Abstract: A method is proposed for producing one or more electrolysis products, wherein one or more electrolytic cells having a proton exchange membrane is/are used, wherein a hydrogen-rich cathode extraction gas is extracted on the cathode side of the one or more electrolytic cells, wherein an anode extraction gas is extracted on the anode side of the one or more electrolytic cells, wherein the anode extraction gas is extracted from the one or more electrolytic cells as part of a two-phase flow, wherein the two-phase flow comprises the anode extraction gas and a water phase, and wherein the two-phase flow or part thereof is separated in a separator arrangement into the anode extraction gas and the water phase.

Abstract: The present invention relates to a process for producing a flexible polyurethane foam thermally recyclable by fusion, and to hybrid materials made of flexible polyurethane foam and compact thermoplastic elastomer and/or expanded thermoplastic polyurethane.

Abstract: A temperature control assembly controls the temperature of functional parts of a printing machine. The temperature control assembly comprises a plurality of assembly-side sub-circuits, the temperature of which is to be individually controlled, each sub-circuit having a temperature-control fluid outlet and a temperature-control fluid inlet, on each of which, in order to form a respective temperature control circuit, one or more functional parts can be connected as loads of a temperature-controlling external temperature control sub-circuit by the use of releasable connections, and which, on the feed side of the temperature control thereof, are or can be thermally and fluidically coupled, via respective removal points, to a common feed line, and on the return side, via each return point, to a common fluid return.

Abstract: A temperature control assembly controls the temperature of functional parts of a printing machine. The temperature control assembly comprises a plurality of assembly-side sub-circuits, the temperature of which is to be individually controlled, each sub-circuit having a temperature-control fluid outlet and a temperature-control fluid inlet, on each of which, in order to form a respective temperature control circuit, one or more functional parts can be connected as loads of a temperature-controlling external temperature control sub-circuit by the use of releasable connections, and which, on the feed side of the temperature control thereof, are or can be thermally and fluidically coupled, via respective removal points, to a common feed line, and on the return side, via each return point, to a common fluid return.

Abstract: A temperature control assembly controls the temperature of parts of a printing machine. A plurality of assembly-side sub-circuits, the temperature of which is to be individually controlled, each comprises a temperature control fluid outlet and a temperature control fluid inlet. An external temperature control sub-circuit, can be connected to each assembly-side sub-circuit to form a respective temperature control circuit. The assembly-side sub-circuits are coupled to a common feed line, which conducts temperature control fluid, in a thermal and/or fluidic manner on the feed side to control the temperature of the assembly-side sub-circuits and to a common return line on the return side. The feed line is connected to a fluid store, which provides temperature control fluid to supply the feed line. The temperature control assembly comprises the common feed line, the fluid store, and an assembly which controls the temperature of the temperature control fluid of the fluid store.

Abstract: A temperature control assembly controls the temperature of parts of a printing machine. A plurality of assembly-side sub-circuits, the temperature of which is to be individually controlled, each comprises a temperature control fluid outlet and a temperature control fluid inlet. An external temperature control sub-circuit, can be connected to each assembly-side sub-circuit to form a respective temperature control circuit. The assembly-side sub-circuits are coupled to a common feed line, which conducts temperature control fluid, in a thermal and/or fluidic manner on the feed side to control the temperature of the assembly-side sub-circuits and to a common return line on the return side. The feed line is connected to a fluid store, which provides temperature control fluid to supply the feed line. The temperature control assembly comprises the common feed line, the fluid store, and an assembly which controls the temperature of the temperature control fluid of the fluid store.

Abstract: A printing machine, which is configured as a printing tower having a plurality of printing units, is usable for double-sided, multicolor printing. A device that is usable for controlling the temperature of the components of one or more of the printing couples is provided. Each printing unit includes a plurality of printing towers that are disposed vertically one over the other. Each of these printing devices has at least one component that is to be temperature controlled and which has a thermal interaction with a fluid of a secondary circuit by way of an inlet. The secondary circuit can have fluid of a primary circuit entered by a feeding station for controlling the temperature. Components that are to be temperature controlled, and that are part of at least two different printing devices, have thermal interactions with two secondary circuits that are different from each other.

Abstract: A printing machine, which is configured as a printing tower having a plurality of printing units, is usable for double-sided, multicolor printing. A device that is usable for controlling the temperature of the components of one or more of the printing couples is provided. Each printing unit includes a plurality of printing towers that are disposed vertically one over the other. Each of these printing devices has at least one component that is to be temperature controlled and which has a thermal interaction with a fluid of a secondary circuit by way of an inlet. The secondary circuit can have fluid of a primary circuit entered by a feeding station for controlling the temperature. Components that are to be temperature controlled, and that are part of at least two different printing devices, have thermal interactions with two secondary circuits that are different from each other.