Numerical simulation research of loitering munitions aerodynamics

Guang Lin He; Xiu Ling Ji; Tai Heng Zhang

Numerical simulation research of loitering munitions aerodynamics

Guang Lin He^*
, Xiu Ling Ji
, Tai Heng Zhang

^*Corresponding author for this work

Beijing Institute of Technology

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

5 Citations (Scopus)

Abstract

Aerodynamics of loitering munition is studied in this paper. The aerodynamic characteristics of loitering munition with non-circular body and body-airfoil-empennage combination are calculated numerically at Ma=0.4 based on multi-griddings patching technology, in the range of angle of attack -4°-10°, and the analytical results were compared with those from wind tunnel experiments, they show a good consistency. Analysis of the results showed that the normal force generated by non-circular cross-section missile increases with the angle of attack. At α≥6°, normal force achieved by missile body can take up to 10% of the total lift. Together with the lifting surface, the loitering munitions can provide a better lift to drag ratio, an improved weapon range and a good longitudinal stability. Copyright Protection.

Original language	English
Pages (from-to)	258-261
Number of pages	4
Journal	Journal of Beijing Institute of Technology (English Edition)
Volume	18
Issue number	3
Publication status	Published - Sept 2009
Externally published	Yes

Keywords

Aerodynamics
Loitering munition
Non-circular section body
Numerical simulation

Cite this

@article{b770319273044e7ba63073a4b9bd3206,

title = "Numerical simulation research of loitering munitions aerodynamics",

abstract = "Aerodynamics of loitering munition is studied in this paper. The aerodynamic characteristics of loitering munition with non-circular body and body-airfoil-empennage combination are calculated numerically at Ma=0.4 based on multi-griddings patching technology, in the range of angle of attack -4°-10°, and the analytical results were compared with those from wind tunnel experiments, they show a good consistency. Analysis of the results showed that the normal force generated by non-circular cross-section missile increases with the angle of attack. At α≥6°, normal force achieved by missile body can take up to 10\% of the total lift. Together with the lifting surface, the loitering munitions can provide a better lift to drag ratio, an improved weapon range and a good longitudinal stability. Copyright Protection.",

keywords = "Aerodynamics, Loitering munition, Non-circular section body, Numerical simulation",

author = "He, \{Guang Lin\} and Ji, \{Xiu Ling\} and Zhang, \{Tai Heng\}",

year = "2009",

month = sep,

language = "English",

volume = "18",

pages = "258--261",

journal = "Journal of Beijing Institute of Technology (English Edition)",

issn = "1004-0579",

publisher = "Beijing Institute of Technology",

number = "3",

}

TY - JOUR

T1 - Numerical simulation research of loitering munitions aerodynamics

AU - He, Guang Lin

AU - Ji, Xiu Ling

AU - Zhang, Tai Heng

PY - 2009/9

Y1 - 2009/9

N2 - Aerodynamics of loitering munition is studied in this paper. The aerodynamic characteristics of loitering munition with non-circular body and body-airfoil-empennage combination are calculated numerically at Ma=0.4 based on multi-griddings patching technology, in the range of angle of attack -4°-10°, and the analytical results were compared with those from wind tunnel experiments, they show a good consistency. Analysis of the results showed that the normal force generated by non-circular cross-section missile increases with the angle of attack. At α≥6°, normal force achieved by missile body can take up to 10% of the total lift. Together with the lifting surface, the loitering munitions can provide a better lift to drag ratio, an improved weapon range and a good longitudinal stability. Copyright Protection.

AB - Aerodynamics of loitering munition is studied in this paper. The aerodynamic characteristics of loitering munition with non-circular body and body-airfoil-empennage combination are calculated numerically at Ma=0.4 based on multi-griddings patching technology, in the range of angle of attack -4°-10°, and the analytical results were compared with those from wind tunnel experiments, they show a good consistency. Analysis of the results showed that the normal force generated by non-circular cross-section missile increases with the angle of attack. At α≥6°, normal force achieved by missile body can take up to 10% of the total lift. Together with the lifting surface, the loitering munitions can provide a better lift to drag ratio, an improved weapon range and a good longitudinal stability. Copyright Protection.

KW - Aerodynamics

KW - Loitering munition

KW - Non-circular section body

KW - Numerical simulation

UR - https://www.scopus.com/pages/publications/70350602703

M3 - Article

AN - SCOPUS:70350602703

SN - 1004-0579

VL - 18

SP - 258

EP - 261

JO - Journal of Beijing Institute of Technology (English Edition)

JF - Journal of Beijing Institute of Technology (English Edition)

IS - 3

ER -

Numerical simulation research of loitering munitions aerodynamics

Abstract

Keywords

Other files and links

Fingerprint

Cite this