RU2149978C1 - Method of arrangement of blowout preventer equipment under offshore conditions - Google Patents

Abstract

FIELD: gas-and-oil production and geological exploration; applicable in control of open oil and gas blowouts on offshore wells. SUBSTANCE: method of arrangement of blowout preventer equipment in control of open blowouts on offshore drilling objects with use of crane ship includes arrangement of assembly by pulling mechanism and its suspension above wellhead. Wave rolling is compensated by tackle block system which consists of two blocks with wire rope whose free ends are connected freely to hanging counterweights with rope ends passed through snatch rollers. The method provides for reduction of number of floating cranes for arrangement of blowout preventer equipment onto well mouth of blowing well under offshore conditions, use of free vertical space between hook of floating crane and well base flange for layout of equipment involved in arrangement operations. EFFECT: simplified process technology of method and its increased efficiency. 1 dwg

Description

 The invention relates to gas and oil exploration and exploration industries and is intended for the elimination of open oil and gas fountains in offshore wells.

 There is a method of pointing blowout equipment (air defense) at the mouth of a gushing well located on an offshore stationary platform having the necessary horizontal areas for the installation of rope equipment [1].

In the known method, self-made vertical movements of blowout control equipment together with the vessel under the influence of waves are compensated by the use of a free-hanging load as a traction mechanism. The sequence of work is as follows:
- induced blowout control equipment is lifted and taken away from the gushing jet using the main crane vessel;
- a freely hanging load is lifted by an auxiliary vessel;
- carry out the tying of the circuit elements with rope equipment;
- an auxiliary vessel shall lower a freely hanging load;
- the main crane vessel feeds blowout equipment into the stream of the gushing well and lowers it to the mouth.

Temporary sealing of the flange connection prior to the installation of standard studs is provided by the weight of a freely hanging load. However, the known method of pointing blowout equipment at the mouth of a gushing well in marine conditions has several disadvantages:
- the method is designed to guide blowout equipment at the mouth of wells drilled or drilled from offshore stationary platforms, and cannot be used when drilling with SSF (semi-submersible drilling rig) and BS (drilling ship), where there are no necessary horizontal areas for the deployment of rope equipment;
- the scheme requires a second auxiliary crane vessel;
- the work of the tackle mechanism is carried out in a jet of a gushing well;
- significant time spent on cleaning and preparing the area for the installation of equipment.

 The aim of the invention is to reduce the number of floating cranes for the operation to guide blowout equipment at the mouth of a gushing well in offshore conditions, to use the free vertical space between the hook of a floating crane and the base flange of a well to place equipment used during an air defense guidance operation, to simplify the guidance process technology increasing its effectiveness.

 This goal is achieved by the fact that in the method of guiding blowout preventers during the elimination of open fountains at offshore drilling facilities, including tying the assembly and hanging it above the mouth with a floating crane, guiding the assembly by a traction mechanism and wave pump compensation, according to the invention, the wave pump compensation is carried out with a tackle system consisting of two tackle blocks tied with a steel rope, to the free ends of which, passed through the pull rollers, are attached one hanging counterweight.

 The drawing shows a guide scheme blowout equipment at the mouth of a gushing well.

 The layout of machinery and equipment includes a floating crane (not shown in the diagram), equipped with its own tackle system with a hanging hook 1, tackle system 2 for full swing compensation, line-up 3 (set) of blowout preventer equipment, downpipe 4 and wire rope guidance equipment 5.

 The tackle system 2 includes two tackle blocks 6, 7, tied with a steel rope 8, to the free ends of which, passed through the pulling rollers 9, are free-hanging counterloads 10. One of the tackle blocks is suspended from the hook 1 of the floating crane, and to the second tackle block 7 using hook 11 suspended assembly (assembly) 3 blowout equipment with a branch pipe 4. The total weight of the counterweights 10 should be equal to the weight of the lineup.

 The guidance rope equipment 5 includes a rope wrapping around the column head 12 and passed through the pin holes of the landing flange 13 of the column head 12 and the base flange 14 of the well 15. The free ends of the rope passed through the balancing rollers 16 are fed to the traction mechanism mounted on the platform.

 All tying the layout of the equipment and the floating crane is done away from the gushing well. Then, using a floating crane, she hangs over her mouth. Using rope equipment, the traction mechanism carries out the guidance operation by selecting the rope. If necessary, simultaneously lowering the hook 1 of the floating crane.

 Compensation of the wave pumping is carried out due to the free-wheeling of the tackle system with suspended counterweights.

Sources of information
1. Radkovsky V.R. and other equipment and tools for the prevention and elimination of fountains. Directory. - M .: Nedra, 1996, p. 148-150.

Claims (1)

 A method for guiding blowout preventers during the elimination of open fountains at offshore drilling facilities using a floating crane, including tying the assembly and hanging it over the mouth with a floating crane, guiding the assembly with a traction mechanism and wave-wave compensation, characterized in that the wave-wave compensation is carried out by a tackle system, consisting of two tackle blocks tied with a steel rope, to the free ends of which, passed through the pulling rollers, are freely hanging e counterloads.