Patent application number | Description | Published |
20090121039 | SPRAY NOZZLE MANIFOLD - A spray nozzle manifold comprising a first co-axial passage for supply of an atomisation gas, a second co-axial passage present in said first passage for supply of a liquid, more than one laterally spaced nozzle for atomisation and spraying liquid in a direction away from the longitudinal axis of the manifold attached to the first passage, said nozzles having an inlet for liquid fluidly connected to said second passage, an inlet for atomisation gas fluidly connected to the first passage, a mixing chamber wherein atomisation gas and liquid mix and an outlet for a mixture of atomisation gas and liquid, wherein the nozzle has an opening for discharge of atomisation gas which opening is in fluid communication with the first passage at a position upstream of the mixing chamber and wherein a shield is fixed to the first passage surrounding the nozzle. | 05-14-2009 |
20090126259 | PROCESS TO PREPARE METHANOL AND/OR DIMETHYLETHER - A process to prepare methanol and/or dimethylether from a solid carbonaceous feedstock comprising the steps of
| 05-21-2009 |
20110112347 | PROCESS TO PREPARE AN OLEFIN-CONTAINING PRODUCT OR A GASOLINE PRODUCT - Process to prepare an olefin-containing product or a gasoline product from a solid carbonaceous feedstock by performing the steps of (a) feeding an oxygen comprising gas and the carbonaceous feedstock to a burner firing into a reactor vessel, which burner is preferably positioned horizontal, (b) performing a partial oxidation of the carbonaceous feedstock in said burner to obtain a stream of hot synthesis gas and a liquid slag, (c) cooling the hot synthesis gas by direct contacting with a liquid water-containing cooling medium, (e) performing a water shift reaction on at least part of the synthesis gas, to obtain a synthesis gas effluent, (g) performing an oxygenate synthesis using the synthesis gas effluent of step (e), to obtain a methanol and/or dimethylether containing oxygenate effluent and a first liquid water-rich by-product, (h) converting the oxygenate effluent to an olefin-containing product or a gasoline product and a second liquid water-rich by-product, wherein at least part of the first and/or second liquid water-rich by-product is used in step c), forming at least part of the liquid water-containing cooling medium. | 05-12-2011 |
20120058921 | PROCESS FOR PRODUCING A PURIFIED SYNTHESIS GAS STREAM - A process for producing a purified synthesis gas stream from a feed synthesis gas stream comprising besides the main constituents carbon monoxide and hydrogen also hydrogen sulphide, HCN and/or COS, the process comprising the steps of: (a) removing HCN and/or COS by contacting the feed synthesis gas stream with a catalyst in a HCN/COS reactor in the presence of steam/water, to obtain a synthesis gas stream depleted in HCN and/or in COS; (b) converting hydrogen sulphide in the synthesis gas stream depleted in HCN and/or in COS to elemental sulphur, by contacting the synthesis gas stream with an aqueous reactant solution containing solubilized Fe(III) chelate of an organic acid, at a temperature below the melting point of sulphur, and at a sufficient solution to gas ratio and conditions effective to convert H | 03-08-2012 |
20120128579 | PROCESS TO PREPARE A HYDROGEN RICH GAS MIXTURE - The invention is directed to a process to prepare a hydrogen rich gas mixture from a solid sulphur- and halogen-containing carbonaceous feedstock. The process involves the following steps. Step (a): gasification of the solid carbonaceous feedstock with an oxygen-containing gas to obtain a gas mixture comprising halogen compounds, sulphur compounds, hydrogen and at least 50 vol. % carbon monoxide, on a dry basis. Step (b): contacting the gas mixture with a quench gas or quench liquid to reduce the temperature of the gas mixture to below 900° C. Step (c) contacting the gas mixture with water having a temperature of between 150 and 250° C. to obtain a gas mixture comprising between 50 and 1000 ppm halogen and having a steam to carbon monoxide molar ratio of between 0.2:1 and 0.9:1. Step (d): subjecting the gas mixture obtained in step (c) to a water gas shift reaction wherein part or all of the carbon monoxide is converted with the steam to hydrogen and carbon dioxide in the presence of a catalyst as present in one fixed bed reactor or in a series of more than one fixed bed reactors and wherein the temperature of the gas mixture as it enters the reactor or reactors is between 190 and 230° C. Step (e): carbon dioxide and sulphur compounds are separated from the shifted gas mixture obtained in step (d) by contacting the shifted gas mixture with a solvent comprising dialkyl ethers of polyethylene glycol. | 05-24-2012 |
Patent application number | Description | Published |
20080262812 | Implant Planning Using Captured Joint Motion Information - The description relates to surgical computer systems, including computer program products, and methods for implant planning using captured joint motion information. Data is captured representative of a range of motion of a joint associated with a particular individual, where the joint includes a first bone and a second bone. The first bone of the joint is represented and a first implant model is associated with the representation of the first bone. Based on the captured data, a relationship is determined between the first implant model and a representation of the second bone through at least a portion of the range of motion of the joint. Information is displayed representative of the determined relationship. | 10-23-2008 |
20090209884 | IMPLANT PLANNING USING CORRECTED CAPTURED JOINT MOTION INFORMATION - The description relates to surgical computer systems, including computer program products, and methods for implant planning using corrected captured joint motion information. Data representative of a corrected limb pose at a plurality of poses within a range of motion of a joint associated with a particular individual is captured, the joint comprising a first bone and a second bone, while the first bone, the second bone, or both are subject to a corrective force aligning the first and second bones in a desired alignment. The first bone of the joint is represented. The second bone of the joint is represented. A first implant model is associated with the representation of the first bone. A second implant model is associated with the representation of the second bone. Based on the captured data, a relationship is determined between the first implant model and the second implant model at one or more poses of the plurality of poses within the range of motion of the joint. Information representative of the determined relationship is displayed. | 08-20-2009 |
20090306499 | SELF-DETECTING KINEMATIC CLAMP ASSEMBLY - Described are computer-based surgical methods and apparatuses for a self-detecting kinematic assembly. The self-detecting kinematic clamp assembly detects and indicates a degradation in pose. The self-detecting kinematic clamp assembly includes a tracking element for tracking a pose of the kinematic clamp assembly. The self-detecting kinematic clamp assembly includes a base portion comprising a fixation device that is attachable to a rigid body, and a top portion connected to the tracking element, the top portion being removably connected to the base portion. The self-detecting kinematic clamp assembly includes a detection mechanism, the detection mechanism including three or more contact points between the base potion and top portion and a mechanism that detects movement between one or more of the three or more contact points. | 12-10-2009 |
20090314925 | FIBER OPTIC TRACKING SYSTEM AND METHOD FOR TRACKING - A fiber optic tracking system for tracking substantially rigid object(s) is described. The fiber optic tracking system includes a light source, an optical fiber having a sensing component configured to modify optical signals from the light source, the optical fiber being configured to attach to the substantially rigid object, a detection unit arranged to receive the modified optical signals from the sensing component, and a calculation unit configured to determine a pose of the substantially rigid object in six degrees of freedom based on the modified optical signals. | 12-24-2009 |
20100153076 | IMPLANT PLANNING USING AREAS REPRESENTING CARTILAGE - Described are computer-based methods and apparatuses, including computer program products, for implant planning using areas representing cartilage. A predetermined number of control points for generating a predetermined number of areas representing cartilage are determined, wherein the predetermined number of control points are based on an implant component. Measurements corresponding to a plurality of measured cartilage points are received, wherein each cartilage point is based on an associated control point from the predetermined number of control points. A plurality of areas representing cartilage are generated, wherein each area representing cartilage is larger than and projects to an associated control point from the plurality of control points. A representation of the implant component is positioned based on a representation of a bone, the representation of the bone comprising representations of the plurality of areas representing cartilage. | 06-17-2010 |
20100153081 | IMPLANT PLANNING FOR MULTIPLE IMPLANT COMPONENTS USING CONSTRAINTS - Described are computer-based methods and apparatuses, including computer program products, for implant planning for multiple implant components using constraints. A representation of a bone and a representation of a first implant component are displayed with respect to the representation of the bone. A representation of a second implant component is displayed, wherein the first implant component and the second implant component are physically separated and not connected to each other. A positioning of the representation of the second implant component that violates at least one positioning constraint is prevented, wherein the positioning constraint is based on the representation of the first implant component. | 06-17-2010 |
20100217400 | PROSTHETIC DEVICE, METHOD OF PLANNING BONE REMOVAL FOR IMPLANTATION OF PROSTHETIC DEVICE, AND ROBOTIC SYSTEM - A prosthetic device, method for planning bone removal, and a robotic system for implantation of a prosthetic device in bone are disclosed. The prosthetic device can include a body portion for attachment to a bone, wherein the body portion includes an implantation surface configured to face the bone upon implantation, and a constraint structure. The prosthetic device, method, and robotic system can be configured to cause the constraint structure and bone to interact so as to constrain the prosthetic device in the bone. | 08-26-2010 |
20120310617 | Implant Planning for Multiple Implant Components Using Constraints - Described are computer-based methods and apparatuses, including computer program products, for implant planning for multiple implant components using constraints. A representation of a bone and a representation of a first implant component are displayed with respect to the representation of the bone. A representation of a second implant component is displayed, wherein the first implant component and the second implant component are physically separated and not connected to each other. A positioning of the representation of the second implant component that violates at least one positioning constraint is prevented, wherein the positioning constraint is based on the representation of the first implant component. | 12-06-2012 |
20130150708 | Selectable Orientation Bent Tip Calibration-Free Probe - A probe is provided. The probe may include a shaft portion rotatably attachable to a position sensing device, a nonlinear portion at least partially removed from a center axis of the shaft portion, and a tip disposed at a distal end of the nonlinear portion and positioned on the center axis. The nonlinear portion may be selectably rotatable about the center axis to one of a plurality of rotational orientations. The tip may have a substantially constant position relative to the position sensing device. | 06-13-2013 |
20140188134 | PROSTHETIC DEVICE, METHOD OF PLANNING BONE REMOVAL FOR IMPLANTATION OF PROSTHETIC DEVICE, AND ROBOTIC SYSTEM - A robotic system for preparing a bone to receive a prosthetic device. The robotic system includes a controllable guide structure configured to guide cutting of the bone into a shape for receiving the prosthetic device, and a computer readable medium for storing data representative of the prosthetic device. The prosthetic device includes a body portion having an implantation surface configured to face the bone upon implantation and at least one feature that provides a constraint structure that will constrain the prosthetic device in the bone. The robotic system includes a control system for controlling the guide structure, and is configured to define at least one bone-cutting pattern for (i) removing a first portion of bone in a first area sufficient to seat the body portion and (ii) at least one of removing and maintaining a second portion of bone in a second area configured to interact with the constraint structure. | 07-03-2014 |