Calculation for the impulse of micro-detonation thruster

Xiang Hua Guo; Liang Ci Dong; Yuan Hang He; Qing Ming Zhang

Calculation for the impulse of micro-detonation thruster

Xiang Hua Guo^*, Liang Ci Dong, Yuan Hang He, Qing Ming Zhang

^*Corresponding author for this work

School of Mechatronical Engineering

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Using the instantaneous detonation assumption and linear approximation of tiny charge mass, the impulse and thrust of a micro-detonation thrust unit operating in vacuum are theoretically calculated. Based on this, the influences of specific detonation heat, isentropic exponent and length of the nozzle on the impulse and the thrust are studied. Furthermore, by numerical simulation, the time-dependence of the pressure on the end of nozzle is obtained, and the variation of impulse provided by the micro-thruster with the length ratio of nozzle to energetic material is also investigated. The results showed that increasing the charge mass, the isentropic exponent and the specific detonation heat can enhance the impulse of a thrust unit, and the nozzle length must be over 4 times of the charge length to achieve the perfect propulsion performance.

Original language	English
Pages (from-to)	377-380
Number of pages	4
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	28
Issue number	5
Publication status	Published - May 2008

Keywords

Detonation
Energetic material
Impulse
Micro-thruster
Nozzle

Cite this

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title = "Calculation for the impulse of micro-detonation thruster",

abstract = "Using the instantaneous detonation assumption and linear approximation of tiny charge mass, the impulse and thrust of a micro-detonation thrust unit operating in vacuum are theoretically calculated. Based on this, the influences of specific detonation heat, isentropic exponent and length of the nozzle on the impulse and the thrust are studied. Furthermore, by numerical simulation, the time-dependence of the pressure on the end of nozzle is obtained, and the variation of impulse provided by the micro-thruster with the length ratio of nozzle to energetic material is also investigated. The results showed that increasing the charge mass, the isentropic exponent and the specific detonation heat can enhance the impulse of a thrust unit, and the nozzle length must be over 4 times of the charge length to achieve the perfect propulsion performance.",

keywords = "Detonation, Energetic material, Impulse, Micro-thruster, Nozzle",

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T1 - Calculation for the impulse of micro-detonation thruster

AU - Guo, Xiang Hua

AU - Dong, Liang Ci

AU - He, Yuan Hang

AU - Zhang, Qing Ming

PY - 2008/5

Y1 - 2008/5

N2 - Using the instantaneous detonation assumption and linear approximation of tiny charge mass, the impulse and thrust of a micro-detonation thrust unit operating in vacuum are theoretically calculated. Based on this, the influences of specific detonation heat, isentropic exponent and length of the nozzle on the impulse and the thrust are studied. Furthermore, by numerical simulation, the time-dependence of the pressure on the end of nozzle is obtained, and the variation of impulse provided by the micro-thruster with the length ratio of nozzle to energetic material is also investigated. The results showed that increasing the charge mass, the isentropic exponent and the specific detonation heat can enhance the impulse of a thrust unit, and the nozzle length must be over 4 times of the charge length to achieve the perfect propulsion performance.

AB - Using the instantaneous detonation assumption and linear approximation of tiny charge mass, the impulse and thrust of a micro-detonation thrust unit operating in vacuum are theoretically calculated. Based on this, the influences of specific detonation heat, isentropic exponent and length of the nozzle on the impulse and the thrust are studied. Furthermore, by numerical simulation, the time-dependence of the pressure on the end of nozzle is obtained, and the variation of impulse provided by the micro-thruster with the length ratio of nozzle to energetic material is also investigated. The results showed that increasing the charge mass, the isentropic exponent and the specific detonation heat can enhance the impulse of a thrust unit, and the nozzle length must be over 4 times of the charge length to achieve the perfect propulsion performance.

KW - Detonation

KW - Energetic material

KW - Impulse

KW - Micro-thruster

KW - Nozzle

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SN - 1001-0645

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JO - Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology

JF - Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology

IS - 5

ER -

Calculation for the impulse of micro-detonation thruster

Abstract

Keywords

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