Mohsin
Mahmood Allawy Mohsin, Al Ain AE
Patent application number | Description | Published |
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20120211732 | SEMICONDUCTING POLYMER - A semiconducting polymer formed from an insulator polymer and an ionic liquid is disclosed. In at least one embodiment, the semiconducting polymer may be formed from a homogenous blend of two or more insulator polymers and two or more ionic liquids. The homogenous mixture of non-conducting polymers and ionic liquid may be formed as a film of semiconducting polymer with a controllable thickness. The semiconducting polymer may be used in a multitude of different applications, including, but not limited to, storage devices. | 08-23-2012 |
20140319503 | SEMICONDUCTING POLYMER - A semiconducting polymer formed from an insulator polymer and an ionic liquid is disclosed. In at least one embodiment, the semiconducting polymer may be formed from a homogenous blend of two or more insulator polymers and two or more ionic liquids. The homogenous mixture of non-conducting polymers and ionic liquid may be formed as a film of semiconducting polymer with a controllable thickness. The semiconducting polymer may be used in a multitude of different applications, including, but not limited to, storage devices. | 10-30-2014 |
Mansoor Mohsin, Redmond, WA US
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20090248900 | SYNCHRONIZING CLOCKS IN AN ASYNCHRONOUS DISTRIBUTED SYSTEM - The present invention extends to methods, systems, and computer program products for synchronizing clocks in an asynchronous distributed system. Embodiments of the invention facilitate creation of a trustable and practical common time (time of day) reference across a set of peer nodes (observers), such as, for example, members within a common asynchronous (distributed) system. A class of pseudo synchronous system can be created via tracking and accumulating worst case relativistic time skews amongst pairs of nodes (observers), without reference to a common master. As such, cooperating nodes can essentially guarantee a lower bound on the time-of-day that one node will observe, given an observation on another node. Accordingly, embodiments of the invention can be applied to provide a consistent (essentially safe) view of the worst case (i.e., greatest variance in) current time across such an asynchronous system—without a common external time-of-day clock entity being used. | 10-01-2009 |
20100268808 | DISTRIBUTED AGGREGATION ON AN OVERLAY NETWORK - The present invention extends to methods, systems, and computer program products for distributed aggregation on an overlay network. Embodiments of the invention utilize tiers of nodes that are cascaded in a layered system. Each tier reduces the size of data by orders of magnitude through pre-aggregation. Thus, high volume streams of messages can be reduced to lower volume streams at large scales, such as, for example, the Internet. No central coordination is used; thus there is no central point of failure or bottleneck. When a node fails, other nodes in the same tier as the failing node automatically take over the responsibilities of the failed node. | 10-21-2010 |
Mansoor Mohsin, Bellevue, WA US
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20140092773 | NODE JOINING PROTOCOL FOR CLUSTER FEDERATION - Obtaining tight knowledge about nodes in a federated ring structure. The tight knowledge includes information about neighbors of a given node. The method includes at a given node, sending a join request, requesting to join a federated ring in a distributed computing environment. The method further includes, at the given node, receiving a join reply. The join reply provides an initial view of at least a portion of a neighborhood of the given node. The neighborhood is a set of nodes logically proximate the given node. The method further includes, at the given node, sending a lock request to nodes in the neighborhood to request that the other nodes in the given node's neighborhood are locked so as to not have overlapping nodes joining the given node's neighborhood simultaneously. | 04-03-2014 |
Yulianto Salahuddin Mohsin, Ithaca, NY US
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20100325954 | QUENCH CHAMBER ASSEMBLY FOR A GASIFIER - A gasifier includes a combustion chamber in which a combustible fuel is burned to produce a syngas and a particulated solid residue. A quench chamber having a liquid coolant is disposed downstream of the combustion chamber. A dip tube is disposed coupling the combustion chamber to the quench chamber. The syngas is directed from the combustion chamber to the quench chamber via the dip tube to contact the liquid coolant and produce a cooled syngas. A draft tube is disposed surrounding the dip tube such that an annular passage is formed between the draft tube and the dip tube. An asymmetric or symmetric baffle is disposed proximate to an exit path of the quench chamber. The cooled syngas is directed through the annular passage and impacted against the asymmetric or symmetric baffle so as to remove entrained liquid content from the cooled syngas before the cooled syngas is directed through the exit path. | 12-30-2010 |
Yulianto Salahuddin Mohsin, Houston, TX US
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20090047193 | METHODS AND APPARATUS FOR COOLING SYNGAS WITHIN A GASIFIER SYSTEM - A method for operating a syngas cooler is provided. The method includes channeling a flow of syngas into an annular cooling chamber having a longitudinal axis, injecting a cooling fluid into a manifold such that the cooling fluid is channeled substantially circumferentially about the annular cooling chamber, and discharging the cooling fluid from the manifold such that the cooling fluid contacts a surface of the cooling chamber at a predetermined angle relative to the axis of the cooling chamber. | 02-19-2009 |
20130011307 | QUENCH CHAMBER ASSEMBLY FOR A GASIFIER - A gasifier includes a combustion chamber in which a fuel is burned to produce a syngas and a particulated solid residue. A quench chamber having a liquid coolant is disposed downstream of the combustion chamber. A dip tube couples the combustion chamber to the quench chamber. The syngas is directed from the combustion chamber to the quench chamber via the dip tube to contact the liquid coolant and produce a cooled syngas. A draft tube surrounds the dip tube such that an annular passage is formed between the draft tube and the dip tube. An asymmetric or symmetric faceted baffle is disposed proximate to an exit path of the quench chamber. The cooled syngas is directed through the annular passage and impacted against the baffle so as to remove entrained liquid content from the cooled syngas before the cooled syngas is directed through the exit path. | 01-10-2013 |
20130011308 | QUENCH CHAMBER ASSEMBLY FOR A GASIFIER - A gasifier includes a combustion chamber in which a fuel is burned to produce a syngas and a particulated solid residue. A quench chamber is disposed downstream of the combustion chamber. A dip tube is disposed coupling the combustion chamber to the quench chamber. The syngas is directed to contact liquid coolant in the quench chamber and produce a cooled syngas. A draft tube is disposed surrounding the dip tube such that an annular passage is formed. A baffle is disposed proximate to an exit path of the quench chamber. The cooled syngas is directed through the annular passage and impacted against the baffle so as to remove entrained liquid content from the cooled syngas before it is directed through the exit path. A cross sectional area of the annular passage is smaller towards the bottom of the quench chamber and larger towards the top of the quench chamber. | 01-10-2013 |