论文信息 - On the Entropy Production Due to Explosion in Seawater

On the Entropy Production Due to Explosion in Seawater

The change in entropy is calculated due to propagation of blast waves, produced by the explosion of spherical charge in sea water, using the energy hypothesis of Thomas. The release of energy is considered as instantaneous and the gravitation of earth is taken into account, assuming the earth to be a sphere of uniform density. For the sake of simplicity, effect of rotation of the earth is not considered. The explosion is considered at different depths. It has been found that the change in entropy of water decreases at different radial points, as the shock moves away from the point of explosion. Explosion occurred at larger depths, produces a smaller change in entropy of water, then the explosion of same energy, at smaller depths. Directional dependence of entropy production and the motion of the shock are also studied. It has been found that, entropy production is larger in upward motion of the underwater shock. However the shock velocity increases in downward direction.

Atul Sharma | P. K. Agarwal | R. P. Yadav

[1] M. Rao,et al. Self-similar flows with increasing energy—IV: Piston driven flows of water , 1973 .

[2] J. S. Buchanan,et al. Measurement of high intensity stress pulses , 1959 .

[3] Ilya Prigogine,et al. Introduction to Thermodynamics of Irreversible Processes , 1967 .

[4] P. L. Sachdev,et al. Spherical piston problem in water , 1969, Journal of Fluid Mechanics.

[5] C. Hunter. On the collapse of an empty cavity in water , 1960, Journal of Fluid Mechanics.

[6] Richard Courant,et al. Supersonic Flow And Shock Waves , 1948 .

[7] On the thermodynamic stability of steady-state adiabatic systems , 1988 .

[8] O. Bhutani. Propagation and attenuation of a cylindrical blast wave in magnetogasdynamics , 1966 .

[9] A. Chattopadhyay,et al. Heat and Thermodynamics , 1952 .

[10] Ibrahim Dincer,et al. Energy, Entropy and Exergy Concepts and Their Roles in Thermal Engineering , 2001, Entropy.

[11] J. Kirkwood,et al. Theory of the Propagation of Shock Waves , 1947 .

[12] J. S. Dowker,et al. Fundamentals of Physics , 1970, Nature.

[13] J. Miller. Numerical Analysis , 1966, Nature.