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公开(公告)号:US12063858B2
公开(公告)日:2024-08-13
申请号:US17107982
申请日:2020-12-01
发明人: Yuri Abramov
IPC分类号: H10N10/13 , B05B1/24 , B05B1/34 , B64C3/36 , B64D27/18 , F15D1/00 , H02J7/02 , H02J50/15 , H04R1/10 , H04R1/46 , H10N10/17 , A61B7/04
CPC分类号: H10N10/13 , B05B1/24 , B05B1/3402 , B64C3/36 , B64D27/18 , F15D1/0065 , H02J7/02 , H02J50/15 , H04R1/1016 , H04R1/46 , H10N10/17 , A61B7/04
摘要: The invention discloses a method and modified aerodynamic apparatuses: fluid pushers-off and fluid motion-sensors, making enable efficient implementation and use of a controllable enhanced jet-effect, either the waving jet-effect, the Coanda jet-effect, the lift-effect, the effect of thrust, the Venturi effect, and/or the de Laval jet-effect, all are controllable using the Peltier effect and/or the Seebeck effect. The modified aerodynamic apparatuses are geometrically shaped and supplied with built-in thermoelectric devices, wherein the presence of the thermoelectric devices provides for new functional properties of the modified aerodynamic apparatuses. The method solves the problem of effective control of the operation of modified aerodynamic apparatuses such as airfoil wings of a flying vehicle, convergent-divergent nozzles, loudspeakers, and detectors of acoustic waves, all of a highly-efficient functionality.
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公开(公告)号:US20180266394A1
公开(公告)日:2018-09-20
申请号:US15982530
申请日:2018-05-17
发明人: Yuri ABRAMOV
CPC分类号: F03D9/25 , F02K1/00 , F03D1/04 , F03D3/0454 , F05B2240/133 , F05D2250/323 , F05D2250/324 , F15D1/08 , G06F17/5009 , G06F17/5018 , G06F2217/16 , Y02B10/30 , Y02T50/671
摘要: The invention provides a method for computational fluid dynamics and apparatuses making enable an efficient implementation and use of an enhanced jet-effect, either the Coanda-jet-effect, the hydrophobic jet-effect, or the waving-jet-effect, triggered by specifically shaped corpuses and tunnels. The method is based on the approaches of the kinetic theory of matter, thermodynamics, and continuum mechanics, providing generalized equations of fluid motion. The method is applicable for slow-flowing as well as fast-flowing real compressible-extendable fluids and enables optimal design of convergent-divergent nozzles, providing for the most efficient jet-thrust. The method can be applied to airfoil shape optimization for bodies flying separately and in a multi-stage cascaded sequence. The method enables apparatuses for electricity harvesting from the fluid heat-energy, providing a positive net-efficiency. The method enables efficient water-harvesting from air. The method enables generators for practical-expedient power harvesting using constructive interference of waves due to the waving jet-effect.
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公开(公告)号:US11705780B2
公开(公告)日:2023-07-18
申请号:US16412834
申请日:2019-05-15
发明人: Yuri Abramov
IPC分类号: H02K7/18 , F15D1/12 , F15D1/00 , H01L35/28 , H01F30/16 , F02K7/12 , F01D5/14 , F03D1/06 , F02C7/141 , B01D5/00 , F02K3/04
CPC分类号: H02K7/183 , B01D5/0003 , B01D5/0021 , B01D5/0042 , B01D5/0075 , F01D5/141 , F02C7/141 , F02K3/04 , F02K7/12 , F03D1/0633 , F15D1/0015 , F15D1/12 , H01F30/16 , H01L35/28 , F05D2220/32 , F05D2260/81
摘要: The invention provides a method for computational fluid dynamics and apparatuses making enable an efficient implementation and use of an enhanced jet-effect, either the Coanda-jet-effect, the hydrophobic jet-effect, or the waving-jet-effect, triggered by specifically shaped corpuses and tunnels. The method is based on the approaches of the kinetic theory of matter providing generalized equations of fluid motion and is generalized and translated into terms of electromagnetism. The method is applicable for slow-flowing as well as fast-flowing real compressible-extendable generalized fluids and enables optimal design of convergent-divergent nozzles, providing for the most efficient jet-thrust. The method can be applied to airfoil shape optimization for bodies flying separately and in a multi-stage cascaded sequence. The method enables apparatuses for electricity harvesting from the fluid heat-energy, providing a positive net-efficiency. The method enables generators for practical-expedient power harvesting using constructive interference of waves due to the waving jet-effect.
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公开(公告)号:US11499525B2
公开(公告)日:2022-11-15
申请号:US15982585
申请日:2018-05-17
发明人: Yuri Abramov
IPC分类号: F03D9/25 , G06F17/13 , F03D3/04 , F02K1/00 , F03D1/06 , F03D1/04 , G06F30/17 , G06F30/20 , G06F30/23 , F01D5/28 , G06F111/10
摘要: The invention provides a method for computational fluid dynamics and apparatuses making enable an efficient implementation and use of an enhanced jet-effect, either the Coanda-jet-effect, the hydrophobic jet-effect, or the waving-jet-effect, triggered by specifically shaped corpuses and tunnels. The method is based on the approaches of the kinetic theory of matter, thermodynamics, and continuum mechanics, providing generalized equations of fluid motion. The method is applicable for slow-flowing as well as fast-flowing real compressible-extendable fluids and enables optimal design of convergent-divergent nozzles, providing for the most efficient jet-thrust. The method can be applied to airfoil shape optimization for bodies flying separately and in a multi-stage cascaded sequence. The method enables apparatuses for electricity harvesting from the fluid heat-energy, providing a positive net-efficiency. The method enables efficient water-harvesting from air. The method enables generators for practical-expedient power harvesting using constructive interference of waves due to the waving jet-effect.
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公开(公告)号:US10514496B2
公开(公告)日:2019-12-24
申请号:US15982483
申请日:2018-05-17
发明人: Yuri Abramov
IPC分类号: G02B6/10 , H02S40/22 , F24S23/00 , G01H17/00 , G02B19/00 , G10K11/20 , G10K11/24 , B64G1/66 , F24S23/71 , B64G1/40 , H01Q1/28 , H01Q3/01 , H01Q19/18
摘要: The invention provides an improved method and apparatus, in general, for a use of a sheaf of unclad waveguide beam-makers to provide for a multi-stage forcedly-conveying waveguide effect of waveguide fibers in combination with the self-focusing waveguide effect of parabolic antennas, on the one hand, to absorb the ambient radiation, and in particular, for sunlight rays energy absorption to detect and transform the energy into either warmth, or electrical power, or mechanical thrust, and, on the other hand, to transmit the wave-energy through a homogeneous poorly-permeable medium.
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公开(公告)号:US20190280562A1
公开(公告)日:2019-09-12
申请号:US16412834
申请日:2019-05-15
发明人: Yuri ABRAMOV
IPC分类号: H02K7/18 , F15D1/12 , F15D1/00 , H01L35/28 , H01F30/16 , F02K7/12 , F02K3/04 , F01D5/14 , F03D1/06 , F02C7/141 , B01D5/00
摘要: The invention provides a method for computational fluid dynamics and apparatuses making enable an efficient implementation and use of an enhanced jet-effect, either the Coanda-jet-effect, the hydrophobic jet-effect, or the waving-jet-effect, triggered by specifically shaped corpuses and tunnels. The method is based on the approaches of the kinetic theory of matter providing generalized equations of fluid motion and is generalized and translated into terms of electromagnetism. The method is applicable for slow-flowing as well as fast-flowing real compressible-extendable generalized fluids and enables optimal design of convergent-divergent nozzles, providing for the most efficient jet-thrust. The method can be applied to airfoil shape optimization for bodies flying separately and in a multi-stage cascaded sequence. The method enables apparatuses for electricity harvesting from the fluid heat-energy, providing a positive net-efficiency. The method enables generators for practical-expedient power harvesting using constructive interference of waves due to the waving jet-effect.
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公开(公告)号:US20180372949A1
公开(公告)日:2018-12-27
申请号:US15982483
申请日:2018-05-17
发明人: Yuri ABRAMOV
摘要: The invention provides an improved method and apparatus, in general, for a use of a sheaf of unclad waveguide beam-makers to provide for a multi-stage forcedly-conveying waveguide effect of waveguide fibers in combination with the self-focusing waveguide effect of parabolic antennas, on the one hand, to absorb the ambient radiation, and in particular, for sunlight rays energy absorption to detect and transform the energy into either warmth, or electrical power, or mechanical thrust, and, on the other hand, to transmit the wave-energy through a homogeneous poorly-permeable medium.
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公开(公告)号:US20220173299A1
公开(公告)日:2022-06-02
申请号:US17107982
申请日:2020-12-01
发明人: Yuri ABRAMOV
IPC分类号: H01L35/30 , H01L35/32 , H02J7/02 , H02J50/15 , H04R1/46 , H04R1/10 , B05B1/24 , B05B1/34 , B64C3/36 , B64D27/18
摘要: The invention discloses a method and modified aerodynamic apparatuses: fluid pushers-off and fluid motion-sensors, making enable efficient implementation and use of a controllable enhanced jet-effect, either the waving jet-effect, the Coanda jet-effect, the lift-effect, the effect of thrust, the Venturi effect, and/or the de Laval jet-effect, all are controllable using the Peltier effect and/or the Seebeck effect. The modified aerodynamic apparatuses are geometrically shaped and supplied with built-in thermoelectric devices, wherein the presence of the thermoelectric devices provides for new functional properties of the modified aerodynamic apparatuses. The method solves the problem of effective control of the operation of modified aerodynamic apparatuses such as airfoil wings of a flying vehicle, convergent-divergent nozzles, loudspeakers, and detectors of acoustic waves, all of a highly-efficient functionality.
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公开(公告)号:US20170206291A1
公开(公告)日:2017-07-20
申请号:US15409876
申请日:2017-01-19
发明人: Yuri ABRAMOV
CPC分类号: G06F17/5009
摘要: The invention provides a method for computational fluid dynamics and apparatuses making enable an efficient implementation and use of an enhanced jet-effect, triggered by a specifically shaped tunnel, and of a hydrophobic jet-effect, triggered by a hydrophobic corpus. The method is based on the approaches of the kinetic theory of matter, thermodynamics, and continuum mechanics, providing generalized equations of fluid motion. The method is applicable for slow-flowing as well as fast-flowing real compressible-extendable fluids and enables optimal design of convergent-divergent nozzles, providing for the most efficient jet-effect at subsonic, transonic, supersonic and hypersonic velocities. The method can be applied to airfoil shape optimization for bodies flying separately and in a multi-stage cascaded sequence. The method enables a design of a flying-saucer of high mobility. The method enables apparatuses for electricity harvesting from the fluid heat-energy, providing a positive net-efficiency. The method enables efficient water-harvesting from air.
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公开(公告)号:US20190280561A1
公开(公告)日:2019-09-12
申请号:US16412805
申请日:2019-05-15
发明人: Yuri ABRAMOV
IPC分类号: H02K7/18 , F15D1/12 , F15D1/00 , H01L35/28 , H01F30/16 , F02K7/12 , F02K3/04 , F01D5/14 , F03D1/06 , F02C7/141 , B01D5/00
摘要: The invention provides a method for computational fluid dynamics and apparatuses making enable an efficient implementation and use of an enhanced jet-effect, either the Coanda-jet-effect, the hydrophobic jet-effect, or the waving-jet-effect, triggered by specifically shaped corpuses and tunnels. The method is based on the approaches of the kinetic theory of matter providing generalized equations of fluid motion and is generalized and translated into terms of electromagnetism. The method is applicable for slow-flowing as well as fast-flowing real compressible-extendable generalized fluids and enables optimal design of convergent-divergent nozzles, providing for the most efficient jet-thrust. The method can be applied to airfoil shape optimization for bodies flying separately and in a multi-stage cascaded sequence. The method enables apparatuses for electricity harvesting from the fluid heat-energy, providing a positive net-efficiency. The method enables generators for practical-expedient power harvesting using constructive interference of waves due to the waving jet-effect.
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