Patent application number | Description | Published |
20080289502 | Cyclonic Separator and Method for Degassing a Fluid Mixture - A method and cyclonic separator are disclosed for degassing a fluid mixture comprising a carrier liquid and one or more gaseous and/or vaporizable components, wherein: —the fluid mixture is accelerated in a throat section ( | 11-27-2008 |
20090031756 | Method and System for Cooling a Natural Gas Stream and Separating the Cooled Stream Into Various Fractions - A method for cooling a natural gas stream (C | 02-05-2009 |
20090205488 | CYCLONIC LIQUID DEGASSING SEPARATOR AND METHOD FOR DEGASSING A FLUID MIXTURE - A method and cyclonic separator are disclosed for degassing a fluid mixture comprising a carrier liquid and gaseous and/or vaporizable components, wherein: the fluid mixture is accelerated in a throat section ( | 08-20-2009 |
20100147021 | FLUID SEPARATOR COMPRISING A CENTRAL BODY - The invention relates to fluid separator comprising: —a throat portion ( | 06-17-2010 |
20100319533 | CYCLONIC FLUID SEPARATOR - A cyclonic fluid separator has a tubular housing ( | 12-23-2010 |
20110016917 | METHOD OF REMOVING AND SOLIDIFYING CARBON DIOXIDE FROM A FLUID STREAM AND FLUID SEPARATION ASSEMBLY - The invention relates to a method of removing carbon dioxide from a fluid stream by a fluid separation assembly. The fluid separation assembly has a cyclonic fluid separator with a tubular throat portion arranged between a converging fluid inlet section and a diverging fluid outlet section and a swirl creating device. The separation vessel has a tubular section positioned on and in connection with a collecting tank. In the method, a fluid stream with carbon dioxide is provided. Subsequently, a swirling motion is imparted to the fluid stream so as to induce outward movement. The swirling fluid stream is then expanded such that components of carbon dioxide in a meta-stable state within the fluid stream are formed. Subsequently, the outward fluid stream with the components of carbon dioxide is extracted from the cyclonic fluid separator and provided as a mixture to the separation vessel. The mixture is then guided through the tubular section towards the collecting tank while providing processing conditions such that solid carbon dioxide is formed. Finally, solidified carbon dioxide is extracted. | 01-27-2011 |
20110123736 | ICE-PHOBIC COATING AND USE THEREOF - The invention pertains to a method for reducing gas hydrate adhesion to the interior surface of a conduit and associated equipment transporting or processing a fluid stream in oil and gas exploration and production, petroleum refining and/or petrochemistry, by providing the conduit interior surface with a coating layer exhibiting a static contact angle of the sessile water drop on the coating layer in air higher than 75° at ambient air conditions, as measured according to ASTM D7334-08, wherein said coating layer comprises diamond like carbon (DLC) comprising fractions of one or more components selected from the group consisting of silicon (Si), oxygen (O) and fluor (F). | 05-26-2011 |
20110146216 | CYCLONIC SEPARATOR WITH A VOLUTE OUTLET DUCT - The invention relates to a cyclonic separator comprising a throat portion ( | 06-23-2011 |
20110185633 | SYSTEM AND METHOD FOR REMOVING HYDROGEN SULFIDE FROM A NATURAL GAS STREAM - A refining system for refining a feed gas comprising hydrocarbons and hydrogen sulfide having a first concentration of hydrogen sulfide includes a first part for producing a stream of a first processed feed gas, a second part for producing a second stream of a second processed feed gas from the stream of the first processed feed gas using a separation process for H2S removal. The second part includes a cyclonic separator ( | 08-04-2011 |
20120017638 | METHOD OF REMOVING CARBON DIOXIDE FROM A FLUID STREAM AND FLUID SEPARATION ASSEMBLY - The invention relates to a method of removing carbon dioxide from a fluid stream by a fluid separation assembly. The fluid separation assembly has a cyclonic fluid separator with a tubular throat portion arranged between a converging fluid inlet section and a diverging fluid outlet section and a swirl creating device. The separation vessel has a tubular section positioned on and in connection with a collecting tank. In the method, a fluid stream with carbon dioxide is provided. Subsequently, a swirling motion is imparted to the fluid stream so as to induce outward movement. The swirling fluid stream is then expanded such that components of carbon dioxide in a meta-stable state within the fluid stream are formed. Subsequently, the outward fluid stream with the components of carbon dioxide is extracted from the cyclonic fluid separator and provided as a mixture to the separation vessel. The mixture is then guided through the tubular section towards the collecting tank while providing processing conditions such that solid carbon dioxide is formed. Finally, solidified carbon dioxide is extracted. | 01-26-2012 |
20120024690 | MULTISTAGE CYCLONIC FLUID SEPARATOR - The invention relates to a cyclonic fluid separator comprising a throat portion ( | 02-02-2012 |
20120090467 | SEPARATION SYSTEM COMPRISING A SWIRL VALVE - The invention relates to a separation system comprising a flow inlet ( | 04-19-2012 |
20120285546 | TAPERED THROTTLING VALVE - The invention relates to a throttling valve comprising a fluid inlet ( | 11-15-2012 |
20120297742 | CYCLONIC FLUID SEPARATOR - A cyclonic fluid separator has a tubular housing ( | 11-29-2012 |
20130192296 | Refining system and method for refining a feed gas stream - A refining system for refining a feed gas ( | 08-01-2013 |
20130337166 | METHOD OF FORMING ICE-PHOBIC COATING - The present invention relates to a method for reducing gas hydrate adhesion to the interior surface of a conduit and associated equipment transporting or processing a fluid stream in oil and gas exploration and production, petroleum refining and/or petrochemistry, by providing the conduit interior surface with a coating layer exhibiting a static contact angle of the sessile water drop on the coating layer in air higher than 75° at ambient air conditions, as measured according to ASTM D7334-08, wherein said coating layer comprises diamond like carbon (DLC) comprising fractions of one or more components selected from the group consisting of silicon (Si), oxygen (O) and fluor (F). | 12-19-2013 |