Pages that link to "Item:Q1932259"

The following pages link to Fundamentals of rotating detonations (Q1932259):

Displaying 15 items.

• Further investigations on the interface instability between fresh injections and burnt products in 2-D rotating detonation (Q720943) (← links)
• Rotating detonation wave in an annular gap (Q721433) (← links)
• Parallel three-dimensional numerical simulation of rotating detonation engine on graphics processing units (Q1645599) (← links)
• Effects of thermal wall conditions on rotating detonation (Q1647132) (← links)
• Similarity solutions for magnetogasdynamic shock waves in a rotating ideal gas using the Lie group-theoretic method (Q2060964) (← links)
• Similarity solutions for magnetogasdynamic cylindrical shock wave in rotating non-ideal gas using Lie group theoretic method (Q2062645) (← links)
• Multidimensional wave fronts propagation along the beams associated with thermodynamic model of a rotating detonation engine (Q2289270) (← links)
• Development of a fast evaluation tool for rotating detonation combustors (Q2294811) (← links)
• Numerical study on three-dimensional flow field of continuously rotating detonation in a toroidal chamber (Q2451551) (← links)
• Galloping and spinning modes of subsonic detonation (Q4506044) (← links)
• Analytical and numerical study of the expansion effect on the velocity deficit of rotating detonation waves (Q5030685) (← links)
• Interpretation of wake instability at slip line in rotating detonation (Q5031495) (← links)
• Similarity solutions for cylindrical shock wave in rotating non-ideal gas using Lie group theoretic method (Q6492623) (← links)
• Lie symmetry analysis and optimal system for shock wave in a self-gravitating rotating ideal gas under the effect of magnetic field and monochromatic radiation (Q6541214) (← links)
• Similarity solutions for strong magnetogasdynamic cylindrical shock wave in rotating axisymmetric ideal gas with radiation heat flux using Lie group theoretic method (Q6601229) (← links)