RU2044117C1 - Method for formation of dry land on sea and ocean bottom - Google Patents

Abstract

FIELD: civil engineering. SUBSTANCE: sea or ocean plot is enclosed with multi-contour closed dam. Then water is removed out of enclosed section, the contours are linked with stiffening coffers, and side surface of the main outer dam is made ribbed. A system to transfer sea streams to opposite direction is installed in dam body. EFFECT: high strength of the dam. 9 cl, 2 dwg

Description

 The invention relates to hydraulic engineering, mainly artificial islands, which can be used for the construction of naval aviation, fish, cargo naval bases, structures of the navy and merchant fleet, cultural and recreational enterprises, locations and communications.

 Known methods for creating artificial islands, which allow you to create the necessary prerequisites for the settlement of most of the land building islands on the ocean floor.

 Closest to the invention is a method of forming a new land area by a main dam above the maximum water level of the sea or ocean bottom section and subsequent complete removal of water from the space enclosed by the dam.

 This method allows you to organize small bulk territories without exposing the bottom of the seas and oceans for its further use.

 The aim of the invention is the creation of new dry territories, mainly in neutral waters, at the bottom of the seas and oceans.

 This is achieved by the fact that a section of the sea or oceanic water area planned for drainage in neutral waters is enclosed by a multi-contour support closed dam along the perimeter, with a height higher than the maximum possible water level, while the dam has open receiving and emitting openings connected to the radial and vertical channel system, inside the dam connected at the intersection by controlled dampers, allowing redistributing currents of sea currents and ground waters relative to the average direction of their movement, directing them along the same route. Further, complete removal of water is made from the enclosed sea space, and to reduce turbulence in depths, controlled radial fins are installed parallel to the bottom plane on the lateral surface of the dam body, and to create “quiet water”, an elastic surface wave damper is attached to the dam’s surface. water area of a hydroaerodrome. The support multi-circuit dam serves as the foundation of the required structures of the new dry territory and the aerodynamic stabilizer of the atmosphere inside the dam.

 The method is illustrated in FIG. 1 and 2.

 The method is implemented as follows.

 Selected geographically, military-strategic, economical, hydrogeological, energetic and for the brevity of transport links section (s) 1 of the marine area with shallow depths of the required dimension. Clarifying the location and nomenclature of research, then one of the known methods is erected multi-circuit dam 2, the base structure 3.

 During construction, a system of radial 4 and vertical 5 channels, water intake and water return openings 6, as well as controlled dampers 7, which with sensors 8 and the control machine of the complex (Fig. 1 shows position 9 of the control location of the complex) are mounted in dam 2 during construction water currents of sea currents along the previous routes, collection and removal of groundwater under the dam.

 To obtain energy from sea currents, mini-electric generators 22 are installed in the intake-water supply channels 6. In order to increase the seismic stability of the dam, it is multi-circuit, with each cascade of the contour mechanically decoupled from the previous and subsequent ones and pivotally connected to each other 10, including ceilings 11 and self-mounted supports the sole 12 of the dam 2. The installation site of the dam has a seal base 14.

 After the installation of the base structure 3 and dam 2 from the enclosed sea space, the water is completely removed and the bottom 14 is dried by concentrated solar radiation from the reflectors 28. In order to prevent turbulence of the currents along the depths, a radial controlled finning is installed on the side surface of the dam body facing the water parallel to the bottom plane. 15 included in the control system. And to create "quiet water" to the outer side surface of the dam 2 and / or the base structure 3 is attached an elastic waveguard 16, which is also a compensator for ice compression. The surface 17 of the supporting multi-contour dam serves as the foundation or support for the construction of new structures inside the formed dry territory, for example, structure 18. As a result of this technology, it is possible to use new areas of the earth’s surface not only as strategically convenient bases, but also open access to dry development of large reserves of minerals, oil, gas.

 In order to strengthen the water body of the dam 2 and the bottom surface 19 around its perimeter at the base from the sole 13 to the water surface, self-cleaning light emitters 20 with overlapping radiation patterns 20 are supplied from the light guides 21, which transmit and accumulate the energy collected by the collectors 33 during the daytime solar radiation at various depths along the side surface of the dam, which contributes to the rapid growth and development of marine plants, mollusks, fish in the adjacent body of water, at the bottom of the wok A friend of the structure and the lateral surface of the dam accelerates its biological entry and consolidation in this environment.

To exclude the flooding of the new territory 14 from precipitation, an unforced drainage system 23 is laid under an unused part of the territory, similar to that used in subways. In order to avoid freezing "quiet waters" fenced-ldorazrushayuschey flexible waveguide system 16, the control system 9 arranges the output water flows from the bottom at a temperature ^of 4 ± 0,5 C. waters "quiet water" that leads to the creation of structures during operation in polar areas to melt water independent of the season in front of the dam and, as a consequence, the exclusion of cases of ice compression of the dam 2. The berths of ships 24 and airfields 25 are based on the newly formed territory on a special base structure 3, these angling significantly above the maximum possible water level, including during tidal and storm effects.

 In order to eliminate icy processes, and during thawing during the summertime, overmoistening of the dam 2 and the base structure 3 in the summer, the energy generated by the generators 22 is used to heat the quays 24 and the airfield runways 25, as well as the main energy supply of the subsystems of complex 2, 3. The same energy is similarly used for soil heating formed land. In order to remove condensate from the inner side surface of the main and additional contours of the dam 2 and the base structure 3, gutters 26 are mounted on their inner side radially by floors to collect thermal condensate of water vapor on the inner side surface of the dam connected to the water drainage system 23. In addition, the internal the lateral surface of the dam 2 is covered with a layer 27 reflecting light and absorbing infrared rays, providing multiple reflection of light energy within the inner walls of the dam to complete attenuation. To attract additional solar energy to the inside of the formed territory 14 and to supply the optical fiber system 20, 21, 22, self-governing solar concentrators 28 are installed along the perimeter of dam 2.

 In order to expand the connection between the new land and the continents, the complex includes the “quiet water” water area of hydroaerodrome 29 with a practically zero flow rate. For this purpose, the water area of the hydroaerodrome 29 is enclosed by a single-circuit dam 30 with an internal current equalization system 31, which makes it possible to create “standing water” inside the hydroaerodrome at any external change in the sea currents, while maintaining a direct connection with the sea or ocean.

 Dams 2 and 30 have the aerodynamic design of the portion 32 above the water, which makes it possible to stabilize the passage of air masses without breakthroughs and exhaust air over the newly formed land area.

The proposed technical solution allows:
accelerate the development of new territories of planet Earth occupied by the water spaces of closed reservoirs, seas and oceans;
to produce open-cast mining of oil and gas from the bottom of the seas and oceans;
create oceanic bases for the reproduction and processing of marine products and sea water;
reduce foreign exchange expenses of the Navy, Navy and civilian aircraft and ship companies, repair and parking fleet bases in strategically important regions of the world by organizing naval bases in new dry areas of the seabed;
to reduce costs, time for sea and air trade in goods of Russia and neighboring countries due to the transit addressing of goods, their concentration and storage, which in turn will effectively influence regional markets around the world;
to expand the strategic coverage of the Navy and the Air Force of the regions of the world that are of interest to Russia due to their permanent presence thanks to local base;
to create cultural and sanatorium health recreation centers in various climatic conditions of the earth with clean water and air;
annex new dry territories of the planet, create coastal and economic zones by joining Russia. Make various formations based on them;
to place stations or large nodes of navigation, location and communication in regions of the world convenient for these network systems.

Claims (9)

 1. METHOD FOR FORMING A NEW SUSHI TERRITORY ON THE SEA AND OCEAN BOTTOM, including a main dam fence with a height higher than the maximum water level along the perimeter of the sea or ocean floor section and the subsequent complete removal of water from the space enclosed by the dam, characterized in that parallel to each section of the main dam is installed the corresponding section of the protective one- or multi-circuit dam, which are connected to each other by hinged reinforcing bridges, in the body of at least one dam and / or between the raft n operate transfer system water flows of currents at its opposite side, and the main side surface of the dam facing the sea, operate with multiple controllable fins disposed parallel to the bottom to stabilize the flow of water flowing around a dam in depth.  2. The method according to claim 1, characterized in that in the space between the main and the protective dams, caissons are installed, which are connected to the water drainage system through Congstons.  3. The method according to claim 1, characterized in that the dam foundations hinged are continuous along the perimeter with seismic sealing trapezoidal protrusions directed to the base of the dam bed.  4. The method according to p. 1, characterized in that the main dam is performed with an elastic fence.  5. The method according to claim 1, characterized in that the part of the foundation lying below the sole is made as a fence from the groundwater of the drained territory with a drainage system for their removal.  6. The method according to p. 1, characterized in that the outer surface of the main dam, located under water and ribbed for the direction of movement of the water pressure of the sea currents at depths, is also performed for the direction of the current along given profiles.  7. The method according to p. 1, characterized in that the outer surface of the main dam is performed with natural light sources, fed through the optical fibers from concentrators, which are installed on the surface of the dam.  8. The method according to claim 1, characterized in that bottom water is supplied to the fenced "quiet water" section in the winter to the side surface of the main dam facing the sea.  9. The method according to claim 1, characterized in that along the perimeter of the crest of the dam are stabilized movements of air masses over the formed land area.

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