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Magnetic plasma thrustor supported through lasers

A magnetic plasma and thruster technology, applied in the direction of using plasma, thrust reverser, machine/engine, etc., can solve the problems of performance degradation, cathode ablation, slow dynamic response, etc., and achieve fast thrust response, ionization rate and The effect of improving the utilization rate and improving the working life

Inactive Publication Date: 2016-07-20
NAT UNIV OF DEFENSE TECH
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Problems solved by technology

[0008] Aiming at the problems of complex gas supply system, slow dynamic response, severe cathode ablation, and performance degradation caused by high current oscillation of the magnetic plasma thruster, the purpose of the present invention is to provide a spacecraft with fast dynamic response, high working medium utilization rate, Laser-supported magnetoplasma thruster with high energy conversion efficiency, simple structure, high reliability and long service life

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  • Magnetic plasma thrustor supported through lasers
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Embodiment Construction

[0046] The present invention provides a laser-supported magnetic plasma thruster, which uses laser ablation of a solid working medium to generate plasma airflow, and the airflow is further ionized and accelerated in the thruster discharge channel, thereby enabling the working medium to obtain higher ionization At the same time, using the rapid response capability of the laser, the ablation rate and plasma parameters of the working fluid can be quickly adjusted to control the voltage and current between the discharge electrodes of the thruster, thereby eliminating the phenomenon of large current oscillation and reducing Cathodic ablation phenomenon.

[0047] Reference figure 1 , Is a schematic structural diagram of a specific embodiment of a laser-supported magnetic plasma thruster of the present invention. Including controller 1, thruster power supply 4, working medium supply device 5, working medium 6, coaxial cathode 7, coaxial anode 8, plume protection device 9, beam control s...

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Abstract

The invention provides a magnetic plasma thrustor supported through lasers. The magnetic plasma comprises a thrustor power source for supplying power to all electric equipment in the thrustor; satellite platform electric energy is converted through the thrustor power source to be then supplied to the thrustor; the magnetic plasma thrustor further comprises a working medium supply device, a negative pole, a positive pole and a laser generation mechanism, a discharge channel is formed between the negative pole and the positive pole, the working medium feeding device used for fixing and conveying a working medium is arranged outside the discharge channel, and the working medium is a solid working medium and extends into the discharge channel; and the laser generation mechanism emits laser beams into the discharge channel to conduct ablation on the working medium, the laser beams conduct ablation on the working medium continuously to generate partial ionized gas and particulate matter, and the partial ionized gas and the particulate matter enter the discharge channel. The magnetic plasma thrustor solves the problems that an air supply system is complex, dynamic response is slow, negative pole ablation is serious, and performance reduction is caused by large-current vibration, and the magnetic plasma thrustor which is supported through the lasers and is high in dynamic response, high in working medium using rate and high in energy conversion efficiency is provided for a spacecraft.

Description

Technical field [0001] The invention relates to an electric propulsion system used for space missions such as spacecraft orbit lifting, deep space exploration, and manned landing on Mars. In particular, it is a magnetic plasma thruster that uses laser gasification and partial ionization of a solid working medium, and is mainly accelerated by electromagnetic force, and works in a quasi-steady state or a steady state. Background technique [0002] Magnetoplasma dynamic thruster (MPDT) is an electromagnetically accelerated electric propulsion system with high specific impulse (1000~10000s), high efficiency (more than 30%), high thrust (can be greater than 10N), and thrust density The Yamato system has the advantages of low mass and has become the most suitable thruster for docking with high-power space solar and nuclear energy systems. It has significant advantages in the orbit promotion of large spacecraft, interplanetary navigation and deep space exploration. [0003] The magnetic ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F03H1/00
CPCF03H1/00
Inventor 何振吴建军张宇李健何兆福张华
Owner NAT UNIV OF DEFENSE TECH
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