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Energetic liquid laser-enhanced propulsion device based on microfluidic technology

A microfluidic technology and propulsion device technology, which is applied in the field of energetic liquid laser-enhanced propulsion devices, can solve the problems of high viscosity of GAP, unfavorable microtube transportation, precise control of flow rate, splash specific impulse, etc., and achieve high specific impulse and Push-to-pulse ratio, waste avoidance, and the effect of shortening ignition delay time

Active Publication Date: 2022-05-13
NANJING UNIV OF SCI & TECH
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  • Abstract
  • Description
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Problems solved by technology

[0003] However, the liquid working fluid has the disadvantages of working fluid splashing and low specific impulse under the action of laser, and GAP (polyazide glycidyl ether) can overcome these problems, improve the specific impulse, and solve the working fluid splashing to a certain extent problem, but GAP has a high viscosity, which is not conducive to the delivery of microtubes and the precise control of flow

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  • Energetic liquid laser-enhanced propulsion device based on microfluidic technology
  • Energetic liquid laser-enhanced propulsion device based on microfluidic technology
  • Energetic liquid laser-enhanced propulsion device based on microfluidic technology

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Embodiment Construction

[0029] The present invention will be described in further detail below in conjunction with the accompanying drawings.

[0030] like Figure 1-3 As shown, an energetic liquid laser-enhanced propulsion device based on microfluidic technology provided by an embodiment of the present invention includes a control unit 5 , a liquid supply device, a pulse ablation device and a hybrid chip 9 . The liquid supply device includes an oxidant liquid storage tank 1, a fuel liquid storage tank 2, an oxidant delivery microtube 301, a fuel delivery microtube 302, an oxidant delivery micropump 401, and a fuel delivery micropump 402; the pulse ablation device includes a laser 6. An optical fiber 7 and an optical fiber connector 8; the hybrid chip 9 includes a microfluidic channel 11, a mixing combustion chamber 12 and a nozzle 10 structure.

[0031] The oxidant delivery micropump 401 is respectively connected to the oxidant liquid storage tank 1 and the mixing chip 9 through the oxidant deliver...

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Abstract

The invention belongs to the field of laser propulsion, and in particular relates to an energy-containing liquid laser-enhanced propulsion device based on microfluidic technology. Including a microfluidic supply system, a microreaction mixed chip system and a laser ablation system; the microfluidic supply system and the microreaction mixed chip system are connected through a microtube, and the propellant is transmitted to the microreaction mixed chip system; the microreaction mixed chip system includes There are two micro-channels and a mixing combustion chamber. There is a nozzle at the outlet of the fluid, and the direction of the axis of the nozzle is the incident direction of the laser pulse; energetic propellants. The propulsion device of the present application can realize fast ignition, controllable thrust and flow, and can provide micro-satellites with high specific impulse and thrust-to-impulse ratio at the same time.

Description

technical field [0001] The invention belongs to the field of laser propulsion, and in particular relates to an energy-containing liquid laser-enhanced propulsion device based on microfluidic technology. Background technique [0002] Laser propulsion technology is a new type of propulsion technology based on the principle of intense laser-matter interaction. Laser propulsion technology is divided into reflective and transmissive. The current research focuses on the transmission laser propulsion technology, and its working medium is divided into two types: solid and liquid. Among them, the liquid has good energy density, and the energy supply can be adjusted according to the needs. [0003] However, the liquid working fluid has the disadvantages of working fluid splashing and low specific impulse under the action of laser, and GAP (polyazide glycidyl ether) can overcome these problems, improve the specific impulse, and solve the working fluid splashing to a certain extent H...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F02K9/42F02K9/46F02K9/56F02K9/95
CPCF02K9/42F02K9/46F02K9/56F02K9/563F02K9/95
Inventor 吴立志曹金乐朱朋沈瑞琪叶迎华
Owner NANJING UNIV OF SCI & TECH
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