Patent application number | Description | Published |
20110070072 | ROTARY MACHINE TIP CLEARANCE CONTROL MECHANISM - A tip clearance control mechanism for a rotary machine adapted for reducing leakage flows, and minimizing tip vortex size and penetration into main flow that will improve turbine efficiency. The tip clearance control mechanism includes inventive arrangements of a rotating shroud and a shape of the shroud, teeth of various shapes and locations on the rotating shroud, and one or more stator teeth of various shapes and locations on a stationary shroud or casing wall configurations providing comparable tip clearance control. The reduction in leakage flow is a function of how these components are assembled together, which defines a clearance passage between the rotating shroud and the stationary shroud. | 03-24-2011 |
20130064665 | LOW PRESSURE STEAM TURBINE INCLUDING PIVOTABLE NOZZLE - A low pressure steam turbine is disclosed including a rotor having: a rotor body; and a plurality of bucket stages disposed axially along the rotor body, the plurality of bucket stages including a last bucket stage; and a nozzle assembly at least partially surrounding the rotor, the nozzle assembly including a plurality of nozzle stages corresponding to the plurality of bucket stages, wherein a nozzle in a nozzle stage axially upstream of the last bucket stage is adjustable to modify a fluid flow within the last bucket stage during operation of the low pressure steam turbine. | 03-14-2013 |
20130167551 | TURBINE TO OPERATE AT PART-LOAD - A turbine includes a compressor to intake a fluid and to compress the fluid, a combustion chamber to heat the fluid from the compressor, a turbine section to rotate a shaft with the heated fluid from the combustion chamber, and a bypass circuit to generate a bypass flow by removing a portion of the fluid from the compressor, to heat the bypass flow, and to insert the bypass flow to the turbine section. | 07-04-2013 |
20130189107 | Turbine Packing Deflector - A turbine includes a rotor being rotatable about an axis, a circumferential array of nozzles having circumferentially spaced airfoils and inner and outer bands disposed at opposite ends thereof, the inner band having a leading portion and a trailing portion, and an array of directors arranged on the inner band, the array of directors operative to direct a flow path of fluid, the flow path of fluid partially defined by the rotor and the inner band. | 07-25-2013 |
20130280050 | TURBINE VIBRATION REDUCTION SYSTEM - A turbine vibration reduction system includes a nozzle, a bucket in operable communication with the nozzle, and a structure having at least one opening configured to inject fluid into flow traveling past the nozzle and the bucket to disrupt formation of a vortex. | 10-24-2013 |
20130330186 | TURBINE EXHAUST DIFFUSER - A turbine exhaust diffuser includes a diffuser component disposed within the turbine exhaust diffuser and having an outer surface. Also included is a suction path extending between the outer surface and an interior compartment of the diffuser component, wherein the suction path is configured to ingest a fluid. Further included is an actuating path extending between the outer surface and the interior compartment of the diffuser component, wherein the actuating path is configured to expel the fluid. Yet further included is a flow manipulating device disposed within the interior compartment of the diffuser component. | 12-12-2013 |
20140093352 | EXHAUST DIFFUSER ARRANGEMENT FOR A TURBINE SYSTEM AND METHOD OF REDIRECTING A FLOW - An exhaust diffuser arrangement for a turbine system includes an inlet for receiving a flow proximate a last stage bucket of the turbine system, the flow flowing in a first flow direction. Also included is a flow redirecting component. The flow redirecting component includes a first wall having a first side of a concave surface geometry for redirecting the flow and a second side of a convex surface geometry. The flow redirecting component also includes a second wall spaced downstream of the first wall and having at least one flow exit for reducing a boundary layer along the second side of the first wall. | 04-03-2014 |
20140093359 | TURBINE INTRUSION LOSS REDUCTION SYSTEM - Systems and devices configured to reduce windage and mixing losses in a turbine by redirecting and/or aligning a direction of a leakage flow with the flowpath of the main flow of a turbine are disclosed. In one embodiment, a device includes: a base configured to connect to a diaphragm of a turbine; and a radial portion connected to the base and extending radially inboard from the base toward a rotor of the turbine, the radial portion oriented to adjust a direction of travel of a leakage flow of working fluid radially inboard at an angle complementary to a primary working fluid path of the turbine. | 04-03-2014 |
20140096500 | EXHAUST DIFFUSER - An exhaust diffuser includes an outer shroud and an inner shroud radially separated from the outer shroud so as to define a fluid passage between the outer shroud and the inner shroud. A strut extends between the outer shroud and the inner shroud. The strut generally includes an outer surface, a leading edge, a trailing edge, a first side and a second side. At least one turbulator may be positioned along a radial span of the strut. The at least one turbulator extends generally outwardly from the strut outer surface. The turbulator extends across the leading edge of the strut from the first side to the second side of the strut. | 04-10-2014 |
20140137533 | EXHAUST GAS DIFFUSER FOR A GAS TURBINE - An exhaust gas diffuser for a gas turbine generally includes an inner wall that extends along an axial centerline of the exhaust gas diffuser. An outer wall is coaxially aligned with the inner wall. The outer wall is radially separated from the inner wall so as to define a flow passage therebetween. An airfoil shaped strut is disposed in the flow passage. The strut extends between the inner and the outer walls. The strut includes a leading edge and a trailing edge positioned relative to a direction of flow through the flow passage. The leading edge and the trailing edge are tapered from the inner wall to the outer wall in the direction of flow through the passage. | 05-22-2014 |
20140154066 | TURBOMACHINE NOZZLE HAVING FLUID CONDUIT AND RELATED TURBOMACHINE - Various embodiments include a steam turbine nozzle and turbomachinery including such a nozzle. In various particular embodiments, a steam turbine nozzle includes: a body having: a first sidewall and a second sidewall opposite the first sidewall; a pressure side and a suction side each extending between the first sidewall and the second sidewall; and a leading edge section at a first junction of the pressure side and the suction side, and a trailing edge section at a second junction of the pressure side and the suction side; and a bypass fluid conduit including: a channel having an opening to at least one of the first sidewall or the second sidewall; and an outlet passageway fluidly connected with the channel between the first sidewall and the second sidewall, the outlet passageway including a first opening on at least one of the pressure side of the body, the suction side of the body or the trailing edge section. | 06-05-2014 |
20140161603 | EXHAUST DIFFUSER - An exhaust diffuser is provided having a center body having an inlet adapted for coupling to a turbine. The center body has an outer wall, and a guide member disposed inside the center body. A flow path reducing member is disposed inside the center body. The flow path reducing member is configured to be movable into a first position and a second position. The first position is an inactive position having no impact on an exit flow area of the exhaust diffuser, and the second position is a deployed position that reduces the exit flow area of the exhaust diffuser. | 06-12-2014 |
20140178187 | STAGGERED DOUBLE ROW, SLOTTED AIRFOIL DESIGN FOR GAS TURBINE EXHAUST FRAME - A gas turbine exhaust frame includes an inner barrel and an outer barrel establishing an annular exhaust gas flow path therebetween. A plurality of airfoils extend radially between the inner barrel and the radially, outer barrel, the plurality of struts arranged in first and second axially-spaced and circumferentially-staggered rows. | 06-26-2014 |
20140248139 | TURBOMACHINE BUCKET HAVING FLOW INTERRUPTER AND RELATED TURBOMACHINE - Various embodiments include a turbomachine bucket having a flow interrupter, as well as related turbomachines. Various embodiments include a turbomachine bucket having: a base section sized to couple with a turbomachine rotor, the base section having a leading edge and a trailing edge opposing the leading edge; a blade section coupled to the base section and aligned to extend radially from the base section; a shroud coupled to the blade section and aligned to extend radially from the blade section; and a flow interrupter coupled to the leading edge of the base section. | 09-04-2014 |
20140314549 | FLOW MANIPULATING ARRANGEMENT FOR A TURBINE EXHAUST DIFFUSER - A flow manipulating arrangement for a turbine exhaust diffuser includes a strut having a leading edge and a trailing edge, the strut disposed within the turbine exhaust diffuser. Also included is a plurality of rotatable guide vanes disposed in close proximity to the strut and configured to manipulate an exhaust flow, wherein the plurality of rotatable guide vanes is coaxially aligned and circumferentially arranged relative to each other. Further included is an actuator in operative communication with the plurality of rotatable guide vanes and configured to actuate an adjustment of the plurality of rotatable guide vanes. Yet further included is a circumferential ring operatively coupling the plurality of rotatable guide vanes, wherein the actuator is configured to directly actuate rotation of one of the rotatable guide vanes, and wherein the circumferential ring actuates rotation of the plurality of rotatable guide vanes upon rotational actuation by the actuator. | 10-23-2014 |
20150063997 | AIRFOIL TRAILING EDGE - An airfoil includes a radially inner edge extending in a radial direction of the airfoil to a radially outer edge. Also included is a leading edge extending in an axial direction of the airfoil to a trailing edge. Further included is a trailing edge geometry comprising at least one wave segment having simultaneous curvature in at least two directions. | 03-05-2015 |
20150128612 | SYSTEMS AND METHODS FOR VARYING A THROAT AREA BETWEEN ADJACENT BUCKETS IN A TURBINE FOR IMPROVED PART LOAD PERFORMANCE - A gas or steam turbine is disclosed herein. The turbine may include a throat area formed between adjacent buckets. The turbine also may include a variable throat device associated with at least one of the adjacent buckets. The variable throat device may be configured to vary the throat area between the adjacent buckets for improved part load performance. | 05-14-2015 |
20150211373 | HIGH CHORD BUCKET WITH DUAL PART SPAN SHROUDS AND CURVED DOVETAIL - A turbine bucket includes an entry dovetail; an airfoil portion extending from the entry dovetail, the airfoil portion having a leading edge, a trailing edge, a pressure side and a suction side. Radially inner- and outer-span shrouds are provided on each of the pressure side and the suction side, the part-span shrouds each having hard faces adapted to engage and slide relative to corresponding part-span shrouds on adjacent buckets. | 07-30-2015 |
Patent application number | Description | Published |
20120167085 | SHARING MULTIPLE VIRTUAL FUNCTIONS TO A HOST USING A PSEUDO PHYSICAL FUNCTION - A method is provided comprising: enumerating a group of available virtual functions corresponding to the physical function; mapping the group of available virtual functions to a non-transparent port of the switch by creating a copy of a configuration space for the physical function while assigning unique vendor and device identifications for different classes of devices, wherein the mapping creates a pseudo physical function exposing a subset of the SR-IOV capability from the configuration space for the physical function; receiving a request to access the physical function from the single host; and providing the pseudo physical function to the single host for loading on the single host, in response to the receiving of the request, wherein the pseudo physical function is designed to call management functions of the single host to enable the group of available virtual functions in a local hierarchy of the single host. | 06-28-2012 |
20130024595 | PCI EXPRESS SWITCH WITH LOGICAL DEVICE CAPABILITY - A PCIe switch implements a logical device for use by connected host systems. The logical device is created by logical device enabling software running on a host management system. The logical device is able to consolidate one or more physical devices or may be entirely software-based. Commands from the connected host are processed in the command and response queues in the host and are also reflected in shadow queues stored in the management system. A DMA engine associated with the connected host is set up to automatically trigger on queues in the connected (local) host. Commands are sent to the physical devices to complete the work and a completion signal is sent to the management software and a response to the work is sent directly to the connected host, which is not aware that the logical device is non-existent and is implemented by software in the management system. | 01-24-2013 |
20140122765 | METHOD AND APPARATUS FOR SECURING AND SEGREGATING HOST TO HOST MESSAGING ON PCIE FABRIC - A PCIe fabric includes at least one PCIe switch. The fabric may be used to connect multiple hosts. The PCIe switch implements security and segregation measures for host-to-host message communication. A management entity defines a Virtual PCIe Fabric ID (VPFID). The VPFID is used to enforce security and segregation. The fabric ID may be extended to be used in switch fabrics with other point-to-point protocols. | 05-01-2014 |
20140237156 | MULTI-PATH ID ROUTING IN A PCIE EXPRESS FABRIC ENVIRONMENT - PCIe is a point-to-point protocol. A PCIe switch fabric has multi-path routing supported by adding an ID routing prefix to a packet entering the switch fabric. The routing is converted within the switch fabric from address routing to ID routing, where the ID is within a Global Space of the switch fabric. Rules are provided to select optimum routes for packets within the switch fabric, including rules for ordered traffic, unordered traffic, and for utilizing congestion feedback. In one implementation a destination lookup table is used to define the ID routing prefix for an incoming packet. The ID routing prefix may be removed at a destination host port of the switch fabric. | 08-21-2014 |
20150019789 | METHOD AND APPARATUS FOR SECURING AND SEGREGATING HOST TO HOST MESSAGING ON PCIE FABRIC - A PCIe fabric includes at least one PCIe switch. The fabric may be used to connect multiple hosts. The PCIe switch implements security and segregation measures for host-to-host message communication. A management entity defines a Virtual PCIe Fabric ID (VPFID). The VPFID is used to enforce security and segregation. The fabric ID may be extended to be used in switch fabrics with other point-to-point protocols. | 01-15-2015 |
20150127878 | TUNNELED WINDOW CONNECTION FOR PROGRAMMED INPUT OUTPUT TRANSFERS OVER A SWITCH FABRIC - Tunneled window connections are utilized in a switch fabric to perform programmed input output transfers. The window connections are based on global IDs. A management entity may enforce the tunneled window connections, improving security. | 05-07-2015 |
20150254082 | REMOTE BOOTING OVER PCI EXPRESS USING SYNTHETIC REMOTE BOOT CAPABILITY - A method of remote booting over PCI Express using a synthetic remote boot capability is provided. A management host software system intercepts probe requests from a host and provided information required for a remote boot. The management host software system may include expansion ROM information to support different host architectures. A synthetic device booting capability may be shown to a host, including the expansion ROM information. Additional support for DHCP and TFTP may be provided. | 09-10-2015 |
20150281126 | METHODS AND APPARATUS FOR A HIGH PERFORMANCE MESSAGING ENGINE INTEGRATED WITHIN A PCIe SWITCH - A method of transferring data over a switch fabric with at least one switch with an embedded network class endpoint device is provided. At a device transmit driver a transfer command is received to transfer a message. If the message length is less than a threshold the message is pushed. If the message length is greater than the threshold, the message is pulled. | 10-01-2015 |
Patent application number | Description | Published |
20090010564 | METHOD AND APPARATUS TO FACILITATE CREATING ANCILLARY INFORMATION REGARDING ERRORED IMAGE CONTENT - Pixels in a provided image for which the content has been provided in error are identified. This image content is processed to provide a version of the image wherein the error is at least partially concealed while also creating ancillary information regarding the errored pixel(s) and the spatial location to which such pixel(s) corresponds to thereby provide a record that describes which pixels in the image content were provided in error. An optional user-selectable option can permit displaying either of the aforementioned corrected version of the image wherein the error is at least partially concealed and a version of the image wherein the ancillary information is used to depict the errored pixel(s) such that provided-in-error pixels are readily distinguished from correctly-provided pixels. | 01-08-2009 |
20110306867 | Methods and Systems for Determining Vascular Bodily Lumen Information and Guiding Medical Devices - Methods and systems for determining information about a vascular bodily lumen are described. An exemplary method includes generating an electrical signal, delivering the electrical signal to a plurality of excitation elements in the vicinity of the vascular bodily lumen, measuring a responsive electrical signal from a plurality of sensing elements in response to the delivered electrical signal, and determining a lumen dimension. Specific embodiments include generating a multiple frequency electrical signal. Another embodiment includes measuring a plurality of responsive signals at a plurality of frequencies. Still other embodiments include using spatial diversity of the excitation elements. Yet other embodiments use method for calibration and de-embedding of such measurements to determine the lumen dimensions. Diagnostic devices incorporating the method are also disclosed, including guide wires, catheters and implants. The methods and systems described herein are advantageous as they do not include injecting a second fluid for the measurements. | 12-15-2011 |
20120071782 | METHODS AND SYSTEMS FOR DETERMINING VASCULAR BODILY LUMEN INFORMATION AND GUIDING MEDICAL DEVICES - Methods and systems for determining information about a vascular bodily lumen are described. An exemplary method includes generating an electrical signal, delivering the electrical signal to a plurality of excitation elements in the vicinity of the vascular bodily lumen, measuring a responsive electrical signal from a plurality of sensing elements in response to the delivered electrical signal, and determining a lumen dimension. Specific embodiments include generating a multiple frequency electrical signal. Another embodiment includes measuring a plurality of responsive signals at a plurality of frequencies. Still other embodiments include using spatial diversity of the excitation elements. Yet other embodiments use method for calibration and de-embedding of such measurements to determine the lumen dimensions. Diagnostic devices incorporating the method are also disclosed, including guide wires, catheters and implants. The methods and systems described herein are advantageous as they do not include injecting a second fluid for the measurements. | 03-22-2012 |
20120101355 | METHODS AND SYSTEMS FOR DETERMINING VASCULAR BODILY LUMEN INFORMATION AND GUIDING MEDICAL DEVICES - Methods and systems for determining information about a vascular bodily lumen are described. An exemplary method includes generating an electrical signal, delivering the electrical signal to a plurality of excitation elements in the vicinity of the vascular bodily lumen, measuring a responsive electrical signal from a plurality of sensing elements in response to the delivered electrical signal, and determining a lumen dimension. Specific embodiments include generating a multiple frequency electrical signal. Another embodiment includes measuring a plurality of responsive signals at a plurality of frequencies. Still other embodiments include using spatial diversity of the excitation elements. Yet other embodiments use method for calibration and de-embedding of such measurements to determine the lumen dimensions. Diagnostic devices incorporating the method are also disclosed, including guide wires, catheters and implants. The methods and systems described herein are advantageous as they do not include injecting a second fluid for the measurements. | 04-26-2012 |
20120101369 | METHODS AND SYSTEMS FOR DETERMINING VASCULAR BODILY LUMEN INFORMATION AND GUIDING MEDICAL DEVICES - Methods and systems for determining information about a vascular bodily lumen are described. An exemplary method includes generating an electrical signal, delivering the electrical signal to a plurality of excitation elements in the vicinity of the vascular bodily lumen, measuring a responsive electrical signal from a plurality of sensing elements in response to the delivered electrical signal, and determining a lumen dimension. Specific embodiments include generating a multiple frequency electrical signal. Another embodiment includes measuring plurality of responsive signals at a plurality of frequencies. Still other embodiments include using spatial diversity of the excitation elements. Yet other embodiments use method for calibration and de-embedding of such measurements to determine the lumen dimensions. Diagnostic devices incorporating the method are also disclosed, including guide wires, catheters and implants. The methods and systems described herein are advantageous as they do not include injecting a second fluid for the measurements. | 04-26-2012 |
20130123694 | DIAGNOSTIC KIT AND METHOD FOR MEASURING BALLOON DIMENSION IN VIVO - A method for measuring a balloon expansion profile in vivo is provided. The method comprises providing a balloon with at least one sensing element as a diagnostic device, where the at least one sensing element is characterized by at least one attribute that is representative of balloon dimension; measuring the at least one attribute to obtain an observed attribute value; and estimating the balloon dimension and the balloon expansion profile based on the observed attribute value. A diagnostic kit for measuring a balloon expansion profile in vivo is also provided. The diagnostic kit comprises the diagnostic device; a measurement module for measuring an observed attribute value for the attribute; and a processor module for processing the observed attribute value to estimate the balloon expansion profile as one or more outputs. | 05-16-2013 |
20130226024 | METHODS AND SYSTEMS FOR DETERMINING VASCULAR BODILY LUMEN INFORMATION AND GUIDING MEDICAL DEVICES - Methods and systems for determining information about a vascular bodily lumen are described. An exemplary method includes generating an electrical signal, delivering the electrical signal to a plurality of excitation elements in the vicinity of the vascular bodily lumen, measuring a responsive electrical signal from a plurality of sensing elements in response to the delivered electrical signal, and determining a lumen dimension. Specific embodiments include generating a multiple frequency electrical signal. Another embodiment includes measuring a plurality of responsive signals at a plurality of frequencies. Still other embodiments include using spatial diversity of the excitation elements. Yet other embodiments use method for calibration and de-embedding of such measurements to determine the lumen dimensions. Diagnostic devices incorporating the method are also disclosed, including guide wires, catheters and implants. The methods and systems described herein are advantageous as they do not include injecting a second fluid for the measurements. | 08-29-2013 |
20140032142 | METHODS AND SYSTEMS FOR DETERMINING VASCULAR BODILY LUMEN INFORMATION AND GUIDING MEDICAL DEVICES - Methods and systems for determining information about a vascular bodily lumen are described. An exemplary method includes generating an electrical signal, delivering the electrical signal to a plurality of excitation elements in the vicinity of the vascular bodily lumen, measuring a responsive electrical signal from a plurality of sensing elements in response to the delivered electrical signal, and determining a lumen dimension. Specific embodiments include generating a multiple frequency electrical signal. Another embodiment includes measuring a plurality of responsive signals at a plurality of frequencies. Still other embodiments include using spatial diversity of the excitation elements. Yet other embodiments use method for calibration and de-embedding of such measurements to determine the lumen dimensions. Diagnostic devices incorporating the method are also disclosed, including guide wires, catheters and implants. The methods and systems described herein are advantageous as they do not include injecting a second fluid for the measurements. | 01-30-2014 |
20140142398 | MULTIFUNCTIONAL GUIDEWIRE ASSEMBLIES AND SYSTEM FOR ANALYZING ANATOMICAL AND FUNCTIONAL PARAMETERS - Multifunctional guidewire assemblies and system for analyzing anatomical and functional parameters are described. Using a single guidewire assembly, functional and anatomical measurements and identification of lesions may be made. Functional measurements such as pressure may be obtained with a pressure sensor on the guidewire while anatomical measurements such as luminal dimensions may be obtained by utilizing an electrode assembly along the guidewire. The vascular network and stenosed lesions may be modeled into an equivalent electrical network and solved based on the measured parameters to obtain unknown parameters of the electrical network. Several treatment plan options may be constructed where each plan may correspond to the treatment of a subset of particular lesions. The anatomical outcome for each of the treatment plans may be estimated and the equivalent modified electrical parameters may be determined. Then, each of the electrical networks for each plan may be solved to determine the functional outcome for each treatment plan and the outcomes for all treatment plans may be presented to a physician. | 05-22-2014 |
20150038833 | METHODS AND SYSTEMS FOR DETERMINING VASCULAR BODILY LUMEN INFORMATION AND GUIDING MEDICAL DEVICES - Methods and systems for determining information about a vascular bodily lumen are described. An exemplary method includes generating an electrical signal, delivering the electrical signal to a plurality of excitation elements in the vicinity of the vascular bodily lumen, measuring a responsive electrical signal from a plurality of sensing elements in response to the delivered electrical signal, and determining a lumen dimension. Specific embodiments include generating a multiple frequency electrical signal. Another embodiment includes measuring a plurality of responsive signals at a plurality of frequencies. Still other embodiments include using spatial diversity of the excitation elements. Yet other embodiments use method for calibration and de-embedding of such measurements to determine the lumen dimensions. Diagnostic devices incorporating the method are also disclosed, including guide wires, catheters and implants. The methods and systems described herein are advantageous as they do not include injecting a second fluid for the measurements. | 02-05-2015 |
20150245882 | SYSTEMS FOR LINEAR MAPPING OF LUMENS - Systems for linear mapping of lumens are described which utilizes methods to create a linearized view of a lumen using multiple imaged frames. In reality a lumen has a trajectory in 3-D, but only a 2-D projected view is available for viewing. The linearized view unravels this 3-D trajectory thus creating a linearized map for every point on the lumen trajectory as seen on the 2-D display. In one mode of the invention, the trajectory is represented as a linearized display along 1 dimension. This linearized view is also combined with lumen measurement data and the result is displayed concurrently on a single image. In another mode of the invention, the position of a treatment device is displayed on the linearized map in real time. In a further extension of this mode, the profile of the lumen dimension is also displayed on this linearized map. | 09-03-2015 |