the primary location to a secondary location for the online service. The temporary outage may be caused by many different reasons (e.g. power outage, planned maintenance, and the like). The secondary location may be configured as read only during the temporary outage such that users are still able to access their data during the temporary without causing changes to be made to the data. The requests to the primary location of the online service are automatically redirected to be handled by the secondary location. When the temporary outage ends, the requests are automatically switched back to the primary location. | 12-06-2012 |
20120311376 | RECOVERY SERVICE LOCATION FOR A SERVICE - A secondary location of a network acts as a recovery network for a primary location of the service. The secondary location is maintained in a warm state that is configured to replace the primary location in a case of a failover. During normal operation, the primary location actively services user load and performs backups that include full backups, incremental backups and transaction logs that are automatically replicated to the secondary location. Information is stored (e.g. time, retry count) that may be used to assist in determining when the backups are restored correctly at the secondary location. The backups are restored and the transaction logs are replayed at the secondary location to reflect changes (content and administrative) that are made to the primary location. After failover to the secondary location, the secondary location becomes the primary location and begins to actively service the user load. | 12-06-2012 |
20120311377 | REPLAYING JOBS AT A SECONDARY LOCATION OF A SERVICE - Jobs submitted to a primary location of a service within a period of time before and/or after a fail-over event are determined and are resubmitted to a secondary location of the service. For example, jobs that are submitted fifteen minutes before the fail-over event and jobs that are submitted to the primary network before the fail-over to the second location is completed are resubmitted at the secondary location. After the fail-over event occurs, the jobs are updated with the secondary network that is taking the place of the primary location of the service. A mapping of job input parameters (e.g. identifiers and/or secrets) from the primary location to the secondary location are used by the jobs when they are resubmitted to the secondary location. Each job determines what changes are to be made to the job request based on the job being resubmitted. | 12-06-2012 |
20150039931 | REPLAYING JOBS AT A SECONDARY LOCATION OF A SERVICE - Jobs submitted to a primary location of a service within a period of time before and/or after a fail-over event are determined and are resubmitted to a secondary location of the service. For example, jobs that are submitted fifteen minutes before the fail-over event and jobs that are submitted to the primary network before the fail-over to the second location is completed are resubmitted at the secondary location. After the fail-over event occurs, the jobs are updated with the secondary network that is taking the place of the primary location of the service. A mapping of job input parameters (e.g. identifiers and/or secrets) from the primary location to the secondary location are used by the jobs when they are resubmitted to the secondary location. Each job determines what changes are to be made to the job request based on the job being resubmitted. | 02-05-2015 |
Patent application number | Description | Published |
20100041841 | EFFERVESCENT NOZZLE FOR CATALYST INJECTION - A nozzle for catalyst injection for olefin polymerization is provided. In one or more embodiments the nozzle includes a first conduit including a body, a tapered section, and an injection tip. The nozzle also includes a second conduit having an inner surface and an outer surface. The first conduit is disposed about the second conduit defining a first annulus therebetween. The nozzle further includes a support member at least partially disposed about the outer surface of the first conduit defining a second annulus therebetween. The support member has a converging outer surface at a first end thereof. | 02-18-2010 |
20100092252 | DISCHARGE SYSTEMS AND METHODS OF USING THE SAME - A discharge system for removing a solid/gas mixture from a fluidized bed pressure vessel is provided. The discharge system includes a fluidized bed pressure vessel, a settling vessel, a transfer vessel, discharge line, primary discharge valve, and primary exit valve. Also in included is a method to operate the discharge system. The method includes transferring a solid/gas mixture from a fluidized bed pressure vessel to a settling vessel, transferring the solids to a transfer vessel, and then emptying the transfer vessel. | 04-15-2010 |
20100143050 | DISCHARGE SYSTEM TO REMOVE SOLIDS FROM A VESSEL - A discharge system for removing a solid/gas mixture from a fluidized bed pressure vessel is provided. The system includes a fluidized bed pressure vessel, settling vessels, discharge lines, primary discharge valves, vent lines, primary vent valves, crosstie lines, crosstie valves, and primary exit valves wherein the system is absent a transfer tank, and absent a filter element. The method provides for transferring a solid/gas mixture via a discharge line from the pressure vessel to a settling vessel, wherein gas is separated from the mixture, and the gas is transferred to at least one other settling vessel via a crosstie line. After the solids are transferred out of the settling vessel, the empty vessel then receives gas from other settling vessels in the system. | 06-10-2010 |
20110040048 | Method for Preventing Catalyst Agglomeration Based on Production Rate Changes - A system and method for olefin polymerization is provided. The method includes polymerizing one or more olefins within a reactor having one or more injection tubes in fluid communication therewith, at least one of the one or more injection tubes having two or more concentric flow paths; flowing a catalyst through a first flow concentric path of the injection tube into the reactor; flowing one or more monomers through a second concentric flow path of the injection tube into the reactor; measuring rate of heat removal within the reactor; and adjusting the one or more monomers flow through the injection tube in response to the rate of heat removal in the reactor. | 02-17-2011 |
20110219952 | Systems Using Mass Flow Promoting Insert with Gas Purging and Methods Thereof - A system in one embodiment includes a barrier; an inverted cone in the barrier; and a member under the inverted cone and having dimensions that cause solids passing therealong between the member and the barrier to have about a constant velocity profile thereacross. A method for purging a gas from a solid/gas mixture according to one embodiment includes adding solids to a barrier having an inverted cone therein and a member under the inverted cone, wherein the solids passing along the member have about a constant vertical velocity profile thereacross; and injecting a purge gas into the solids from at least one point adjacent the member. | 09-15-2011 |
20110275772 | Method for Controlling Bimodal Catalyst Activity During Polymerization - A method of performing a polymerization reaction in a gas phase polymerization reactor to produce a bimodal polymer while controlling activity of a bimodal polymerization catalyst composition in the reactor by controlling concentration of at least one induced condensing agent (‘ICA’) in the reactor is provided. In some embodiments, the ICA is isopentane (or another hydrocarbon compound) and the bimodal catalyst composition includes a Group 15 and metal containing catalyst compound (or other HMW catalyst for catalyzing polymerization of a high molecular weight fraction of the product), and a metallocene catalyst compound (or other LMW catalyst for catalyzing polymerization of a low molecular weight fraction of the product). | 11-10-2011 |
20120136127 | Polymerization Reaction System - A process for the polymerization of olefins is disclosed. The process may include: feeding a catalyst, a liquid diluent, and an olefin to a polymerization vessel having, from a polymerization vessel bottom to a polymerization vessel top, a vapor introduction zone, a three-phase reaction zone and a vapor disengagement zone; contacting the catalyst and olefin under conditions of temperature and pressure in the presence of the liquid diluent as a continuous phase in the three-phase reaction zone to form a solid phase polyolefin; withdrawing a gas phase composition from an outlet in fluid communication with the vapor disengagement zone; circulating the gas phase composition through a gas circulation loop to an inlet in fluid communication with the vapor distribution zone at a rate sufficient to agitate the solid and liquid phases within the three-phase reaction zone; and withdrawing a reaction mixture comprising polyolefin and diluents from the three-phase reaction zone. | 05-31-2012 |
20130291720 | Systems and Methods for Recovering Hydrocarbons From a Polyolefin Purge Gas Product - Provided are systems and methods for separating a purge gas recovered from a polyethylene product. The method includes recovering a polyethylene product containing one or more volatile hydrocarbons from a polymerization reactor and contacting the polyethylene product with a purge gas to remove at least a portion of the volatile hydrocarbons to produce a polymer product having a reduced concentration of volatile hydrocarbons and a purge gas product enriched in volatile hydrocarbons. The purge gas product is compressed to a pressure of 2,500 kPaa to 10,000 kPaa, and is then cooled and separated into at least a first product, a second product, and a third product. A portion of one or more of the first, second, or third products is then recycled as a purge gas, to the polymerization reactor, or to the purge gas product enriched in volatile hydrocarbons prior to compression, respectively. | 11-07-2013 |