公开(公告)号：US20160255681A1

公开(公告)日：2016-09-01

申请号：US15051604

申请日：2016-02-23

Applicant: Inductive Engineering Technology, LLC

Inventor： Stamatios Hadoulias ,  Darryl L. Snyder ,  John C. May

IPC: H05B6/06 ,  F24H3/00 ,  H05B6/12 ,  F24H1/00 ,  H05B6/10 ,  H05B6/04

CPC classification number: H05B6/06 ,  F24D5/02 ,  F24D19/1084 ,  F24D2200/08 ,  F24H1/0018 ,  F24H1/106 ,  F24H1/201 ,  F24H3/002 ,  F24H3/022 ,  F24H2250/08 ,  H05B6/04 ,  H05B6/108 ,  H05B6/1209 ,  H05B6/129 ,  Y02B40/123

Abstract: A magnetic induction thermal heat unit, capable of producing heat by magnetic field, inducing direct agitation and friction, at the molecular level within a ferrous magnetic or semi-magnetic substrate. The substrate is specifically designed to capitalize on storing the heat generated and then transferring the heat generated to a subsequent device that requires or uses heat as its primary energy source. The system can use both a combination of induction heated substrates that are ferrous or magnetic in various configurations. The substrates can also be joined or bonded to non-magnetic or ferrous materials such as aluminum or copper as a conductive heat path to a heat pipe system where a transfer of thermal energy occurs. Additionally, convective and resultant radiant heat from the magnetic induction system can be directed back into the cumulative total of heat energy produced. The major objective ultimately being able to produce a greater degree of efficiency per given watt of electricity beyond what is currently available with current technology.

Abstract translation: 一种磁感应热电单元，能够通过磁场产生热量，在铁磁性或半磁性基底内的分子水平引起直接搅拌和摩擦。 基板被专门设计用于储存所产生的热量，然后将产生的热量转移到需要或使用热量的后续装置作为其主能量源。 该系统可以同时使用各种配置的铁或磁性感应加热衬底的组合。 基板也可以被接合或结合到诸如铝或铜之类的非磁性或铁质材料上，作为传导热能系统的传导热传导路径。 另外，来自磁感应系统的对流和所产生的辐射热可以被引导回产生的热能的累积总和。 主要目标最终能够使电力功率更高的效率，超出现有技术目前的可用性。

公开(公告)号：US11812536B2

公开(公告)日：2023-11-07

申请号：US16897133

申请日：2020-06-09

Applicant: Inductive Engineering Technology, LLC

Inventor： Stamatios Hadoulias ,  Jerome Guzman ,  John C. May ,  Christopher F. Vonderheide

IPC: H05B6/10 ,  H05B6/36 ,  F24H9/1818 ,  F24H9/20 ,  H05B6/06

CPC classification number: H05B6/108 ,  F24H9/1818 ,  F24H9/2014 ,  H05B6/06 ,  H05B6/36 ,  F24H2250/08

Abstract: A magnetic induction heating system is described. The heating system includes a receptacle and a substrate positioned within the receptacle. The substrate includes ferrous material and forms a cavity that can be filled with fluid, such as water or other liquid. An induction coil at least partially encompasses the substrate. A controller provides alternating current to the induction coil. The alternating current in the induction coil induces an electromagnetic field that creates heat in the substrate. The heat in the substrate heats the fluid. The heating system can further include valves on either end of the substrate that enable fluid to move between the cavity and a chamber that is formed by the receptacle.

公开(公告)号：US20170127480A1

公开(公告)日：2017-05-04

申请号：US15401993

申请日：2017-01-09

Applicant: Inductive Engineering Technology, LLC

Inventor： Stamatios Hadoulias ,  Darryl L. Snyder ,  John C. May

IPC: H05B6/10 ,  F24D3/10

CPC classification number: F24D3/1066 ,  F24D5/02 ,  F24D19/1084 ,  F24D2200/08 ,  F24H1/0018 ,  F24H1/106 ,  F24H1/201 ,  F24H3/002 ,  F24H3/022 ,  F24H2250/08 ,  H05B6/06 ,  H05B6/108 ,  H05B6/1209 ,  H05B6/129 ,  Y02B40/123

Abstract: A magnetic induction thermal heat unit, capable of producing heat by magnetic field, inducing direct agitation and friction, at the molecular level within a ferrous magnetic or semi-magnetic thermal conductor. The thermal conductors can be joined or bonded to non-magnetic or ferrous materials as a conductive heat path to a thermal transfer device.

公开(公告)号：US09544945B2

公开(公告)日：2017-01-10

申请号：US15051604

申请日：2016-02-23

Applicant: Inductive Engineering Technology, LLC

Inventor： Stamatios Hadoulias ,  Darryl L. Snyder ,  John C. May

IPC: H05B6/10 ,  H05B6/06 ,  F24H1/00 ,  F24H3/00 ,  H05B6/04 ,  H05B6/12 ,  F24H1/10 ,  F24H1/20 ,  F24H3/02 ,  F24D19/10 ,  F24D5/02

CPC classification number: H05B6/06 ,  F24D5/02 ,  F24D19/1084 ,  F24D2200/08 ,  F24H1/0018 ,  F24H1/106 ,  F24H1/201 ,  F24H3/002 ,  F24H3/022 ,  F24H2250/08 ,  H05B6/04 ,  H05B6/108 ,  H05B6/1209 ,  H05B6/129 ,  Y02B40/123

Abstract: A magnetic induction thermal heat unit, capable of producing heat by magnetic field, inducing direct agitation and friction, at the molecular level within a ferrous magnetic or semi-magnetic substrate. The substrate is specifically designed to capitalize on storing the heat generated and then transferring the heat generated to a subsequent device that requires or uses heat as its primary energy source. The system can use both a combination of induction heated substrates that are ferrous or magnetic in various configurations. The substrates can also be joined or bonded to non-magnetic or ferrous materials such as aluminum or copper as a conductive heat path to a heat pipe system where a transfer of thermal energy occurs. Additionally, convective and resultant radiant heat from the magnetic induction system can be directed back into the cumulative total of heat energy produced. The major objective ultimately being able to produce a greater degree of efficiency per given watt of electricity beyond what is currently available with current technology.

Abstract translation: 一种磁感应热电单元，能够通过磁场产生热量，在铁磁性或半磁性基底内的分子水平引起直接搅拌和摩擦。 基板被专门设计用于储存所产生的热量，然后将产生的热量转移到需要或使用热量的后续装置作为其主能量源。 该系统可以同时使用各种配置的铁或磁性感应加热衬底的组合。 基板也可以接合或结合到诸如铝或铜的非磁性或铁质材料，作为传导热能发生的热管系统的导热热路径。 另外，来自磁感应系统的对流和所产生的辐射热可以被引导回产生的热能的累积总和。 主要目标最终能够使电力功率更高的效率，超出现有技术目前的可用性。