SU1659590A1 - Method for thermal consolidation of ground - Google Patents

Abstract

The invention relates to the construction, in particular to the strengthening of clay and loess soils by thermal action mainly in the form of a support, and is aimed at increasing efficiency. This is achieved by the fact that auxiliary wells are formed to the depth of the upper loosened layer. The main well is sealed at the bottom of the auxiliary wells. The soil is heated to the location of the moisture threshold from the main well, at a distance determined from the dependence. Mathematical dependence is given. 1 silt, 1 tab.

Description

The invention relates to the construction, in particular to the strengthening of clay and loess soils by thermal action, mainly in the form of a support.

The purpose of the invention is to increase efficiency.

The drawing shows schematically the reinforced soil, the wells and the placement of equipment and means of process control, the section.

The method is implemented as follows.

In the reinforced soil 1, the main 2 well is formed and evenly around it at level 3 of the upper loosened layer, usually with vegetation / sealed at the bottom of auxiliary wells 4, the main well 2 with gate 5, connected to the hot gas generator 6, is injected into the strengthened soil 1 and periodically the movement of the humidity threshold 7 is measured by measuring its maximum value with portable moisture meters 8 until the set heating temperature, for example, to eliminate subsidence 300-400 ° C, reaches the external circuit 9 cm EPL emogo lot that is determined from the relationship

R - p TS.T

KP - Cr--,

 with I p

where Rp is the radius of thermal soil stabilization, m;

Tc, Tp, Tp - temperatures, respectively, in the well, given by the contour of the humidity threshold, ° С.

If the level 3 of the sealing of the main well 2 does not exceed 0.8-1.2 m, then the auxiliary wells 4 form in the form of a slot along the radius of the reinforced soil (not shown) and visually check the movement of the humidity threshold along their bottom, since the top 10 of threshold 7 is clearly indicated at the bottom of such slits. At the same time, the temperature of the soil on the threshold is almost Tp 80-90C0.

PRI me R. At the pilot site, the term w was performed using the described technology.

Yo

ABOUT

ate P

O1 ×)

about

strengthening of the subsidence soil in the form of supports in two areas with different sealing depths of the main well 0.8 and 1.2 m. Equipment: Burovskaya BGM-15 machine, USVT.-800 hot gas generator, NIV-2 moisture meter, MTI construction gates . At the same time, a similar section was strengthened in a known manner. The comparison results are shown in the table.

Thus, the proposed method reduces the amount of ground work and time for the formation of auxiliary wells, simplifies process control, reduces the cost of work.

Claims (1)

Invention Formula The method of thermal strengthening of the soil, mainly in the form of a support, including the formation of the main and auxiliary wells around it, sealing the main well, generating and forcing it into the soil through the main well heated gases and heating the soil on the external circuit to a predetermined temperature with determining the location of the humidity threshold, characterized in that efficiency increases, the formation of auxiliary wells lead to the depth of the upper loosened layer, the main well is sealed at the bottom of the auxiliary wells, and the soil is heated to the location of the humidity threshold from the main well at a distance determined from D - about with TP R -RpTP V where Tc is the temperature in the well, ° C; Tr - preset temperature of soil heating on the external circuit, ° С, Тп - soil temperature along the contour of humidity threshold, ° С; Rp - radius of thermal soil stabilization, m