In this paper, one-dimensional analysis of flow in a single-stage gas gun is conducted. The compressible inviscid flow equations are numerically solved by the second-order Roe TVD method, by using moving boundaries. For investigation of real gas effect the Noble-Able equation is applied. The numerical results are compared with the experimental data to validate the numerical scheme. The results show that with using the Noble-Able equation, the muzzle velocity decreases
The simulation of the artillery interior and intermediate ballistics problem is performed to investi...
The mathematical and physical model for underwater sealed gun is established to investigate the flow...
A computational combined solution to the internal and external flows in gun barrels is devised. A co...
A single-stage gas gun driven by mixtures of H2, O2, and He or H2, O2, He, and CO has been used to s...
Gas guns of either one or two stages are very useful and common tools during the testing of aircraf...
The calculation of gas flow during the motion of a projectile in the gun barrel is a complicated com...
In this study, an attempt to calculate the characteristics of gas flow around a projectile during th...
A single stage gas gun driven by the combustion of hydrogen with oxygen has been used to produce rea...
A two-stage light gas gun driven by gaseous detonation was newly constructed, which can make up for ...
A gas gun simulator that permits the generation of relatively clean, reacting, gas-flows with realis...
A gas gun simulator that permits the generation of relatively clean, reacting, gas flows with realis...
A numerical procedure is applied to three principal flow models of a gas gun, the discharge chamber,...
A single-stage gas gun is used for simulating gun tube flows. The gas gun is driven by the combustio...
In this project, an attempt to calculate the characteristics of compressible gas flow around a proje...
A generally applicable numerical simulation method has been developed to simulate the flow of a cond...
The simulation of the artillery interior and intermediate ballistics problem is performed to investi...
The mathematical and physical model for underwater sealed gun is established to investigate the flow...
A computational combined solution to the internal and external flows in gun barrels is devised. A co...
A single-stage gas gun driven by mixtures of H2, O2, and He or H2, O2, He, and CO has been used to s...
Gas guns of either one or two stages are very useful and common tools during the testing of aircraf...
The calculation of gas flow during the motion of a projectile in the gun barrel is a complicated com...
In this study, an attempt to calculate the characteristics of gas flow around a projectile during th...
A single stage gas gun driven by the combustion of hydrogen with oxygen has been used to produce rea...
A two-stage light gas gun driven by gaseous detonation was newly constructed, which can make up for ...
A gas gun simulator that permits the generation of relatively clean, reacting, gas-flows with realis...
A gas gun simulator that permits the generation of relatively clean, reacting, gas flows with realis...
A numerical procedure is applied to three principal flow models of a gas gun, the discharge chamber,...
A single-stage gas gun is used for simulating gun tube flows. The gas gun is driven by the combustio...
In this project, an attempt to calculate the characteristics of compressible gas flow around a proje...
A generally applicable numerical simulation method has been developed to simulate the flow of a cond...
The simulation of the artillery interior and intermediate ballistics problem is performed to investi...
The mathematical and physical model for underwater sealed gun is established to investigate the flow...
A computational combined solution to the internal and external flows in gun barrels is devised. A co...