Volume 91,   №3

SOLUTION OF AN INVERSE STEFAN PROBLEM IN ANALYZING THE FREEZING OF GROUNDWATER IN A ROCK MASS



A one-dimensional inverse Stefan problem is formulated in cylindrical coordinates. The problem is of interest in the analysis of freezing a mass of rock and forming an iced rock barrier around a single freezing column in building shafts as well as solving the problem of controlling the process of thawing. Additional conditions in the formulation of the inverse problem are the data of experimental measurements of temperatures in thermal boreholes located at a certain given distance from a freezing column and the magnitudes of temperatures and of the cold-carrier fl ow rate in freezing columns. An analytical expression is presented for the functional that determines the measure of proximity of the obtained solution to the exact one. A numerical method has been developed for solving the posed inverse problem by minimizing the functional.
 
 
Author:  L. Yu. Levin, M. A. Semin, and A. V. Zaitsev
Keywords:  iced rock barrier, coeffi cient inverse Stefan problem, minimization of functional, freezing column, controlling-thermal borehole, mass of rock, phase transition, building of shafts.
Page:  611

L. Yu. Levin, M. A. Semin, and A. V. Zaitsev.  SOLUTION OF AN INVERSE STEFAN PROBLEM IN ANALYZING THE FREEZING OF GROUNDWATER IN A ROCK MASS //Journal of engineering physics and thermophysics. . Volume 91, №3. P. 611.


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