Abstract: Disclosed are uses and methods for mitigating halite deposition in gas wells and other underground systems. An embodiment is the use of a composition for mitigating halite deposition in gas wells, wherein the composition comprises ferri-meso-tartrate (Fe-mTa).

Abstract: An apparatus comprising at least one sealing aperture (40) comprising a hollow part (41), having an inner surface (42), extending at an interface between different zones (50;60) of the apparatus; and a member (43) positioned in the hollow part configured to substantially transmit EUV radiation and to substantially filter non-EUV radiation at the interface; wherein the inner surface of the hollow part has a surface treatment configured to increase absorption of the non-EUV radiation that is transferred by the member to the hollow part.

Abstract: An apparatus comprising at least one sealing aperture (40) comprising a hollow part (41), having an inner surface (42), extending at an interface between different zones (50;60) of the apparatus; and a member (43) positioned in the hollow part configured to substantially transmit EUV radiation and to substantially filter non-EUV radiation at the interface; wherein the inner surface of the hollow part has a surface treatment configured to increase absorption of the non-EUV radiation that is transferred by the member to the hollow part.

Abstract: A method for thermally conditioning an optical element includes irradiating the optical element with radiation, not-irradiating the optical element with the radiation, allowing heat flow between the optical element and a conditioning fluid that is held in a conditioning fluid reservoir, and providing a fluid flow of the conditioning fluid, to supply thermally conditioned fluid to the reservoir. A flow rate of the fluid during the irradiating of the optical element is lower than a flow rate of the fluid when the optical element is not-irradiated.

Abstract: A pressure sensor includes a flexible membrane deformable in response to pressure. The flexible membrane covers a cavity and includes a strain gauge that produces signals corresponding to deformation of the flexible membrane. The flexible membrane is a flexible monolithic integrated circuit foil.

Abstract: An evaporator for evaporating a liquid containing fluid, having an inlet and an outlet connected to an evaporation volume with an internal structure, the inlet and the outlet defining a main flow path there between and the cross-section of the evaporation volume is substantially constant along the main flow path is described. A method method for evaporating a liquid containing fluid by providing an evaporator supplying a liquid containing feed stream to the inlet; exerting heat; choosing the operating conditions so that an annular flow is created.

Abstract: A fluid flow meter is described that uses thermal tracers to measure flow speed. For fluid flowing through a conduit, 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 multiple 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 the sensing locations. A frequency of the variation of heating strength that is used to determine the flow speed is selected automatically based on the flow speed and/or other circumstances.

Abstract: A method for thermally conditioning an optical element includes irradiating the optical element with radiation, not-irradiating the optical element with the radiation, allowing heat flow between the optical element and a conditioning fluid that is held in a conditioning fluid reservoir, and providing a fluid flow of the conditioning fluid, to supply thermally conditioned fluid to the reservoir. A flow rate of the fluid during the irradiating of the optical element is lower than a flow rate of the fluid when the optical element is not-irradiated.

Abstract: 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.

Abstract: The invention is directed to a method for preparing a deposition on a substrate and to a method for manufacturing an electronic or optoelectronic device. The method of the invention comprises —providing an anode comprising electrolytically ionisable material and a cathode both in contact with an electrically conductive liquid, comprising anions capable of forming a molecule with the electrolytically ionised material; —electrolytically oxidising the ionisable material under formation of cations that dissolve in the liquid; —evaporating the molecules formed from the cations and the anions from the liquid; and —depositing the molecules on the substrate.