Abstract: An apparatus for processing pharmaceutical containers, in particular vials, syringes or carpules, and a filling device for filling pharmaceutical containers. The apparatus includes a frame that can be positioned on a set-down surface and has a surface, a first side and a second side, a processing station, and a transport device arranged between the first side and the second side, with circulating holding elements for the containers which move along a transport direction on a transport segment and counter to the transport direction on a return segment. The processing station is arranged at the transport segment, and the transport segment and the return segment are arranged above the surface. The transport plane is inclined by an angle of inclination relative to a plane of the surface and/or a horizontal plane, and the transport segment is arranged above the return segment in the direction of gravity.

Abstract: An apparatus for closing pharmaceutical containers with closure elements, and a system for processing pharmaceutical containers. The closure elements include a first face and a second face. The apparatus includes a feed unit with a feed path in which closure elements can be fed separately without contacting the first face; a receiving body with a receptacle for the closure element, the closure element being transferrable from the feed path into a receiving position in the receptacle; and a device for turning the receiving body from an initial position into an end position and transferring the closure element from the receiving position into a placed position in which the closure element is positioned on the container or at a distance to the container such that the first face points in the direction of the container interior.

Abstract: An apparatus for filling pharmaceutical containers includes a filling device with a linear transport device that preferably includes circulating holding elements for the containers. The holding elements are movable along a transport direction from a coupling side to a decoupling side of the transport device. A processing station includes a filling station arranged at the transport device for filling the containers with a pharmaceutical substance. A coupling element transfers the containers to the transport device, and a decoupling element receives the containers from the transport device. A first feed unit provides containers of a first type to be filled, and a second feed unit feeds containers of a second type to be filled. An interface element is arrangeable on the feed side with respect to the transport device. Containers of the first type or the second type can be selectively fed directly or indirectly to the transport device.

Abstract: A process for the production of syngas comprising the steps of providing a feed gas comprising a hydrocarbon, carbon dioxide and optionally steam, contacting a flow of said feed gas with a metal oxide to form syngas, wherein the mole fraction of carbon dioxide or in the case the feed gas comprises steam, the sum of the mole fractions of carbon dioxide and steam, in the feed gas is between 0.3 and 0.7; and/or wherein the mole fraction of the hydrocarbon in the feed gas is between 0.3 to 0.5, wherein the feed gas is contacted with the metal oxide at a temperature of between 1050K and 1600K.

Abstract: A device for receiving objects from a support on which the objects are arranged so as to lie side-by-side, in individual receptacles, in an axially parallel manner in rows. The device comprises a receiving zone. The device comprises a feed device for moving the support equipped with the objects through the receiving zone such that the objects arrive, in the sequence, at the receiving zone to be removed at the receiving zone, in the sequence, from the support; The device comprises a receiving wheel comprising grippers, the grippers being arranged around a periphery of the wheel and protruding outwards, wherein the receiving wheel is rotatable such that the grippers past the receiving zone one after another to receive, at the receiving zone, the objects, in sequence, from the support provided, wherein each gripper of the grippers is associated with a respective counterhold for securing a received object on the gripper.

Abstract: A process for the production of syngas, comprising the steps of generating hydrogen and/or carbon monoxide from a hydrocarbon gas by contacting said hydrocarbon gas with a metal oxide in a first non-stoichiometric state MxOy-? such as to reduce said metal oxide in a first non-stoichiometric state MxOy-? towards a second non-stoichiometric state MxOy-?; generating hydrogen and/or carbon monoxide from a regenerating gas by contacting the metal oxide in the second non-stoichiometric state MxOy-? with said regenerating gas such as to oxidize the metal oxide in the second non-stoichiometric state MxOy-? towards the first non-stoichiometric state MxOy-?; characterized in that the ?>? and ?>0 and ?<y.

Abstract: Various embodiments include a method for determining a design of an energy system comprising: providing a plurality of values of a parameter of an optimization method using an extraction of the values according to a probability distribution of the parameter; specifying a respective single-target function of the energy system for each of the plurality of values; forming an overall target function using the single-target functions; and extremizing the overall target function using the optimization method.

Abstract: The invention relates to a peristaltic pump (1) comprising a saddle and a rotor (3) rotatable therein, between which a hose (4) is arranged. The rotor (3) carries hose compression means (6), which sweep over the hose (4) with the rotation of the rotor (3) and thus convey a conveying fluid. When the hose compression means (6) emerge from the hose (4), this results in pulsation effects. According to the invention, these pulsation effects are suppressed in that an inner saddle face (5), on which the hose (4) is positioned, is suitably shaped. In addition, the pulsation effects may be reduced or prevented by controlled adaptation of the rotor rotational speed, by suitable selection of a conveying end position during metering of the pumping medium, or by establishing particular invariable conveying end positions. The use of a peristaltic pump (1) of this type for metering is further proposed.

Abstract: Vessel closure system that can be affixed in a spatially defined position for closing open blood vessels has a closure element, at least one pressure body arranged on the closure element and holding bands coupled to the closure element and made from a material having elastic properties. The pressure body is designed, when placed on an opened vessel of a patient, to apply increased pressure, in relation to other regions of the vessel, to a puncture site in the vessel. A skin adhesive layer is arranged on each holding band on the same side of the closure element as the pressure body. Each pressure body has a curvature projecting outwardly from the closure element such that lateral sides of the pressure body are closer to the closure element than a middle region of the pressure body between the lateral sides to provide the pressure body with an elongate pressure surface.

Abstract: The invention relates to a peristaltic pump (1) comprising a saddle and a rotor (3) rotatable therein, between which a hose (4) is arranged. The rotor (3) carries hose compression means (6), which sweep over the hose (4) with the rotation of the rotor (3) and thus convey a conveying fluid. When the hose compression means (6) emerge from the hose (4), this results in pulsation effects. According to the invention, these pulsation effects are suppressed in that an inner saddle face (5), on which the hose (4) is positioned, is suitably shaped. In addition, the pulsation effects may be reduced or prevented by controlled adaptation of the rotor rotational speed, by suitable selection of a conveying end position during metering of the pumping medium, or by establishing particular invariable conveying end positions. The use of a peristaltic pump (1) of this type for metering is further proposed.

Abstract: A vessel closure system (1) that can be affixed in a spatially defined position for closing open blood vessels has a closure element (2) and at least one pressure body (3), wherein the holding bands (4) are made from a material having elastic properties. The at least one pressure body (3) is designed, when placed on an opened vessel of a patient, to apply an increased pressure, in relation to other regions of the vessel, to a puncture site in the vessel.

Abstract: The present invention refers to medical devices. Particularly it relates to stent devices and balloon catheter devices. In the most particular aspect of the invention it relates to the strengthening of the structure of such a medical device, especially of a balloon on a balloon catheter device and its use in a variety of medical procedures to treat medical conditions in animal and human patients.

Abstract: A catheter assembly having a dual lumen proximal tubular portion including a guidewire lumen and an inflation lumen and a single lumen distal tubular portion that receives the guidewire and can additionally receive fluid. The catheter assembly includes flow passages in allow fluid to flow from the interior of the catheter to the exterior.