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Geers, NL

Henricus Abraham Geers, Rijswijk NL

Patent application numberDescriptionPublished
20090299120PROCESS FOR PRODUCING PURIFIED GAS - Process for producing purified hydrocarbon gas from a gas stream comprising methane and acidic contaminants, which process comprises the steps of cooling the gas stream in a first cooling stage to a first temperature to form a first mixture of solid and/or liquid acidic contaminants and a vapour containing gaseous hydrocarbons and a reduced amount of acidic contaminants; separating the solid and/or liquid acidic contaminants from the first mixture, yielding partly purified gas; cooling the partly purified gas in a second cooling step to a second temperature to form a second mixture comprising purified hydrocarbon gas and further solid and/or liquid acidic contaminants; and separating the further solid and/or liquid acidic contaminants from the second mixture, yielding the purified hydrocarbon gas.12-03-2009
20090299122PROCESS FOR PRODUCING A PURIFIED HYDROCARBON GAS - Process for producing purified hydrocarbon gas from a gas stream comprising methane and acidic contaminants, which process comprises the steps cooling the gas stream by expansion to form a mixture comprising solid and/or liquid acidic contaminants and a vapour containing gaseous hydrocarbons and a reduced amount of acidic contaminants; separating the solid and/or liquid acidic contaminants from the first mixture, yielding partly purified gas; compressing the partly purified gas; and contacting the compressed partly purified gas with an absorbing liquid to yield the purified hydrocarbon gas.12-03-2009
20110009684MULTI-STAGE MEMBRANE SEPARATION PROCESS - The invention concerns a process for the removal of gaseous acidic contaminants, especially carbon dioxide and/or hydrogen sulphide, in two or more stages from a gaseous hydrocarbonaceous feedstream (01-13-2011
20110041687MULTI-STAGE MEMBRANE SEPARATION PROCESS - The invention concerns a process for the removal of gaseous acidic contaminants, especially carbon dioxide and/or hydrogen sulphide, in two or more stages from a gaseous hydrocarbonaceous feedstream (02-24-2011
20110094264PRODUCING PURIFIED HYDROCARBON GAS FROM A GAS STREAM COMPRISING HYDROCARBONS AND ACIDIC CONTAMINANTS - Process for producing purified hydrocarbon gas from a gas stream comprising hydrocarbons and acidic contaminants, which process comprises the steps: (a) cooling the gas stream to a temperature to form a mixture comprising solid and optionally liquid acidic contaminants and a vapour containing gaseous hydrocarbons; (b) separating the solid and optionally liquid acidic contaminants from the mixture in a vessel, yielding the purified hydrocarbon gas; (c) providing heat to at least a part of the solid and optionally liquid acidic contaminants to melt at least part of the solid acidic contaminants, yielding a heated contaminant-rich stream; (d) withdrawing the heated contaminant-rich stream from the vessel; wherein the process further comprises: (e) reheating at least a part of the heated contaminant-rich stream to form a reheated recycle stream; and (f) recycling at least a part of the reheated recycle stream to the vessel.04-28-2011
20110132034TWO STAGE PROCESS FOR PRODUCING PURIFIED GAS - The present invention provides a process for producing purified gas from a feed gas stream comprising methane and gaseous contaminants, the process comprising the steps of: 1) providing the feed gas stream; 2) cooling the feed gas stream to a temperature at which at least part of the feed gas stream is present in the liquid phase; 3) separating the cooled feed gas stream by means of cryogenic distillation into a bottom stream rich in contaminants and lean in methane, and into a top stream rich in methane and lean in gaseous contaminants, in which the bottom stream contains between 0.5 and 15% of the methane present in the feed gas stream; 4) cooling the stream rich in methane to a temperature at which solid and/or liquid phase contaminants are formed; 5) introducing the cooled stream of step 4) into a gas/liquid/solids separation vessel, and 6) removing from the gas/liquid/solids separation vessel the purified gas and a stream rich in contaminants.06-09-2011

Jeroen Geers, Hoogerheide NL

Patent application numberDescriptionPublished
20080281130PROCESS FOR PRODUCING BISPHENOL A WITH AN EXTENDED SERVICE LIFE IN THE CRYSTALLISATION - The invention describes a process for producing bisphenol with a content of less than 15 wt. % of phenol, wherein a suspension crystallisation of a product mixture containing bisphenol A, minor components and phenol is performed in a crystalliser, the product mixture being pumped through a heat exchanger. Due to deposition (fouling, i.e. crystallisation and deposition on the surface of the heat exchangers) in the heat exchanger, the pressure difference increases from 0.5 to 3 bar across the heat exchanger. The resulting reduced flow rate, which would lead to increased fouling in the crystalliser, is offset by continuously increasing the speed of the pump, the pump speed being regulated in such a way that the current consumption of the pump is maintained such that it fluctuates by a maximum of 5%.11-13-2008

Leonard Ferdinand Gerard Geers, Valkenburg NL

Patent application numberDescriptionPublished
20100014060LITHOGRAPHIC APPARATUS, A METROLOGY APPARATUS AND A METHOD OF USING THE APPARATUS - A lithographic projection apparatus is disclosed that comprises a substrate table, a projection system, a liquid confinement structure and a thermal measurement system. The substrate table is configured to support a substrate. The projection system is configured to direct a patterned beam of radiation on to a target portion of the substrate. The liquid confinement structure is configured to at least partly confine an immersion liquid to a space between the projection system and the substrate, the substrate table, or both. The thermal measurement system comprises a thermally sensitive coating. The thermal measurement system is configured to detect the temperature of the immersion liquid in contact with the coating. Also disclosed is a thermal measurement system, a metrology system comprising the thermal measurement system and a dummy wafer for the thermal measurement system.01-21-2010

Leon Ferdinand Gerard Geers, Valkenburg NL

Patent application numberDescriptionPublished
20110000624MULTIPLE CONNECTED CHANNEL MICRO EVAPORATOR - The invention relates to an evaporator for evaporating a liquid containing fluid, having an inlet and an outlet connected to a evaporation volume, the inlet and the outlet defining a main flow path there between, wherein the evaporation volume is equipped with an internal structure and the cross-section of the evaporation volume is substantially constant along the main flow path. The invention further relates to a method for evaporating a liquid containing fluid comprising the steps of: providing an evaporator according to the invention; supplying a liquid containing feed stream to the inlet of the evaporator; exerting heat to the evaporator volume; choosing the operating conditions of the evaporator thus that an annular flow is created within the evaporator volume.01-06-2011
20110087447FLUID FLOW METER USING THERMAL TRACERS - Fluid flows through a conduit. To measure flow speed the fluid is heated at a heating location in the conduit with a time-dependent heating strength. A speed of sound in fluid flowing in the conduit is measured at a plurality of sensing locations downstream from said heating location. The flow speed of the fluid is determined from a delay with which the time dependence is detected in the sound speeds measured at said sensing locations. In an embodiment a frequency of the variation of heating strength that is used to determine the flow speed is selected automatically dependent on the flow speed and/or other circumstances.04-14-2011