Abstract: A method (300) of operating a hearing aid with a low delay beam former and a hearing aid (200, 500).

Abstract: A method of implementing and using an apparatus (1a,1b,13,25) to achieve hand sanitisation by application of ozone. The apparatus has a disinfecting chamber (3,3?,110) with at least one port (2) adapted for insertion of at least one hand into the disinfecting chamber (3,110). A sensor (4) detects entry and/or exit of the hand (26) into the disinfecting chamber (3,110). An ozone water output (7,130) of an ozone water supply (8) is arranged to deliver ozone water to the at least one hand (26) when inserted into the disinfecting chamber (3,110). Control means (6) times start and stop of a discharge of ozone water from the at least one ozone water output (7,130) into the disinfecting chamber (3,110) when the at least one sensor (4) detects entry of the at least one hand (26) into the disinfecting chamber (3,110).

Abstract: A method that combines injection molding and extrusion is disclosed. First, a molten material is injected into a mold via an injection gate, the mold comprising a first portion and a second portion. Next, additional molten material is injected via the injection gate and pushed through an extrusion die located in the first portion of the mold and the second portion is separated from the first portion. In embodiments, the second portion is separated from the first portion before the additional material is injected. In other embodiments, the second portion is separated from the first portion simultaneously with the additional material being injected. The method may be used to produce longer and thinner parts with detailed features, such as catheters.

Abstract: A method of implementing and using an apparatus (1a, 1b,13,25) to achieve hand sanitisation by application of ozone. The apparatus has a disinfecting chamber (3,3?,110) with at least one port (2) adapted for insertion of at least one hand into the disinfecting chamber (3,110). A sensor (4) detects entry and/or exit of the hand (26) into the disinfecting chamber (3,110). An ozone water output (7,130) of an ozone water supply (8) is arranged to deliver ozone water to the at least one hand (26) when inserted into the disinfecting chamber (3,110). Control means (6) times start and stop of a discharge of ozone water from the at least one ozone water output (7,130) into the disinfecting chamber (3,110) when the at least one sensor (4) detects entry of the at least one hand (26) into the disinfecting chamber (3,110).

Abstract: An apparatus and method for hand sanitisation by application of ozone. The apparatus includes a disinfecting chamber having at least one port for receiving a hand therein and a sensor for detecting entry or exit of the hand into the chamber. The apparatus delivers ozone water to the hand while a controller provides start and stop times for the delivery of the ozone water. This results in improved sanitisation of the hand or hands.

Abstract: Provided herein is a dispensing nozzle cover with features including an elongated chamber having a proximal end and a distal end, where the proximal end is adapted to receive a dispensing nozzle, and the distal end is closed, a seal arranged in the vicinity of the proximal receiving end of the elongated chamber, the seal being arranged to seal against the dispensing nozzle, and an adhesive surface area facing the ambient atmosphere.

Abstract: A dispensing nozzle cover comprising an elongated chamber having a proximal end and a distal end, where the proximal end is adapted to receive a dispensing nozzle, and the distal end is closed, a seal arranged in the vicinity of the proximal receiving end of the elongated chamber, the seal being arranged to seal against the dispensing nozzle, wherein the dispensing nozzle cover further comprises an adhesive surface area facing the ambient atmosphere.

Abstract: A method for stopping a pitch controlled wind turbine comprising a rotor with at least one blade (11), a mechanical brake (31) on the high speed shaft, a pitch system ((21, 23, 25) for adjusting the blade pitch angle, that includes: a) a first stage using the pitch system (21, 23, 25) for slowing down the rotor; b) a second stage using both the pitch system (21, 23, 25) and the mechanical brake (31) for stopping the rotor. The second stage begins when one of the following conditions takes place: the high speed shaft rotational speed is under a predefined value So; a predefined time delay To with respect to the beginning of the first stage is reached; a predefined high speed shaft torque level TLo is reached.

Abstract: In an apparatus for drying a moist material in a stream of drying gas the residence time is increased by inserting one or more perforated plates, above which fluidized particle layers are created, and through which a portion of the drying gas and material to be dried are passed, whereas the remaining part of the drying gas and material is by-passed said perforated plates. Improved drying capacity, heat economy and operational flexibility and decreased risk for heat damage of the material to be dried are obtained.