Class / Patent application number | Description | Number of patent applications / Date published |
096156000 | With control means responsive to sensed condition | 31 |
20090038478 | ANTI-FOAMING DEGASSING DEVICE FOR USE IN FUEL DISPENSING EQUIPMENT, PARTICULARLY IN BIOFUEL DISPENSING EQUIPMENT - “An anti-foaming degassing device for use in fuel dispensing equipment, particularly in biofuel dispensing equipment” | 02-12-2009 |
20100218682 | Oil Separating Device, Especially for Crankcase Venting in an Internal Combustion Engine - An oil separating device is provided with a first and a second separator element that are arranged parallel to one another and are positioned in a separate first and a second flow path, respectively. The oil/air stream to be cleaned is alternatingly introduced into the first flow path with the first separator element or into the second flow path provided with the second separator element. | 09-02-2010 |
20110011267 | AIR POLLUTION CONTROL APPARATUS - An air pollution control apparatus | 01-20-2011 |
20110139010 | Oil Separator - The present invention relates to an oil separator for separating oil and/or oil mist from a gas. An optimum separation performance is hereby achieved with normal volume flow of the gas (A) but also in the case of an increased volume flow (A) or a blockage of the oil separator, the ventilation for example of a crankcase is ensured and observance of a maximum pressure loss is ensured. For this purpose, two oil separation elements ( | 06-16-2011 |
20120006200 | SYSTEM FOR ACID GAS REMOVAL - A gas purification system including a hydrogen sulfide (H | 01-12-2012 |
20160184739 | MULTIPHASE PUMPING DEVICE - This invention relates to a multiphase pumping device comprising a pump suitable for pumping a pumping fluid, a recycle circuit and at splitter tank. The splitter tank is connected to an area downstream of the pump and is suitable for separating a liquid phase and a gaseous phase using pumping fluid. In addition, the recycle circuit is connected to the splitter tank and is suitable for enabling the flow of the liquid phase from the splitter tank to an area upstream of the pump. | 06-30-2016 |
096157000 | With liquid level sensing means | 13 |
20090165653 | Apparatus for Gasifying and Separating a Liquid Medium or the Like - To provide an apparatus for gasifying and separating a liquid medium, which is of an automatic type and which can be increased in size. | 07-02-2009 |
20100229726 | Liquid Material Supplying Apparatus and Liquid Material Supplying Method - In order to apply a liquid material including a small number of bubbles, in particular almost no bubbles larger than a predetermined size, a liquid material supplying apparatus includes: a pressure tank applying a positive pressure higher than the atmospheric pressure to the liquid material; a syringe having a nozzle for discharging the liquid material; and a liquid path member forming a liquid path leading the liquid material from the pressure tank to the syringe; a valve member which is provided on the liquid path member and which opens/closes the liquid path; a bubble defoaming filter which is provided on the liquid path member between the syringe and the valve member and which removes bubbles from the liquid material lead in the liquid path member; and a pressure applying mechanism which starts/stops discharging the liquid material from the nozzle by selectively applying a first pressure higher than the atmospheric pressure and a second pressure lower than the first pressure. | 09-16-2010 |
20110072975 | SEPARATION AND CAPTURE OF LIQUIDS OF A MULTIPHASE FLOW - Assembly to separate a multiphase flow, comprising at least one compact separation unit chosen among an in-line deliquidiser and an in-line phase splitter, said compact separation unit is arranged to receive the multiphase flow for separation therof to a gas flow and a mainly liquid containing flow, an outlet for gas, arranged to receive the gas flow from the compact separation unit and possible additional gas flows, one or more conduit separators, arranged to receive the mainly liquid containing flow from the compact separation unit and any additional liquid containing flows, having an outlet for liquid from the at least one conduit separator in a low-lying part thereof. | 03-31-2011 |
20130340622 | CYCLONIC FLOW SEPARATOR - A separator of a mixture of liquid and gas, comprising an injection device, a separation chamber having a cylindrical internal surface and extending along a vertical axis, and a control chamber. The mixture is separated in the separation chamber into gas and liquid, with a cylindrical interface surface. The separation chamber comprises a first axial outlet for extracting the gas, a second outlet for extracting the liquid, and a third axial outlet in communication with the control chamber. The interface surface has, in normal operating conditions, a diameter lying between the diameter of the first outlet and the diameter of the third outlet. The control chamber is connected to the injection device by a return circuit. | 12-26-2013 |
20140196607 | HEAT EXCHANGE IN FLUID DEGASSING - In one variation, a temperature-maintenance device includes a heater ( | 07-17-2014 |
20160008742 | ALLOCATION MEASUREMENT SYSTEMS AND METHODS | 01-14-2016 |
20160166751 | DEGASSING SYSTEM FOR DIALYSIS | 06-16-2016 |
096158000 | Separator inlet or outlet valve responsive to float level | 6 |
096165000 | Gas outlet valve responsive to float level | 4 |
20110107915 | HYDRONIC SYSTEM AIR ELIMINATOR - An air eliminator including a housing having first and second portions, the housing defining: a chamber, an inlet in fluid communication with the chamber; an outlet in fluid communication with the chamber; and an axis extending from the first portion to the second portion, a float assembly connected to the first portion of the chamber for releasing air from the chamber, and degassing disks stacked within the chamber along an axis, wherein each disk includes a plurality of rings such that the degassing disks cause micro gas pockets in water passing through the chamber to combine into relatively large and buoyant air pockets that collect and pass along the axis to the float assembly for release. | 05-12-2011 |
20130118356 | SOLIDS SEPARATOR - A sedimentation separator for separating solid fractions from a mixture consisting of air, liquid and solids fractions comprises a sedimenting vessel to which an air-separating unit is connected upstream. In an intermediate vessel arranged between the air-separating unit and sedimenting vessel there is arranged a float which closes off an air duct when the level of sediment in the sedimenting vessel has reached a predetermined height. Liquid purified by sedimentation is suctioned off from the upper end of the sedimenting vessel by means of a jet pump. | 05-16-2013 |
20140109769 | Device for Separating Air and Vapor from Liquids - A device for separating air and vapor from liquids has a hollow substantially vertical housing, an inlet provided in the housing for introducing a liquid which contains air and vapor, first outlet for withdrawing from the housing the liquid after separation of air and vapor therefrom and located in a lower area of the housing, a second outlet for withdrawing from the housing the air and vapor separated from the liquid and located in an upper area of the housing, and a separating grate located above the first outlet and intensifying the separation of the air and vapor from the liquid. | 04-24-2014 |
096166000 | And pressure sensing means | 1 |
20100101423 | APPARATUS FOR DEGASSING OIL - An apparatus for degassing oil comprising:—a room ( | 04-29-2010 |
096168000 | Liquid outlet valve responsive to float level | 2 |
20140144327 | APPARATUS FOR SEPARATING SPENT DRILLING MATERIALS - This disclosure is related to an apparatus for automatically separating spent drilling materials from air drilling operations. The apparatus includes a reservoir, a spent materials inlet, and a drill cuttings outlet. The apparatus also includes either a float system or a load cell system to actuate the drill cuttings outlet when the spent drilling materials reach a predetermined amount in the reservoir. | 05-29-2014 |
096169000 | And pressure sensing means | 1 |
20130247763 | SULFUR SEAL DEVICE - Embodiments of the invention are directed to a sulfur trap comprising an inlet, a first chamber, a divider, a second chamber, an outlet, and a float assembly. The float assembly may have many different configurations, but generally comprises a float and plug, is configured to float within liquid sulfur, and is operatively coupled to a seal seat in the divider for sealing and unsealing the first chamber from the second chamber. Generally, only liquid sulfur is allowed to pass from the first chamber into the second chamber. However, the sulfur trap may be configured to allow for pressure relief, such that during an overpressure event the plug and seal seat disengage and allow the liquid-gas mixture to flow into the second chamber to prevent damage within the system. In some embodiments a filter and/or the flow of liquid sulfur is directed to collect debris from the liquid sulfur. | 09-26-2013 |
096173000 | With temperature sensing means | 1 |
20110139011 | AUTOMATIC AIR DEHYDRATOR WITH OFFSITE DATA MANAGEMENT - An air dehydrator system for supplying a source of dehydrated air includes an offsite data management system; at least one data network; and an air dehydrator located remote from the offsite data management system. The dehydrator includes a housing containing at least one drying canister; a pressurized air source; and a control circuit coupled with the pressurized air source. The control circuit is also in communication via the at least one data network with the offsite data management system. The control circuit controls operation of the pressurized air source dependent upon control by the offsite data management system. | 06-16-2011 |
096174000 | With pressure sensing means | 11 |
20090064863 | Tempering Device - A tempering device for tempering a consumption device comprises a tempering circuit in which a tempering liquid can be circulated by a pump P, and a ventilation device which is disposed in the tempering circuit, by means of which a gas contained in the tempering liquid can be separated therefrom. In order to degas the tempering liquid as quickly as possible, the ventilation device comprises a flow divider in the form of a gravity separator which is disposed in the tempering circuit upstream of the pump, and a ventilation tank which is connected to the gravity separator via a ventilation line. A partial flow of the tempering liquid that flows in the tempering circuit is supplied to the ventilation tank via the ventilation line, wherein a feedback line is additionally provided between the ventilation tank and the tempering circuit, through which tempering liquid that collects in the ventilation tank is returned to the tempering circuit. | 03-12-2009 |
20090120296 | BUBBLE SEPARATOR - A bubble separator is a cyclone-type bubble separator having a cooling mechanism (oil cooler) connected downstream thereof, and is provided with a relief mechanism that operates when the interior pressure in a main body increases. The fluid inside the main body escapes downstream of the cooling mechanism due to the operation of the cooling mechanism. In particular, preferably the relief mechanism is provided in a gas discharge portion that is connected to the main body. | 05-14-2009 |
20090126574 | MOISTURE SEPARATION HEATER - A hygroscopic moisture separating and heating apparatus ( | 05-21-2009 |
20100101424 | DEVICE AND METHOD FOR WET TREATING DISC-SHAPED ARTICLES - In a spin-chuck with plural collector levels, a separate exhaust controller is provided for each level. This permits selectively varying gas flow conditions among the collector levels, so that the ambient pressure at one level does not adversely affect device performance in an adjacent level. | 04-29-2010 |
20100242736 | PRESSURE-BASED DISSOLVED GAS REMOVAL SYSTEM - A fuel gas removal system includes a venturi for reducing a pressure of the fuel, a bubble separator containing media to assist in the formation of gas bubbles within the fuel to separate the gas bubbles from the fuel, and a port to remove gas bubbles created by the reduction of pressure of the fuel and the bubble separator. | 09-30-2010 |
20120125201 | SEPARATOR TANK FOR SEPARATING OIL AND GAS FROM WATER - A separator tank ( | 05-24-2012 |
20120132079 | SEPARATOR TANK FOR SEPARATING OIL AND GAS FROM WATER - A separator tank ( | 05-31-2012 |
20120137888 | SEPARATOR TANK FOR SEPARATING OIL AND GAS FROM WATER - A separator tank ( | 06-07-2012 |
20130139694 | SEPARATOR ASSEMBLY - A separator assembly comprises a vertical vessel including a fluid inlet for receiving a fluid including a gas, at least two liquids, and solids, at least two liquid outlets for discharging the liquids, a gas outlet at an upper end thereof for discharging gas, and a solids outlet at a lower end thereof for discharging solids. A baffle plate extends across the vessel, and cooperates with the vessel to define an upper section and a lower section, and has a first conduit extending downwardly so that liquids and solids may flow into the lower section, and a second conduit extending upwardly so that gases may flow from the lower section to the upper section. A backpressure valve is in fluid communication with the gas outlet and is configured to discharge gas while maintaining a selected level of pressure inside the vessel. | 06-06-2013 |
20140000459 | DEVICE FOR SEPARATING MEDIA | 01-02-2014 |
20150343672 | DEVICE FOR DEGASSING POLYMER MELTS - An improved device for degassing polymer melts is characterised by, inter alia, the following features: the at least one vacuum separator comprises cooling pipes extending parallel to each other in the tank interior of the vacuum separator housing, the cooling pipes are double-walled, the cooling pipes end at a distance above a collection chamber or above the tank bottom of the vacuum separator housing, and a cleaning device having a scraper or a wiper is provided, said cleaning device being adapted to the cross-sectional shape of the cooling pipes and preferably to the course of the inner wall of the vacuum separator housing and being movable at least in a partial height at least to the lower end of the cooling pipes. | 12-03-2015 |