REMCO International, Inc. Patent applications |
Patent application number | Title | Published |
20150110623 | Method of dynamic energy-saving superconductive propeller interaction with a fluid medium - In a method of providing a dynamic energy-saving superconductive interaction of a rotating propeller with a fluid medium, an optimizer has a modulator modulating a value of a connection by the fluid medium flowing between perforations on working surfaces of a propeller blade through a shunt passage under an action of a difference of pressures generated on the working surfaces by providing a frequency, a range, a law and a phase of the modulating; and the optimizer optimizes a value of at least one parameter of the modulating in dependence on a change of a value of at least one controlled characteristic influencing energy efficiency of a work of an object interacting with the propeller system, thereby providing a dynamic energy optimization of the work of the object by optimization of modulated blowing/suction wave effects on a boundary layer adjacent to the working surfaces of the rotating propeller. | 04-23-2015 |
20110211950 | Method of dynamic energy-saving superconductive propeller interaction with a fluid medium - In a propeller system a process of dynamic energy-saving superconductive propeller interaction with a fluid medium comprises providing a perforation on the working blade surfaces having the different pressures, with an element possibility of the dynamic fluid medium flow connection between said blade perforations; and modulating a value of said connection of the blade so-called “breathing surfaces” in dependence on a change of a value of at least one controlled characteristic influencing a dynamic energy efficiency of a propeller process such that a dynamic structure-energetically optimization of said modulated surface-energy interaction is provided. | 09-01-2011 |
20090149928 | Method of dynamic binary temperature therapy - In a dynamic contrast temperature system including a thermocycling block and an organism zone multi-modules temperature applicator a method of spatiotemporal temperature-physiological optimizing includes modules structure arranging and modulating a module temperature action with a law, a range and a frequency providing a cooling phase and a heating phase of a “drop-shaped” form law so, that each two side by side disposed the modules form a temperature pair with a modulated binary temperature action gradient, and a modulation comparative phase provides a phase shift to a comparative phase of an independent periodic additional action process; and gradient-wave therapeutically optimized changing the modulation parameters in dependence on the changes of the organism physiological characteristics. | 06-11-2009 |
20090103989 | Method of dynamic energy-saving superconductive transporting of medium flow - In a transporting system comprising at least one a means of medium flow-forming energy action for providing a dynamic energy-saving superconductive medium flow process, a method of energy optimizing includes a negative modulating of the energy action with a frequency is changed to provide a plane form of a modulated energy action flow longitudinal waves, a law is selected a “drop-shaped” form, a comparative phase is changed to provide a phase shift to a comparative phase of an independent periodic process related with a modulated flow; and energy criterion optimized changing a modulation parameters in dependence on a changes of a flow process characteristics. | 04-23-2009 |