Methods for creating undulating structures are disclosed in which an elastic sheet and a rigid restraining member having different curvatures are joined. The structures incorporate stopping members, such as stopped grooves, to manage the transverse deformations of the elastic sheet. The joint is such that the transverse deformations may migrate along the undulating structure in a coordinated, wave, either to gather kinetic energy, or to propel the structure relative to a fluid. To facilitate such a wave, the elastic sheet can be joined to the retaining member via passive stopping members that oscillate about their points of attachment to the retaining member. These are also constructed to limit the elastic sheet from reverting to its original configuration. The retaining member can be annular structures, and the elastic sheet members can be tubular. Stopping members can be actuated to power the transverse deformations of the elastic sheet to oscillate.

Methods for creating undulating structures are disclosed in which an elastic sheet and a rigid restraining member having different curvatures are joined. The structures incorporate stopping members, such as stopped grooves, to manage the transverse deformations of the elastic sheet. The joint is such that the transverse deformations may migrate along the undulating structure in a coordinated, wave, either to gather kinetic energy, or to propel the structure relative to a fluid. To facilitate such a wave, the elastic sheet can be joined to the retaining member via passive stopping members that oscillate about their points of attachment to the retaining member. These are also constructed to limit the elastic sheet from reverting to its original configuration. The retaining member can be annular structures, and the elastic sheet members can be tubular. Stopping members can be actuated to power the transverse deformations of the elastic sheet to oscillate.

A bubble pump having a steel tube pump body having an interior formed from a ceramic material that resists attack by molten metal. The pump further has a nitrogen supply line attached to a lower portion of the pump body. The pump body and nitrogen supply line are covered with a ceramic cloth material that resists attack by molten metal. The pump also includes a discharge head attached to the top of the pump body. The discharge head is formed of a cast ceramic material that resists attack by molten metal and includes a distribution chamber therein which has an ellipsoidal dome shape with a generally flat bottom and an ellipsoidal top. The discharge head also includes two discharge nozzles which have a square cross section. These features provide the inventive pump with extended service life and reduced discharge turbulence of the molten metal.

A bubble pump having a steel tube pump body having an interior formed from a ceramic material that resists attack by molten metal. The pump further has a nitrogen supply line attached to a lower portion of the pump body. The pump body and nitrogen supply line are covered with a ceramic cloth material that resists attack by molten metal. The pump also includes a discharge head attached to the top of the pump body. The discharge head is formed of a cast ceramic material that resists attack by molten metal and includes a distribution chamber therein which has an ellipsoidal dome shape with a generally flat bottom and an ellipsoidal top. The discharge head also includes two discharge nozzles which have a square cross section. These features provide the inventive pump with extended service life and reduced discharge turbulence of the molten metal.

A device that includes an integrated device and a heat dissipating device coupled to the integrated device. The heat dissipating device includes an electro-osmotic (EO) pump. The electro-osmotic (EO) pump includes a casing comprising a first opening and a second opening; a membrane located in the casing; an anode electrode; a cathode electrode; and a catalyst layer formed on a surface of the membrane. The membrane includes a plurality of channels. The electro-osmotic (EO) pump is configured to provide a fluid to flow from the first opening of the casing, through the plurality of channels of the membrane and out of the second opening of the casing. The catalyst layer is configured to recombine gas ions that are produced by the electro-osmotic (EO) pump.

A cooling apparatus is disclosed with a base plate for receiving a heat load from an electric component, an evaporator, a condenser, and a connecting piece for passing fluid from the evaporator to the condenser. In order to efficiently fill the evaporator, the cooling apparatus is provided with a pump for pumping fluid from the condenser to the evaporator.

The invention relates to a pressure-volume delivery system comprising a piston-cylinder unit with a piston acting on both sides (dual-action reciprocating piston), said piston having at least two different active surfaces in corresponding pressure chambers and the pressure chambers being connected to at least one consumer via hydraulic lines. The delivery system also comprises a drive for the piston-cylinder unit. According to the invention, the pressure chambers and/or hydraulic lines are interconnected by means of at least one or more switching valves connected in parallel and having a large flow cross-section (AV) and via a short hydraulic line or lines with low flow resistance.

The invention relates to a pressure-volume delivery system comprising a piston-cylinder unit with a piston acting on both sides (dual-action reciprocating piston), said piston having at least two different active surfaces in corresponding pressure chambers and the pressure chambers being connected to at least one consumer via hydraulic lines. The delivery system also comprises a drive for the piston-cylinder unit. According to the invention, the pressure chambers and/or hydraulic lines are interconnected by means of at least one or more switching valves connected in parallel and having a large flow cross-section (AV) and via a short hydraulic line or lines with low flow resistance.

A peristaltic pumphead is provided that has a pumping chamber within which is disposed a pressing element for exerting a peristaltic action on a tube extending within the pumping chamber, and an auxiliary chamber which in normal use is a dry chamber. The pumping chamber and the auxiliary chamber are arranged in fluid communication such that liquid which escapes from the tube into the pumping chamber flows from the pumping chamber into the auxiliary chamber.

A peristaltic pumphead is provided that has a pumping chamber within which is disposed a pressing element for exerting a peristaltic action on a tube extending within the pumping chamber, and an auxiliary chamber which in normal use is a dry chamber. The pumping chamber and the auxiliary chamber are arranged in fluid communication such that liquid which escapes from the tube into the pumping chamber flows from the pumping chamber into the auxiliary chamber.