Patent application number | Description | Published |
20140179398 | WAGERING GAME WITH ASCENDING FEATURES - A gaming system includes a wagering game initiated by a wager. The wagering game further includes an ascending-feature game outcome that triggers an ascending feature in which symbols displayed in a symbol array are changed into different symbols, including higher-value symbols, that may be subsequently evaluated for winning symbol combinations. | 06-26-2014 |
20150087411 | Wagering Game With Variable Award Associated With Play Counter - A computer-implemented method includes receiving an input indicative of a wager to play a wagering game. The method also includes displaying a play counter, a win condition, and an award for achieving the win condition in the wagering game. The play counter indicates a possible number of plays of the wagering game for which the award can be won by achieving the win condition. The method further includes, for each play of the wagering game, using a processor(s) to determine an outcome of the wagering game, advance the play counter in the absence of a reset condition, and provide the award if the win condition occurs in the wagering game. The method still further includes, in response to the reset condition, using a processor(s) to reset the play counter, modify the win condition, and modify the award for achieving the modified win condition in the wagering game. | 03-26-2015 |
20150161852 | WAGERING GAME WITH PLAYER-CONTRIBUTED REELS - In a gaming system, a first player and one or more second player(s) contribute respective player reels. At least one game outcome is determined from an array of symbols randomly generated from the combination of the player reels. The at least one game outcome is shared by all players and used to determine awards for all players. The first player may subsequently join one or more third player(s) to determine new game outcomes from a new combination of player reels. | 06-11-2015 |
Patent application number | Description | Published |
20090143546 | Double Loop Technology - A method for controlling the injection of catalyst slurry in a polymerization reactor is described herein. The method includes the preparation of polyethylene with a solid catalyst and a hydrocarbon diluents. The method includes providing solid catalyst and a hydrocarbon diluent in one or more storage vessels such that a catalyst slurry is obtained in said vessel, transferring said catalyst slurry from said storage vessel to a mixing vessel wherein said catalyst slurry is diluted for obtaining a suitable concentration for use in a polymerization reaction, pumping said diluted catalyst slurry at a controlled flow rate from said mixing vessel to said polymerization reactor through one or more conduits, by means of a membrane pump provided in each of said conduits, and the membrane pump is controllable as a function of reactant concentration within the polymerization reactor. | 06-04-2009 |
20090208375 | Method for Improving a Polymerization Reaction by Taking Out and Analysing a Sample - The invention relates to a device for taking out and analysing a sample from a polymerisation reactor comprising one or more sample conduits ( | 08-20-2009 |
20110142720 | METHOD FOR IMPROVING A POLYMERIZATION REACTION BY TAKING OUT AND ANALYSING A SAMPLE - The invention relates to a device for taking out and analysing a sample from a polymerisation reactor comprising one or more sample conduits ( | 06-16-2011 |
20120093693 | Multiple Loop Reactor for Olefin Polymerization - The present invention provides a multiple loop reactor suitable for polymerizing olefins comprising at least two interconnected loop reactors, whereby said connection essentially consists of one or more transfer lines suitable for transferring polymer slurry from a reactor to another reactor and whereby said transfer line extends substantially horizontally. The invention further relates to a process for producing olefin polymers in a multiple loop react or according to the invention. The invention also relates to the use of a transfer line for transferring polymer slurry from a reactor to another reactor in a multiple loop reactor comprising at least two interconnected loop reactors, whereby said transfer line extends substantially horizontally. | 04-19-2012 |
20120316296 | Method for Improving a Polymerization Reaction by Taking Out and Analysing a Sample - The disclosure relates to a device for removing and analyzing a sample from a polymerization reactor including one or more sample conduits for removing a sample from the reactor and transferring the sample to a sample flash tank, whereby the conduits are in communication with the reactor and are provided with at least two sampling valves; a sample flash tank for separating said solid particles and evaporated gas, whereby the sample flash tanks are connected to the conduits and provided with a device for analyzing evaporated gas, and including a sample receiver for purifying the solid particles. The receivers are connected to the sample flash tanks and provided with an apparatus for analyzing the solid particles. The disclosure includes a method for improving a polymerization reaction. | 12-13-2012 |
20130345374 | Double Loop Technology - A method for the copolymerization of ethylene and a C | 12-26-2013 |
20140299208 | Double Loop Technology - The present invention relates to an apparatus and process for polymerizing olefins. One embodiment comprises polymerizing at least one monomer in a first loop reactor in the presence of a catalyst to produce a first polyolefin fraction. A portion of the first polyolefin fraction is transferred to a second loop reactor, connected in series with the first loop reactor. The process further comprises polymerizing in the second loop reactor at least one monomer in the presence of a catalyst to produce a second polyolefin fraction in addition to the first polyolefin fraction. The combination of the first and second polyolefin fractions can produce a polymer resin fluff having bimodal molecular weight distribution. | 10-09-2014 |
20150175720 | Double Loop Technology - The present invention relates to an apparatus and process for polymerizing olefins. One embodiment comprises polymerizing at least one monomer in a first loop reactor in the presence of a catalyst to produce a first polyolefin fraction. A portion of the first polyolefin fraction is transferred to a second loop reactor, connected in series with the first loop reactor. The process further comprises polymerizing in the second loop reactor at least one monomer in the presence of a catalyst to produce a second polyolefin fraction in addition to the first polyolefin fraction. The combination of the first and second polyolefin fractions can produce a polymer resin fluff having bimodal molecular weight distribution. | 06-25-2015 |
20160108149 | Double Loop Technology - The present invention relates to an apparatus and process for polymerizing olefins. One embodiment comprises polymerizing at least one monomer in a first loop reactor in the presence of a catalyst to produce a first polyolefin fraction. A portion of the first polyolefin fraction is transferred to a second loop reactor, connected in series with the first loop reactor. The process further comprises polymerizing in the second loop reactor at least one monomer in the presence of a catalyst to produce a second polyolefin fraction in addition to the first polyolefin fraction. The combination of the first and second polyolefin fractions can produce a polymer resin fluff having bimodal molecular weight distribution. | 04-21-2016 |
Patent application number | Description | Published |
20090050722 | Condiment mill - A condiment mill is disclosed having a first sleeve, a second sleeve rotatably attached to the second sleeve, a grinding apparatus operably disposed within the first sleeve and the second sleeve, a sliding cap slidably mounted over the first sleeve and the second sleeve, a cap disposed on the grinding apparatus, and wherein the sliding cap is slidable between a first position to rotate the grinding apparatus for grinding condiments and a second position secured against the cap to provide a seal for the condiment mill. | 02-26-2009 |
20140339223 | MICROWAVE PRESSURE COOKER - Microwave pressure cooker including safety interlock mechanism. A blow vent is provided in cooker lid, and a lock bar is pivoted to cooker lid in a position to block blow vent when lock bar is resting under its own weight. Free end of lock bar includes a lock tab. Lock tab extends through a slot at periphery of lid. Cooker base includes handle with a cam section ending in a lock wall. Cooker lid is placed on base in a release position and rotated to a locking position. During rotation lock tab rides over cam section and then falls adjacent lock wall, thus sealing blow vent. After cooking cover is physically prevented from rotating back to release position by lock tab abutting lock wall. User must physically lift lock bar to unseal blow vent to ensure internal pressure is released. A spline may hold lock bar in raised position. | 11-20-2014 |
20150335191 | COOKWARE PRESSURE INDICATOR - A microwave pressure cooker including safety interlock mechanisms. A blow vent is provided in the cooker lid, and a lock bar is pivoted to the cooker lid in a position to block the blow vent when the lock bar is resting under its own weight. The free end of the lock bar includes a lock tab with a spline projecting outward. The lock tab extends through a slot at the periphery of the lid. The cooker base include a handle with a cam section ending in a lock wall. The cooker lid is placed on the base in a release position and rotated to a locking position. During this rotation the lock tab rides over the cam section and then falls adjacent the lock wall, thus sealing the blow vent. After cooking the cover is physically prevented from rotating back to the release position by the lock tab abutting the lock wall. The user must physically lift the lock bar which in turn unseals the blow vent to ensure internal pressure is released. The spline may hold the lock bar in the raised position during rotation to the release position. | 11-26-2015 |