公开(公告)号：US20160084439A1

公开(公告)日：2016-03-24

申请号：US14960224

申请日：2015-12-04

Applicant: Quantum Fuel Systems Technologies Worldwide, Inc.

Inventor： Neel Sirosh

IPC: F17C1/06

CPC classification number: F17C1/06 ,  F17C1/02 ,  F17C2201/0104 ,  F17C2201/0109 ,  F17C2201/0128 ,  F17C2201/056 ,  F17C2201/06 ,  F17C2203/0604 ,  F17C2203/0619 ,  F17C2203/0639 ,  F17C2203/0646 ,  F17C2203/0648 ,  F17C2203/0656 ,  F17C2203/066 ,  F17C2203/0663 ,  F17C2203/0675 ,  F17C2209/2154 ,  F17C2209/2181 ,  F17C2209/234 ,  F17C2221/012 ,  F17C2221/033 ,  F17C2223/0123 ,  F17C2223/036 ,  F17C2270/0178 ,  Y02E60/321

Abstract: Gas containment vessels are provided that are comprised of an inner corrosion resistant shell made of lower strength steel alloy or aluminum alloy or thermoplastic polymer, and an outer concentric shell constructed of high strength, albeit lower corrosion resistant, metal or fiber-reinforced composite. The fiber can comprise filaments derived from basaltic rocks, the filaments having been immersed in a thermosetting or thermoplastic polymer matrix, and comingled with carbon, glass or aramid fibers such that there is load sharing between the basaltic fibers and carbon, glass or aramid fibers.

Abstract translation: 提供的气体容纳容器包括由低强度钢合金或铝合金或热塑性聚合物制成的内部耐腐蚀外壳，以及由高强度，尽管较低的耐腐蚀金属或纤维增强复合材料构成的外部同心壳。 纤维可以包含源自玄武岩的细丝，长丝已经浸入热固性或热塑性聚合物基质中，并且与碳，玻璃或芳族聚酰胺纤维一起使用，使得在玄武纤维与碳，玻璃或芳族聚酰胺纤维之间存在负载共享。

公开(公告)号：US20140166670A1

公开(公告)日：2014-06-19

申请号：US13714700

申请日：2012-12-14

Applicant: Neel Sirosh

Inventor： Neel Sirosh

IPC: F17C1/10

CPC classification number: F17C1/06 ,  F17C1/02 ,  F17C2201/0104 ,  F17C2201/0109 ,  F17C2201/0128 ,  F17C2201/056 ,  F17C2201/06 ,  F17C2203/0604 ,  F17C2203/0619 ,  F17C2203/0639 ,  F17C2203/0646 ,  F17C2203/0648 ,  F17C2203/0656 ,  F17C2203/066 ,  F17C2203/0663 ,  F17C2203/0675 ,  F17C2209/2154 ,  F17C2209/2181 ,  F17C2209/234 ,  F17C2221/012 ,  F17C2221/033 ,  F17C2223/0123 ,  F17C2223/036 ,  F17C2270/0178 ,  Y02E60/321

Abstract: Gas containment vessels are provided that are comprised of an inner corrosion resistant shell made of lower strength steel alloy or aluminum alloy or thermoplastic polymer, and an outer concentric shell constructed of high strength, albeit lower corrosion resistant, metal or fiber-reinforced composite. The fiber can comprise filaments derived from basaltic rocks, the filaments having been immersed in a thermosetting or thermoplastic polymer matrix, and comingled with carbon, glass or aramid fibers such that there is load sharing between the basaltic fibers and carbon, glass or aramid fibers.

Abstract translation: 提供的气体容纳容器包括由低强度钢合金或铝合金或热塑性聚合物制成的内部耐腐蚀外壳，以及由高强度，尽管较低的耐腐蚀金属或纤维增强复合材料构成的外部同心壳。 纤维可以包含源自玄武岩的细丝，长丝已经浸入热固性或热塑性聚合物基质中，并且与碳，玻璃或芳族聚酰胺纤维一起使用，使得在玄武纤维与碳，玻璃或芳族聚酰胺纤维之间存在负载共享。

公开(公告)号：US08746359B2

公开(公告)日：2014-06-10

申请号：US12310249

申请日：2006-08-24

Applicant: Roger Rüdén

Inventor： Roger Rüdén

IPC: A62C3/00

CPC classification number: B60K15/03 ,  A62C3/065 ,  A62C4/00 ,  B60K15/077 ,  B60K2015/03381 ,  B60K2015/0775 ,  B65D90/22 ,  F17C13/123 ,  F17C2201/06 ,  F17C2221/01 ,  F17C2221/03 ,  F17C2223/0123 ,  F17C2223/0153 ,  F17C2260/042 ,  F17C2270/0168

Abstract: The invention relates to an element (7) intended to decrease the risk of explosion when handling fuel inside a container (1). The element is adapted to be positioned inside the container and is arranged to suppress a possible combustion of the fuel inside the container. The invention also relates to a use of such an element inside a container to decrease the risk for explosion when handling fuel.

Abstract translation: 本发明涉及一种用于在处理容器（1）内的燃料时降低爆炸危险的元件（7）。 该元件适于定位在容器内部并且被布置成抑制容器内的燃料的可能的燃烧。 本发明还涉及这样的元件在容器内的使用，以减少处理燃料时爆炸的风险。

公开(公告)号：US08132667B2

公开(公告)日：2012-03-13

申请号：US12489136

申请日：2009-06-22

Applicant: Joerg Zimmermann

Inventor： Joerg Zimmermann

IPC: F17C1/00 ,  F17C11/00

CPC classification number: C01B3/0078 ,  C01B3/0084 ,  F17C1/00 ,  F17C11/00 ,  F17C11/005 ,  F17C2201/06 ,  F17C2221/012 ,  F17C2221/035 ,  F17C2223/0123 ,  F17C2223/035 ,  F17C2270/07 ,  F17C2270/0763 ,  H01M8/04201 ,  H01M8/065 ,  Y02E60/321 ,  Y02E60/324 ,  Y02P20/129 ,  Y02P70/56

Abstract: Embodiments of the invention relate to a fluid enclosure including a structural filler and an outer enclosure wall conformably coupled to the structural filler. Embodiments of the present invention further relate to a method of manufacturing a fluid enclosure. The method includes conformably coupling an outer enclosure wall to a structural filler.

Abstract translation: 本发明的实施例涉及一种流体外壳，其包括结构填料和与该结构填料一致地连接的外壳壁。 本发明的实施例还涉及制造流体外壳的方法。 该方法包括将外壳壁顺应地连接到结构填料。

公开(公告)号：US20100236798A1

公开(公告)日：2010-09-23

申请号：US12310249

申请日：2006-08-24

Applicant: Roger Rüden

Inventor： Roger Rüden

IPC: A62C3/00

CPC classification number: B60K15/03 ,  A62C3/065 ,  A62C4/00 ,  B60K15/077 ,  B60K2015/03381 ,  B60K2015/0775 ,  B65D90/22 ,  F17C13/123 ,  F17C2201/06 ,  F17C2221/01 ,  F17C2221/03 ,  F17C2223/0123 ,  F17C2223/0153 ,  F17C2260/042 ,  F17C2270/0168

Abstract: The invention relates to an element (7) intended to decrease the risk of explosion when handling fuel inside a container (1). The element is adapted to be positioned inside the container and is arranged to suppress a possible combustion of the fuel inside the container. The invention also relates to a use of such an element inside a container to decrease the risk for explosion when handling fuel.

Abstract translation: 本发明涉及一种用于在处理容器（1）内的燃料时降低爆炸危险的元件（7）。 该元件适于定位在容器内部并且被布置成抑制容器内的燃料的可能的燃烧。 本发明还涉及这样的元件在容器内的使用，以减少处理燃料时爆炸的风险。

公开(公告)号：US20020078824A1

公开(公告)日：2002-06-27

申请号：US10008132

申请日：2001-12-05

Inventor： Glenn M. Tom ,  James V. McManus

IPC: B01D053/22

CPC classification number: B01D53/0446 ,  B01D2253/10 ,  B01D2253/102 ,  B01D2253/104 ,  B01D2253/106 ,  B01D2253/112 ,  B01D2253/202 ,  B01D2253/308 ,  B01D2256/26 ,  B01D2257/20 ,  B01D2257/2025 ,  B01D2257/2045 ,  B01D2257/2047 ,  B01D2257/304 ,  B01D2257/406 ,  B01D2257/70 ,  B01D2259/40083 ,  B01D2259/4525 ,  B01J20/20 ,  F17C7/00 ,  F17C11/00 ,  F17C13/04 ,  F17C13/045 ,  F17C2201/0109 ,  F17C2201/032 ,  F17C2201/06 ,  F17C2205/0111 ,  F17C2205/0142 ,  F17C2205/0146 ,  F17C2205/0173 ,  F17C2205/0176 ,  F17C2205/0329 ,  F17C2205/037 ,  F17C2223/0123 ,  F17C2223/038 ,  F17C2227/0135 ,  F17C2227/0302 ,  F17C2250/01 ,  F17C2250/032 ,  F17C2250/0636 ,  F17C2270/0518 ,  Y10S95/901 ,  Y10S95/902

Abstract: A gas supply system including a gas cabinet defining an enclosure including therein a gas dispensing manifold and one or more adsorbent-based gas storage and dispensing vessels mounted in the enclosure and joined in gas flow communication with the gas dispensing manifold. The enclosure may be maintained under low or negative pressure conditions for enhanced safety in the event of leakage of gas from the gas storage and dispensing vessel(s) in the enclosure. The gas supply system may be coupled to a gas-consuming unit in a semiconductor manufacturing facility, e.g., an ion implanter, an etch chamber, or a chemical vapor deposition reactor.

公开(公告)号：US6015106A

公开(公告)日：2000-01-18

申请号：US145000

申请日：1998-09-01

Applicant: Thomas A. Turgeon ,  David J. Colburn ,  Christopher R. Yungers

Inventor： Thomas A. Turgeon ,  David J. Colburn ,  Christopher R. Yungers

IPC: B02C19/20 ,  B02C23/16 ,  F17C7/00 ,  H01M8/04 ,  H01M8/06 ,  H01M16/00 ,  B02C19/12

CPC classification number: H01M16/006 ,  F17C7/00 ,  H01M8/04089 ,  F17C2201/0119 ,  F17C2201/056 ,  F17C2201/06 ,  F17C2203/0646 ,  F17C2203/066 ,  F17C2205/0341 ,  F17C2221/012 ,  F17C2223/0123 ,  F17C2223/036 ,  F17C2250/032 ,  F17C2265/04 ,  F17C2270/0184 ,  Y02E60/321

Abstract: Apparatus controllably breaks hollow spheres stored in an enclosure. A first screen is disposed within the enclosure on a screen support. The screen has holes that are no larger in mesh size than the smallest hollow spheres. The screen support provides support to the first screen and has void areas to allow debris from broken spheres to pass through. An impeller is in contact with the first screen such that movement of the impeller across the first screen breaks the hollow spheres in contact with the first screen.

Abstract translation: 设备可控制地破坏存储在外壳中的空心球体。 第一屏幕设置在屏幕支架的外壳内。 屏幕具有不小于最小空心球的网格尺寸的孔。 屏幕支持提供对第一屏幕的支持，并且具有空白区域以允许破碎的球体中的碎片通过。 叶轮与第一筛网接触，使得叶轮跨越第一筛网的运动破坏与第一筛网接触的中空球体。

公开(公告)号：US3302415A

公开(公告)日：1967-02-07

申请号：US42248264

申请日：1964-12-14

Applicant: COMP GENERALE ELECTRICITE

Inventor： JEAN ROYET

IPC: F17C3/08 ,  F17C11/00 ,  F25B9/00 ,  F25D3/10

CPC classification number: F25D3/10 ,  F17C3/085 ,  F17C11/00 ,  F17C2201/06 ,  F17C2203/03 ,  F17C2223/0161 ,  F17C2227/0135 ,  F17C2227/0302 ,  F17C2227/0337 ,  F17C2227/039 ,  F25B9/00

公开(公告)号：US20180180221A1

公开(公告)日：2018-06-28

申请号：US15389374

申请日：2016-12-22

Applicant: Steelhead Composites, LLC

Inventor： Kaushik Mallick ,  Michael W. Stewart ,  Annalisa Padget-Shields ,  Jacob Schrader ,  John Cronin ,  Andrew Coors

IPC: F17C1/06

CPC classification number: F17C1/06 ,  F17C2201/0109 ,  F17C2201/0185 ,  F17C2201/056 ,  F17C2201/058 ,  F17C2201/06 ,  F17C2203/0604 ,  F17C2203/0619 ,  F17C2203/0629 ,  F17C2203/0634 ,  F17C2203/0639 ,  F17C2203/0646 ,  F17C2203/0648 ,  F17C2203/066 ,  F17C2203/0665 ,  F17C2203/0668 ,  F17C2209/2109 ,  F17C2209/2154 ,  F17C2209/227 ,  F17C2209/232 ,  F17C2221/014 ,  F17C2221/016 ,  F17C2223/0123 ,  F17C2260/011 ,  F17C2270/0554

Abstract: The present invention provides a lightweight high pressure vessels that are made from a liner or a liner housing that is overwrapped with a composite material. Unlike conventional high pressure vessels, the lightweight high pressure vessel of the invention includes a liner that comprises a plurality of liner sections without using welding or crimping. In particular, the lightweight high pressure vessels of the invention include a plurality of elements that are combined to form a liner housing and a composite overwrap that provides structural and mechanical strength to maintain integrity of the high pressure vessel. In one particular embodiment, the high pressure vessel of the invention is a diaphragm accumulator.

公开(公告)号：US09638372B2

公开(公告)日：2017-05-02

申请号：US14423347

申请日：2013-07-18

Applicant: SIEMENS AKTIENGESELLSCHAFT

Inventor： Joachim Hoffmann

IPC: B63G8/08 ,  B63H21/00 ,  B63H21/38 ,  F17C11/00 ,  F17C6/00 ,  F17C9/02 ,  H01M8/04029 ,  C01B3/00 ,  H01M8/04089 ,  H01M8/04082 ,  F17C9/04 ,  B63G8/00 ,  B63J3/00 ,  B63J99/00

CPC classification number: F17C9/02 ,  B01D2257/104 ,  B01D2257/108 ,  B01D2259/4516 ,  B01D2259/4566 ,  B63G8/001 ,  B63G8/08 ,  B63G2008/002 ,  B63H21/00 ,  B63H21/38 ,  B63H2021/003 ,  B63J2003/001 ,  B63J2099/003 ,  C01B3/0026 ,  F17C6/00 ,  F17C9/04 ,  F17C11/00 ,  F17C2201/06 ,  F17C2221/011 ,  F17C2221/012 ,  F17C2223/0161 ,  F17C2223/033 ,  F17C2225/0123 ,  F17C2225/033 ,  F17C2250/01 ,  F17C2265/032 ,  F17C2270/0131 ,  F17C2270/0184 ,  F17C2270/0581 ,  H01M8/04029 ,  H01M8/04089 ,  H01M8/04208 ,  H01M8/04216 ,  H01M2250/20 ,  Y02E60/321 ,  Y02E60/327 ,  Y02E60/50 ,  Y02T70/5263 ,  Y02T90/32 ,  Y02T90/38

Abstract: An operating gas system for an underwater vehicle, particularly for a submarine or an unmanned underwater vehicle, includes a fuel cell system and an operating gas vessel connected in terms of flow to the fuel cell system. In order to achieve simple and efficient storage of boil-off gasses, a gas-receiving device is also provided and is connected to the operating gas vessel. The gas-receiving device contains a sorbent for receiving boil-off gas from the operating gas vessel. The boil-off gas, which is produced in the operating vessel with an operating gas for the fuel cell system and which cannot be consumed directly in the fuel cell reaction, is therefore collected and stored with the aid of the sorbent in the gas-receiving device. A method for operating an operating gas system and an underwater vehicle are also provided.