SU1719563A1 - Prospecting and development technique for subsurface water pools - Google Patents

Abstract

The invention relates to the exploration and exploitation of groundwater and can be used in multilayer deposits of deep-lying mineral heat-and-power, industrial, and other groundwater. The purpose of the invention is to reduce material and labor costs, reducing the area of alienated land, reducing the risk of harmful effects on the environment. In the area of the field, sites are selected that are not used for agricultural and other production, but suitable for drilling. At each of these sites (production sites), drilling rigs are mounted, mixed groups of production and injection wells are drilled with minimal installation distances between their mouths, with wellbore deviations from the vertical, and in each mixed group production and injection wells reveal different aquifers with alternating depth, and on adjacent sites - alternating in the opposite order. The downhole of production wells are deflected in one direction, and the injection wells in the opposite direction. At the final stage of exploration of the field, each site is equipped with technological equipment. The subsequent operation of the field is carried out by pumping groundwater, their technological conversion and / or heat removal and re-injection of wastewater at each production site. 2 hp f-ly. 1 il. sl su sl o so

Description

The invention relates to the exploration of groundwater and its operation, and can be used in exploration and industrial development of multilayer fields with deep occurrence of aquifers containing mineral, thermal power, industrial and other groundwater.

The purpose of the invention is to reduce material and labor costs, reduce the area of alienated land, reduce the risk of harmful effects on the environment.

The drawing shows a diagram of the implementation of the proposed method of exploration and exploitation of groundwater deposits.

The method is implemented as follows.

In the area of the field, represented by aquifers I-IV, separated by aqueducts, plots of land that are not used in agricultural and other production but are suitable for drilling operations are selected. If necessary, make preparatory measures (planning, etc.).

At the selected site (sites) mount the rig. Drilling and equipment of a production or injection, exploration or production well. The well is constructed inclined towards one of the productive horizons with a deviation from the vertical by the maximum distance allowed by the technical conditions and requirements. Then, without dismantling, the drilling rig is moved to the minimum allowable installation distance and the next well is drilled to the same or a different horizon.

The total number of wells depends on the size of the site, the number of production horizons, their filtration properties, available technical means, the number of production areas, etc.

In accordance with this, this issue is decided separately in each particular case. However, they implement some general rules.

The bottom holes of production wells are deflected in one direction, and injection wells - in the opposite direction in order to avoid inrush of injected water through relative water pipes and through the annulus. At the same time, production wells are installed on some layers (for example, 1 and III), and injection wells - on others (I and IV).

At the adjacent site, the same operations are performed, but the opening of the layers by production and injection wells is performed in the opposite order compared to the first site (layers II + IV and I + 111, respectively), etc. at each production site.

At the final stage, the technological equipment of the field is made at each site: the installation of pumps, the construction of technological modules for the conversion of industrial waters and / or heat exchangers for the utilization of heat from thermal waters.

The operation of the field consists in extracting groundwater from production wells, supplying them for processing or / and extracting heat and pumping wastewater into injection wells in the same area. To the consumer serves the finished product (semi-finished product) or heated environmentally safe water.

The greatest effect proposed

the method reaches large multi-layer deposits. The implementation of this method can significantly reduce the time and cost

exploration and preparation of deep groundwater deposits for industrial development, save a significant amount of valuable land, improve the ecological situation.

Claims (3)

1. The method of exploration and exploitation of groundwater, represented by alternating aquifers and relatively waterproof layers, including drilling and development of groups of production and groups of injection wells, sequentially revealing in each group of aquifers, extraction of groundwater with the technological redistribution of industrial groundwater, heat removal from thermal energy and the maintenance of reservoir pressure by re-injection of wastewater, which is environmental impact, wells are constructed by mixed groups, each of which includes both production and injection wells, and are located on a separate compact operating site with minimum installation distances between the wellheads, and at each of the sites the production and injection wells reveal different aquifers with alternating depths, and adjacent sites - alternating in the opposite order. 2. The method according to claim 1, which is based on the fact that, in order to prevent the outflow of waste water to the production wells through relatively resistant layers, increasing the operational reserves of the field by increasing the area of the exploited site without increasing the area of mining allotment, drilling wells lead with a deviation of the barrel from the vertical, and the bottom of the production and injection wells belonging to the same group, s separated by different sides. 3. The method according to claim 1, characterized in that the technological redistribution of industrial groundwater and the heating of the thermal energy waters is carried out by separate modules at each production site. 1 ШШ ± 1Ш 7GT Development Zone /BUT