RU2001114255A - Method for mounting an underwater pipe bridge and a system for its implementation - Google Patents

Claims (3)

1. The method of installation (laying) of an underwater pipe bridge, including transporting sections of the pipe bridge by water to the installation site, flooding them on underwater supports, sealing, connecting to the entrance and exit tunnels, characterized in that, in order to reduce the complexity of the production of underwater technical works, increase efficiency and reduce construction time, prior to transporting to the installation site, sections of the pipe bridge give buoyancy close to zero, float them on underwater (permanent or temporary) supports with flexible connections with with a load, push the section into the docking unit of the previous section by an underwater vessel, make external and internal sealing of the docked sections and pipelines, for example, by welding, sequentially connect internal communications in the sections, and after completion of the installation, the pipe bridge with tunnels, while simultaneously transporting goods, gas and oil products and etc., and at all stages of installation of an underwater pipe bridge and its subsequent operation, use lifting (pushing) force on an object immersed in water. 2. The system for implementing the method according to claim 1, comprising pump and compressor stations, entry and exit tunnels, an underwater pipe bridge (pipeline) mounted on underwater supports, surface, underwater vessels, floating cranes, characterized in that for ensuring operation (operation) ) the pipe bridge in the underwater position, it is equipped on each bank with a pumping and compressor station connected by pipelines to the ballast cavity of the pipe bridge, entry and exit tunnels, hermetically connected to the underwater pipe bridge, based on underwater supports, which in the upper part are equipped with a semicircular, parabolic or other base, diameter, size, slightly larger than the diameter, size, section (pipe bridge), on which a load is installed, corresponding to its outer surface profile, factory-made sections, design length , with a full set of prefabricated elements, ensuring operation within the transport route, transportation of gas, oil products, fresh water, changing and regulating the volume of ballast (water), for this they They are equipped with a horizontal sealed partition into two cavities, in the upper cavity transport routes are equipped, for example, on a magnetic cushion, monorail, railway, motorway, etc., electric cables of the power and lighting network, communication, alarm, control are laid, pressure sensors, flow meters, mounted fire alarm, fire extinguishing system, etc., the lower cavity of the section is separated by sealed longitudinal partitions, which are internal pipelines, at the end they have a docking unit, an internal di the meter (size) of which is slightly larger than the outer diameter (size) of the section, with a latch in the horizontal plane of the coaxial position of the docked sections, temporary end bulkheads, which are removed after the sections are joined by an underwater assembly vessel equipped in the bow with a grip corresponding to the end circuit of the sections, with floating cranes , vessels with a set of equipment and installation devices for underwater technical work. 3. The system according to claims 1 and 2, characterized in that, depending on the length, depth of the bay, underwater currents, throughput of transport routes, volumes of transportation of gas, oil products, fresh water, etc., the pipe bridge in the cross section has a cylindrical, parabolic or other tube-shaped forms, for example, with several thick-walled shells between which additional longitudinal sealed partitions are mounted around the perimeter, which are both pipelines and stiffeners, or with increased ballast oh capacity.