公开(公告)号：US20140223924A1

公开(公告)日：2014-08-14

申请号：US14177781

申请日：2014-02-11

Applicant: CHART INC.

Inventor： Keith Gustafson ,  Erik Gustafson ,  Jeff Patelczyk ,  David Davis ,  Michael Sable ,  Luis Serentill ,  Peter Murray

IPC: F17C13/00

CPC classification number: F17C9/02 ,  B60K2015/03013 ,  B60K2015/03315 ,  F02M21/0212 ,  F02M21/0221 ,  F02M21/06 ,  F17C7/04 ,  F17C13/123 ,  F17C2201/056 ,  F17C2205/0326 ,  F17C2205/0332 ,  F17C2205/0335 ,  F17C2205/0338 ,  F17C2205/0391 ,  F17C2205/0394 ,  F17C2221/033 ,  F17C2223/0161 ,  F17C2223/033 ,  F17C2223/047 ,  F17C2225/0123 ,  F17C2225/045 ,  F17C2227/0316 ,  F17C2227/0323 ,  F17C2227/0381 ,  F17C2227/039 ,  F17C2227/0393 ,  F17C2250/043 ,  F17C2250/0439 ,  F17C2250/0447 ,  F17C2250/0491 ,  F17C2250/0495 ,  F17C2260/018 ,  F17C2265/065 ,  F17C2265/066 ,  F17C2270/0168 ,  Y02T10/32

Abstract: An integrated cryogenic fluid delivery system includes a cryogenic liquid tank having an interior, a wall and a geometry. The interior of the cryogenic liquid tank contains a supply of cryogenic liquid. A fuel pickup line is positioned within the interior of the tank and is in fluid communication with a vaporizer so that the vaporizer receives and vaporizes cryogenic liquid from the tank. The vaporizer is positioned outside of the tank and is secured to the wall. The vaporizer also has a shape that conforms with the geometry of the tank.

Abstract translation: 集成的低温流体输送系统包括具有内部，壁和几何形状的低温液体罐。 低温液体罐的内部含有低温液体供应。 燃油拾取线定位在罐的内部并且与蒸发器流体连通，使得蒸发器从罐接收和蒸发低温液体。 蒸发器位于罐的外部并固定到壁上。 蒸发器还具有符合罐的几何形状的形状。

公开(公告)号：US20140096539A1

公开(公告)日：2014-04-10

申请号：US14044622

申请日：2013-10-02

Applicant: CHART, INC.

Inventor： Keith Gustafson ,  Erik Gustafson

IPC: F17C7/04

CPC classification number: F17C7/04 ,  B60K2015/03013 ,  F02M21/0215 ,  F02M21/0221 ,  F02M21/023 ,  F02M21/0287 ,  F17C7/02 ,  F17C2201/056 ,  F17C2201/058 ,  F17C2205/0134 ,  F17C2221/033 ,  F17C2223/0153 ,  F17C2223/0161 ,  F17C2227/0107 ,  F17C2227/0302 ,  F17C2227/0393 ,  F17C2265/066 ,  F17C2270/0107 ,  F17C2270/0178 ,  Y02T10/32

Abstract: A cryogenic fluid delivery system includes a tank adapted to contain a supply of cryogenic liquid, with the tank including a head space adapted to contain a vapor above the cryogenic liquid stored in the tank. A liquid withdrawal line is adapted to communicate with cryogenic liquid stored in the tank. A vaporizer has an inlet that is in communication with the liquid withdrawal line and an outlet that is in communication with a vapor delivery line. A pressure building circuit is in communication with the vapor delivery line and the head space of the tank. The pressure building circuit includes a flow inducing device and a control system for activating the flow inducing device when a pressure within the head space of the tank drops below a predetermined minimum pressure and/or when other conditions exist.

Abstract translation: 低温流体输送系统包括适于容纳低温液体供应的罐，所述罐包括适于容纳储存在罐中的低温液体上方的蒸气的顶部空间。 液体排出管线适于与存储在罐中的低温液体连通。 蒸发器具有与液体排出管线连通的入口和与蒸气输送管线连通的出口。 压力建筑电路与蒸汽输送管线和罐的顶部空间连通。 压力建筑电路包括流动诱导装置和用于当罐的顶部空间内的压力低于预定的最小压力时和/或当其他条件存在时启动流动诱导装置的控制系统。

公开(公告)号：US12152734B2

公开(公告)日：2024-11-26

申请号：US17529470

申请日：2021-11-18

Applicant: Chart Inc.

Inventor： Erik Gustafson

IPC: F17C3/08

Abstract: A low-cost getter material comprising palladium and manganese oxide and methods of making the same. A tank including said getter material, and a method of removing hydrogen gas.

公开(公告)号：US20220282837A1

公开(公告)日：2022-09-08

申请号：US17686842

申请日：2022-03-04

Applicant: Chart Inc.

Inventor： Erik Gustafson

IPC: F17C13/04 ,  F17C5/04

Abstract: A nozzle includes a nozzle bayonet with a warm seal positioned at a distal end and a nose seal positioned at a proximal end so that a distal passage is defined between the warm and nose seals. The nozzle also includes a nozzle poppet valve. Purge and vent lines are in fluid communication with the distal passage. A receptacle includes a receptacle poppet valve, a receptacle inner tube and a receptacle outer tube with a receptacle insulation space defined therebetween. A coupling space is defined between an outer casing and the receptacle outer tube. The receptacle coupling space receives the nozzle bayonet. The receptacle sequentially engages the warm seal and the nose seal of the nozzle during insertion of the nozzle bayonet into the receptacle coupling space with the nozzle and receptacle poppets engaging to open the nozzle and receptacle poppet valves when the nozzle bayonet is fully inserted into the receptacle coupling space.

公开(公告)号：US20220146046A1

公开(公告)日：2022-05-12

申请号：US17524458

申请日：2021-11-11

Applicant: Chart Inc.

Inventor： Erik Gustafson

IPC: F17C5/02 ,  G05D16/00

Abstract: A body structure has an inlet port that receives fluid, a first outlet port that connects to a top-fill line of a cryogenic tank, a second outlet port that connects to a bottom-fill line of a cryogenic tank and a slider tube cylinder. A cylinder housing connects to the body structure and has a pressure comparison cylinder with upper and lower volumes, with the latter in fluid communication with a cryogenic tank. A piston having a piston shaft slides within the pressure comparison cylinder. A pressure regulator is in fluid communication with the upper volume and the slider tube cylinder. A slider tube is connected to the piston shaft and slides within the slider tube cylinder. The slider tube cylinder selectively directs fluid to a top-fill line through the first outlet port or to a bottom-fill line through the second outlet port.

公开(公告)号：US09746132B2

公开(公告)日：2017-08-29

申请号：US13623048

申请日：2012-09-19

Applicant: CHART INC.

Inventor： Keith Gustafson ,  Erik Gustafson

IPC: F17C7/04 ,  F02M21/02

CPC classification number: F17C7/04 ,  F02M21/0215 ,  F02M21/0221 ,  F02M21/023 ,  F02M21/0287 ,  F17C2201/056 ,  F17C2201/058 ,  F17C2205/0134 ,  F17C2221/033 ,  F17C2223/0153 ,  F17C2223/0161 ,  F17C2227/0107 ,  F17C2227/0302 ,  F17C2227/0393 ,  F17C2265/066 ,  F17C2270/0178 ,  Y02T10/32

Abstract: Described herein are at least systems and methods for cryogenic fluid delivery which utilize pumpless delivery of cryogenic fluid. The systems and methods utilize hydraulic pressure, saturation pressure, or a combination of both hydraulic pressure and saturation pressure to deliver cryogen to a use device, such as an engine.