| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 射流控制设备及方法 | CN201380026238.5 | 2013-04-04 | CN104321540B | 2016-11-02 | 维多利亚·苏波尼斯基; 桑德拉·朱斯蒂娜·巴尔斯基; J·迈克尔·G·拉伯齐; 道格拉斯·哈维·理查森; 彼得·莱谢克·科斯特卡 |
| 描述了一种射流控制设备的示例。该射流控制设备可以包括射流偏转构件,该射流偏转构件构造成拦截自射流形成位置出现的高速射流和/或与该高速射流相撞。射流偏转构件与射流的相互作用可以促使高速射流散布成具有许多流动方向的多股射流,该许多流动方向相对于高速射流的初始方向可能是偏斜的。在一种实施方式中,偏转构件可以包括通过将流体射出出口喷嘴而形成的液体导引部,使得该液体导引部远离出口喷嘴纵向地延伸。在另一实施方式中,偏转构件可以包括沿高速射流出现的方向通过出口注射的固体颗粒的阵列,此阵列构造为与出现的射流相撞从而使该射流的初始方向偏转。 | ||||||
| 2 | 射流控制设备及方法 | CN201380026238.5 | 2013-04-04 | CN104321540A | 2015-01-28 | 维多利亚·苏波尼斯基; 桑德拉·朱斯蒂娜·巴尔斯基; J·迈克尔·G·拉伯齐; 道格拉斯·哈维·理查森; 彼得·莱谢克·科斯特卡 |
| 本发明描述了一种射流控制设备的示例。该射流控制设备可以包括射流偏转构件,该射流偏转构件构造成拦截自射流形成位置出现的高速射流和/或与该高速射流相撞。射流偏转构件与射流的相互作用可以促使高速射流散布成具有许多流动方向的多股射流,该许多流动方向相对于高速射流的初始方向可能是偏斜的。在一种实施方式中,偏转构件可以包括通过将流体射出出口喷嘴而形成的液体导引部,使得该液体导引部远离出口喷嘴纵向地延伸。在另一实施方式中,偏转构件可以包括沿高速射流出现的方向通过出口注射的固体颗粒的阵列,此阵列构造为与出现的射流相撞从而使该射流的初始方向偏转。 | ||||||
| 3 | Jet control devices and methods | US14385898 | 2013-04-04 | US09267515B2 | 2016-02-23 | Victoria Suponitsky; Sandra Justine Barsky; J. Michel G. Laberge; Douglas Harvey Richardson; Peter Leszek Kostka |
| Examples of a jet control device are described. The jet control device can comprise a jet deflecting member that is configured to intercept and/or collide with a high speed jet emerging from a jet formation location. The interaction of the jet deflecting member and the jet can cause the high speed jet to be dispersed into a plurality of jets with a number of flow directions which may be sideways to an initial direction of the high speed jet. In one embodiment the deflecting member can include a liquid guide formed by injecting a fluid out of an outlet nozzle so that the liquid guide extends longitudinally away from the outlet nozzle. In another embodiment the deflecting member can include an array of solid pellets injected through an outlet in a direction of the emerging high speed jet and configured to collide with the emerging jet thereby deflecting its initial direction. | ||||||
| 4 | ELECTRICAL POWER GENERATION SYSTEMS AND METHODS REGARDING SAME | US15314196 | 2015-05-29 | US20170104426A1 | 2017-04-13 | Randell L. Mills |
| A solid or liquid fuel to plasma to electricity power source that provides at leas; one of electrical and thermal power comprising (i) at least one reaction cell for the catalysis of atomic hydrogen to form hydrinos, (ii) a chemical feel mixture comprising at least two components chosen from: a source of H2O catalyst or H2O catalyst; a source of atomic hydrogen or atomic hydrogen; reactants to form the source of H2O catalyst or H2O catalyst and a source of atomic hydrogen or atomic hydrogen; one or more reactants to initiate the catalysis of atomic hydrogen; and a material to cause the feel to be highly conductive, (iii) a fuel injection system such as a railgun shot injector, (iv) at least one set of electrodes that confine the fuel and an electrical power source that provides repetitive short bursts of low-voltage, high-current electrical energy to initiate rapid kinetics of the hydrino reaction and an energy gain due to forming hydrinos to torn! a brilliant-light emitting plasma, (v) a product recovery system such as at least one of an augmented plasma railgun recovery system and a gravity recovery system (vi) a fuel pelletizer or shot maker comprising a s me Her. a source or hydrogen and a source of H2O, a dripper and a water bath to form fuel pellets or shot, and an agitator to teed shot into the injector, and (vii) a power converter capable of converting the high-power light output of the cell into electricity such as a concentrated solar power device comprising a plurality of ultraviolet (UV) photoelectric cells or a plurality of photoelectric cells, and a UV window. | ||||||
| 5 | Jet control devices and methods | US14963868 | 2015-12-09 | US09463478B2 | 2016-10-11 | Victoria Suponitsky; Sandra Justine Barsky; J. Michel G. Laberge; Douglas Harvey Richardson; Peter Leszek Kostka |
| Examples of a jet control device are described. The jet control device can comprise a jet deflecting member that is configured to intercept and/or collide with a high speed jet emerging from a jet formation location. The interaction of the jet deflecting member and the jet can cause the high speed jet to be dispersed into a plurality of jets with a number of flow directions which may be sideways to an initial direction of the high speed jet. In one embodiment the deflecting member can include a liquid guide formed by injecting a fluid out of an outlet nozzle so that the liquid guide extends longitudinally away from the outlet nozzle. In another embodiment the deflecting member can include an array of solid pellets injected through an outlet in a direction of the emerging high speed jet and configured to collide with the emerging jet thereby deflecting its initial direction. | ||||||
| 6 | Jet control devices and methods | US15247740 | 2016-08-25 | US10092914B2 | 2018-10-09 | Victoria Suponitsky; Sandra Justine Barsky; J. Michel G. Laberge; Douglas Harvey Richardson; Peter Leszek Kostka |
| Examples of a jet control device are described. The jet control device can comprise a jet deflecting member that is configured to intercept and/or collide with a high speed jet emerging from a jet formation location. The interaction of the jet deflecting member and the jet can cause the high speed jet to be dispersed into a plurality of jets with a number of flow directions which may be sideways to an initial direction of the high speed jet. In one embodiment the deflecting member can include a liquid guide formed by injecting a fluid out of an outlet nozzle so that the liquid guide extends longitudinally away from the outlet nozzle. In another embodiment the deflecting member can include an array of solid pellets injected through an outlet in a direction of the emerging high speed jet and configured to collide with the emerging jet thereby deflecting its initial direction. | ||||||
| 7 | JET CONTROL DEVICES AND METHODS | US15247740 | 2016-08-25 | US20160361729A1 | 2016-12-15 | Victoria Suponitsky; Sandra Justine Barsky; J. Michel G. Laberge; Douglas Harvey Richardson; Peter Leszek Kostka |
| Examples of a jet control device are described. The jet control device can comprise a jet deflecting member that is configured to intercept and/or collide with a high speed jet emerging from a jet formation location. The interaction of the jet deflecting member and the jet can cause the high speed jet to be dispersed into a plurality of jets with a number of flow directions which may be sideways to an initial direction of the high speed jet. In one embodiment the deflecting member can include a liquid guide formed by injecting a fluid out of an outlet nozzle so that the liquid guide extends longitudinally away from the outlet nozzle. In another embodiment the deflecting member can include an array of solid pellets injected through an outlet in a direction of the emerging high speed jet and configured to collide with the emerging jet thereby deflecting its initial direction. | ||||||
| 8 | JET CONTROL DEVICES AND METHODS | US14963868 | 2015-12-09 | US20160107176A1 | 2016-04-21 | Victoria Suponitsky; Sandra Justine Barsky; J. Michel G. Laberge; Douglas Harvey Richardson; Peter Leszek Kostka |
| Examples of a jet control device are described. The jet control device can comprise a jet deflecting member that is configured to intercept and/or collide with a high speed jet emerging from a jet formation location. The interaction of the jet deflecting member and the jet can cause the high speed jet to be dispersed into a plurality of jets with a number of flow directions which may be sideways to an initial direction of the high speed jet. In one embodiment the deflecting member can include a liquid guide formed by injecting a fluid out of an outlet nozzle so that the liquid guide extends longitudinally away from the outlet nozzle. In another embodiment the deflecting member can include an array of solid pellets injected through an outlet in a direction of the emerging high speed jet and configured to collide with the emerging jet thereby deflecting its initial direction. | ||||||
| 9 | JET CONTROL DEVICES AND METHODS | US14385898 | 2013-04-04 | US20150034164A1 | 2015-02-05 | Victoria Suponitsky; Sandra Justine Barsky; J. Michel G. Laberge; Douglas Harvey Richardson; Peter Leszek Kostka |
| Examples of a jet control device are described. The jet control device can comprise a jet deflecting member that is configured to intercept and/or collide with a high speed jet emerging from a jet formation location. The interaction of the jet deflecting member and the jet can cause the high speed jet to be dispersed into a plurality of jets with a number of flow directions which may be sideways to an initial direction of the high speed jet. In one embodiment the deflecting member can include a liquid guide formed by injecting a fluid out of an outlet nozzle so that the liquid guide extends longitudinally away from the outlet nozzle. In another embodiment the deflecting member can include an array of solid pellets injected through an outlet in a direction of the emerging high speed jet and configured to collide with the emerging jet thereby deflecting its initial direction. | ||||||
| 10 | ジェット制御デバイス及び方法 | JP2015503719 | 2013-04-04 | JP2015518118A | 2015-06-25 | ヴィクトリア スポニツキー; サンドラ ジャスティン バースキー; ジェイ ミシェル ジー ラバージュ; ダグラス ハーヴィー リチャードソン; ピーター レシェク コストカ |
| ジェット制御デバイスの例を説明する。ジェット制御デバイスは、ジェット形成場所から射出する高速ジェットを捕捉し、及び/又はそれと衝突するように構成されたジェット偏向部材を含むことができる。ジェット偏向部材とジェットの相互作用は、高速ジェットを高速ジェットの初期方向に対して横向きとすることができるいくつかの流れ方向を有する複数のジェットに分散させることができる。一実施形態において、偏向部材は、出口ノズルから流体を注入することによって形成された液体ガイドを含むことができ、そのために液体ガイドは、出口ノズルから長手に遠ざかるように延びる。別の実施形態において、偏向部材は、出口を通して射出高速ジェットの方向に注入されて射出ジェットと衝突し、それによって射出ジェットの初期方向を偏向するように構成された固体ペレットのアレイを含むことができる。【選択図】図2 | ||||||
| 11 | ジェット制御デバイス及び方法 | JP2015503719 | 2013-04-04 | JP5965052B2 | 2016-08-03 | スポニツキー ヴィクトリア; バースキー サンドラ ジャスティン; ラバージュ ジェイ ミシェル ジー; リチャードソン ダグラス ハーヴィー; コストカ ピーター レシェク |
| 12 | JET CONTROL DEVICES AND METHODS | EP13772356.5 | 2013-04-04 | EP2834525B1 | 2017-07-26 | SUPONITSKY, Victoria; BARSKY, Sandra Justine; LABERGE, J. Michel G.; RICHARDSON, Douglas Harvey; KOSTKA, Peter Leszek |
| 13 | JET CONTROL DEVICES AND METHODS | EP13772356 | 2013-04-04 | EP2834525A4 | 2016-01-13 | SUPONITSKY VICTORIA; BARSKY SANDRA JUSTINE; LABERGE J MICHEL G; RICHARDSON DOUGLAS HARVEY; KOSTKA PETER LESZEK |
| 14 | JET CONTROL DEVICES AND METHODS | EP13772356.5 | 2013-04-04 | EP2834525A1 | 2015-02-11 | SUPONITSKY, Victoria; BARSKY, Sandra Justine; LABERGE, J. Michel G.; RICHARDSON, Douglas Harvey; KOSTKA, Peter Leszek |
| Examples of a jet control device are described. The jet control device can comprise a jet deflecting member that is configured to intercept and/or collide with a high speed jet emerging from a jet formation location. The interaction of the jet deflecting member and the jet can cause the high speed jet to be dispersed into a plurality of jets with a number of flow directions which may be sideways to an initial direction of the high speed jet. In one embodiment the deflecting member can include a liquid guide formed by injecting a fluid out of an outlet nozzle so that the liquid guide extends longitudinally away from the outlet nozzle. In another embodiment the deflecting member can include an array of solid pellets injected through an outlet in a direction of the emerging high speed jet and configured to collide with the emerging jet thereby deflecting its initial direction. | ||||||
| 15 | 제트 컨트롤 장치 및 방법 | KR1020147029372 | 2013-04-04 | KR1020140142300A | 2014-12-11 | 수포니트스키,빅토리아; 바스키,산드라저스틴; 라버즈,제이.미쉘지.; 리챠드슨,더글라스하비; 코스트카,피터레스젝 |
| 제트 컨트롤 장치의 예가 설명된다. 제트 컨트롤 장치는 제트 형성 위치로부터 출현하는 고속 제트를 방해하거나 충돌하도록 구성된 제트 편향 멤버를 포함할 수 있다. 상기 제트 편향 멤버와 제트의 상호 작용은 고속의 제트가 다수의 흐름 방향을 갖는 다수의 제트로 분산되도록 하며, 상기 다수의 흐름 방향은 고속 제트의 초기 방향 사이드웨이가 될 수 있다. 한 실시 예에서 상기 편향 멤버는 출구 노즐로부터 유체를 분사함에 의해 형성된 액체 가이드를 포함하며, 상기 액체 가이드가 상기 출구 노즐로부터 수직으로 연장되도록 한다. 또 다른 실시 예에서 , 상기 편향 멤버는 출연하는 고속 제트의 방향으로 출구를 통해 주입되며, 출현하는 제트와 충돌하도록 구성된 솔리드 펠릿 배열을 포함하며 이에 의해 초기 방향을 편향하도록 한다.
|
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| 16 | 제트 컨트롤 장치 및 방법 | KR1020147029372 | 2013-04-04 | KR101615063B1 | 2016-04-22 | 수포니트스키,빅토리아; 바스키,산드라저스틴; 라버즈,제이.미쉘지.; 리챠드슨,더글라스하비; 코스트카,피터레스젝 |
| 제트컨트롤장치의예가설명된다. 제트컨트롤장치는제트형성위치로부터출현하는고속제트를방해하거나충돌하도록구성된제트편향멤버를포함할수 있다. 상기제트편향멤버와제트의상호작용은고속의제트가다수의흐름방향을갖는다수의제트로분산되도록하며, 상기다수의흐름방향은고속제트의초기방향사이드웨이가될 수있다. 한실시예에서상기편향멤버는출구노즐로부터유체를분사함에의해형성된액체가이드를포함하며, 상기액체가이드가상기출구노즐로부터수직으로연장되도록한다. 또다른실시예에서 , 상기편향멤버는출연하는고속제트의방향으로출구를통해주입되며, 출현하는제트와충돌하도록구성된솔리드펠릿배열을포함하며이에의해초기방향을편향하도록한다. | ||||||
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