Patent application number | Description | Published |
20100129269 | COLLECTING MAIN FOR TUBULAR CRACKING FURNACES - Collecting line for removing hot process gases conducted in process gas tubes from tubular reformers, wherein the collecting line has on the inside at least one insulation layer made of fire-resistant concrete or fire-resistant brick, and on the outside a wall made of a metallic outer tube, comprises a plurality of stubs via which the process gas tubes of the tubular furnace can be connected to the collecting line, wherein in the region of the stubs, the process gas tubes are at least in part conducted in guide tubes, and each gas outlet connected to the respective process gas tube projects into the collecting line, by means of which the process gas is introduced into the collecting line in correct functioning, and at least one gas outlet is constructed as a pipe bend. | 05-27-2010 |
20100193741 | PRIMARY REFORMER WITH SECONDARY INLET CHANNELS SUPPLYING THE BURNER - The invention relates to a reactor for catalytic reformation of hydrocarbons with steam at elevated pressure, said reactor comprising a reaction space and a fire space, said reaction space comprised of a multitude of vertical tubes arranged in rows and suitable for being filled with a catalyst, and having facilities for feeding hydrocarbons and steam to be reformed to the reaction space, and furthermore comprising facilities for discharge of reformed synthesis gas from the reaction space, and furthermore comprising a multitude of firing facilities in the upper area of the firing space, said firing facilities being able to generate mainly downwardly directed flames that are suitable to heat the aforementioned reaction tubes, with the tube feeding air to the burner being equipped with a facility for adjusting and setting the air flow, and there being a secondary air feeder mounted additionally to this tube and branching-off from it and configured in various layouts and having an independently controllable facility for adjusting and setting the air flow and also feeding air to the firing device so that a more favorable ratio of fuel gas versus air results at the burners so as to be able to achieve a waste gas poor in nitric oxides. | 08-05-2010 |
20120126177 | PRIMARY REFORMER FOR REDUCED NITRIC OXIDE FORMATION - A method is disclosed for catalytic primary reformation of hydrocarbons with steam at elevated pressure by means of a split tube reactor and a firing chamber. In the split tube system which can use a catalyst material, hydrocarbons to be reformed are converted by water steam to synthesis gas. The split tube system is heated by a plurality of firing facilities between the split tubes which include a plurality of burners arranged in series, the burners generating mainly downwardly directed flames. The relevant firing facilities are supplied with fuel and air, with the air being withdrawn from the relevant feeders. The flue gas thus evolving passes through the firing chamber from top to bottom and enters in the lower area of the firing chamber into horizontally arranged ceramic flue gas tunnels extending in parallel to each other and perpendicular to the vertical split tubes and being allocated to one firing facility each. The flue gas enters through apertures in the lateral walls of the flue gas tunnels. The flue gas at the exit of the firing chamber is passed into heat recovery devices. In each flue gas tunnel an additional gas is fed into the tunnel's front side, in flue gas flow direction, wherein the gas containing oxygen and a non-combustible gas, so that the additional gas passes the flue gas tunnels over the entire length of the firing chamber. The volume of the additional gas passed into the flue gas tunnels is regulated. | 05-24-2012 |
20140314631 | TRANSPORTABLE REFORMER - Disclosed is a transportable reformer for the catalytic primary reforming of hydrocarbons using steam at elevated pressure, comprising a reforming tube system, a furnace disposed about the reforming tube system, a plurality of manifolds in communication with the reformer tubes, a plurality of flue gas tunnels disposed beneath and in gaseous communication with the furnace, wherein each of the manifolds is integrally coupled to, disposed between, and supported by the opposing outer walls of an adjacent pair of flue gas tunnels such that the reformer is configured to be transportable as a single unit without additional support structures. | 10-23-2014 |
Patent application number | Description | Published |
20080208212 | Arrangement for supporting a percutaneous intervention - The invention relates to an arrangement for assisting a percutaneous intervention, comprising an imaging system for tomographic imaging, a robot registered therewith and devices for capturing movements of the patient. A processing unit registers a 4D image dataset recorded before the intervention with a 2D or 3D image dataset of the patient which was recorded immediately before the intervention by the imaging system at a defined respiratory position. From this image data, the access path is transmitted to the robot as a function of the movements captured during recording the 4D image dataset and registration, said robot in turn, depending on the instantaneous movement data, holding the instrument on a predetermined target path and preventing the instrument from being advanced by the person if and as long as the instantaneous movement data does not match the previously recorded movement data. The arrangement reduces the risk of puncture errors. | 08-28-2008 |
20080292046 | Bronchopulmonary medical services system and imaging method - A bronchopulmonary medical services system is provided in order to offer medical services to a patient in a single location. In one aspect, the system is provided with a patient alignment device and a C-arm imaging device. A medical services suite may be equipped with various medical service devices such that the patient receives medical services in a single location. | 11-27-2008 |
20080292049 | Device for obtaining perfusion images - A system and method for obtaining perfusion images is disclosed. The system and method includes hardware and software for determining physiological characteristics of a patient and determining imaging parameter values for an imaging modality based on the patient's physiological characteristics. The system also includes a controller operative to receive the imaging parameter values for controlling an X-ray device. The X-ray device is coupled with the controller and acquires projection images of the patient, and outputs the projection images to a perfusion evaluation computer for evaluating the perfusion of an region of interest represented in the projection images. The perfusion rate of the region of interest is then output to an output device, such as a display or printer. | 11-27-2008 |
20090082784 | Interventional medical system - The invention relates to an interventional medical diagnosis or therapy system comprising: an imaging device, which is embodied for recording 3D images of an object under examination, with a control unit and an image processing unit; an at least two-axis robot arm, having means for yield control of the robot arm and a robot control unit for control of the robot arm; an instrument holder, which is connected to the robot arm, for holding an instrument; a position detection device, by means of which the position of the instrument is able to be detected for the robot control unit. The robot arm is embodied to yield to system-external force effects or to follow a system-external guidance. | 03-26-2009 |
20100114289 | Method and associated device for positioning a stent deployed to support a vessel - A method for positioning a stent able to be deployed to support a vessel in a blood vessel, especially in the cardiology, with the stent after its provisional placement in a not yet deployed state in an area intended for the support of the vessel, being at least partly automatically deployed as a function of at least one triggering signal for final positioning in the blood vessel. | 05-06-2010 |
Patent application number | Description | Published |
20090287066 | METHOD FOR MINIMALLY INVASIVE MEDICAL INTERVENTION - A workflow for a minimally invasive intervention, such as a treatment for a cancerous tumor, includes positioning a patient at a multi-functional imaging apparatus, obtaining pre-interventional images of the anatomy of the patient using a computed tomography or angiography imaging function, performing the minimally invasive intervention while the patient is positioned at the multi-functional imaging apparatus and while using a fluoroscopic imaging function, and performing a post-interventional imaging of the patient's anatomy while the patient is positioned at the multi-functional imaging apparatus using the computed tomography or angiographic imaging function. If the post-interventional imaging determines that additional intervention is in order, the additional intervention is performed while the patient is positioned at the imaging apparatus. Pre-intervention images and data sets from other sources may be combined with or used during the intervention. A treatment planning step may be included following the pre-interventional imaging and the intervention. | 11-19-2009 |
20110282193 | METHOD AND APPARATUS FOR SELECTIVE INTERNAL RADIATION THERAPY PLANNING AND IMPLEMENTATION - In a method and system for planning and implementing a selective internal radiation therapy (SIRT), the liver volume and the tumor volume are automatically calculated in a processor by analysis of items segmented from images obtained from the patient using one or more imaging modalities, with the administration of contrast agent. In the processor, the volume of therapeutic agent that is necessary to treat the tumor is automatically calculated from the liver volume, the tumor volume, and the body surface area of the patient and the lung shunt percentage for the patient. The segmented tumor, as well as segmented feeder vessels are overlaid on a live fluoroscopic image of the patient during SIRT, to assist in positioning a catheter for administering the therapeutic agent, which is then administered according to the calculated volume. The therapeutic agent can be administered via respective feeder vessels in respectively different amounts that correspond to the percentage of blood supply to the tumor from the respective feeder vessels, this distribution also being automatically calculated by analysis of one or more parenchymal blood volume (PBV) images. | 11-17-2011 |
Patent application number | Description | Published |
20090003521 | Optimized clinical workflow for combined 2D/3D morphological and functional coronary interventions using a robotic angiography system - A method of optimized diagnosis and treatment of suspected myocardial infarctions is described. The patient having possible coronary artery disease is transferred to a treatment room with an imaging modality suitable for obtaining computed tomographic (CT)-like images. Such images are obtained as radiographic image data, with or without contrast agent, and used in the medical diagnosis. If minimally invasive therapy such as percutaneous transluminal coronal angioplasty (PTCA) is indicated, the patient is prepared for the procedure in the same room, and the procedure performed, where the imaging modality is used to obtain fluoroscopic images to guide the PTCA procedure, or to assess the results of the procedure. The imaging modality may be mounted to a first positioning robot, and a second robot may facilitate the positioning or movement of the patient. | 01-01-2009 |
20090024025 | System and method for performing at least one of a vertebroplasty procedure, a kyphoplasty procedure, an electroencephalography (EEG) procedure and intraoperative electromyography (EMG) procedure using a robot-controlled imaging system - In at least one embodiment, the present application is directed to a method. The method includes performing at least one of a vertebroplasty procedure, a kyphoplasty procedure, an electroencephalography (EEG) procedure and intraoperative electromyography (EMG) on a patient, and using an imaging system including at least an x-ray source and detector to image at least a portion of the patient during performance of at least a portion of the at least one of a vertebroplasty procedure, a kyphoplasty procedure, an electroencephalography (EEG) procedure and intraoperative electromyography (EMG), the imaging system being arranged on a robot including at least four, preferably six axes of rotation. In at least one embodiment, a method includes imaging, using an imaging system including at least an x-ray source and detector, at least a portion of a patient during at least a portion of at least one of a vertebroplasty procedure, a kyphoplasty procedure, an electroencephalography (EEG) procedure and intraoperative electromyography (EMG). The imaging system is arranged on a robot including at least four, preferably six axes of rotation. In at least one further embodiment of the present application, an x-ray system is disclosed. The x-ray system includes an imaging system including an x-ray source and an x-ray detector; a table; and at least two robots. The table is movable by the at least one robot and the at least one other robot includes at least four, preferably six axes of rotation and controls movement of the imaging system. | 01-22-2009 |
20090192385 | Method and system for virtual roadmap imaging - A system and method of producing virtual roadmap image of a patient is described. CT-like image data may be obtained for a patient, with or without a contrast agent, and differenced so as to form a roadmap mask. The roadmap mask is in the form of a 2-dimensional digitally reconstructed radiograph from the same orientation as that of a fluoroscopic X-ray device which takes real-time images of the patient during treatment. The fluoroscopic image may be subtracted from the roadmap mask so as to more clearly visualize the position of a catheter introduced into the patient for treatment. When the orientation of the fluoroscopic image is changed during the course of treatment, the roadmap mask image for the corresponding orientation is used. | 07-30-2009 |
20090198093 | System and method for combined embolization and ablation therapy - A system and method of treating cancerous tissues using a combination of embolization and ablation therapies is described. An imaging device is used to determine the tissue volume to be treated, and the steps of embolization and ablation are performed while the patient remains on a treatment table. The embolization treatment may be combined with chemotherapy directly administered to the tumor. The position of the volume to be treated is visualized by the imaging device to monitor the progress of the treatment and to guide ablation treatment so as to mitigate collateral tissue damage. The imaging device may be a C-arm X-ray device, a MRI device, an acoustic device or other device capable of producing CT-like images. | 08-06-2009 |
20090240154 | COMBINED OCT CATHETER DEVICE AND METHOD FOR COMBINED OPTICAL COHERENCE TOMOGRAPHY (OCT) DIAGNOSIS AND PHOTODYNAMIC THERAPY (PDT) - In a catheter device and a method for in vivo activation of a photosensitizing drug in a vessel, endovascular tissue, and/or intraluminal tissue, a catheter carrying both an optical coherence tomography (OCT) lens, from which OCT imaging light is emitted, and a photodynamic therapy (PDT) lens from which photosensitizing drug-activating light is emitted, is inserted into a vessel containing a lesion to be treated. A photosensitizing drug is caused to be placed in the vessel as well, such as in the form of a coating on a stent or a coating on an exterior of a balloon carried by the catheter. Light is emitted from the PDT lens to activate the photosensitizing drug while light is simultaneously emitted from the OCT lens to obtain an OCT image to monitor the drug activation. | 09-24-2009 |