Check Valve Coiled Tubing Tools Made in China

Model NO.: CTTK
Standard: API 11d1
Trademark: Serva
Transport Package: Export Standard
Origin: China
Model NO.: CTTK
Standard: API 11d1
Trademark: Serva
Transport Package: Export Standard
Origin: China
COILED TUBING TOOLS

DUAL FLAPPER CHECK VALVE
The Dual Flapper Check Valve is used in situations where the operator wishes to eliminate the flow or potential flow of fluids back through the work string while running or retrieving pipe under pressure.
The Dual Flapper Check Valve is designed so that the flow area through the valve is equal to or greater than the cross sectional area of I.D. of the valve seat. The Dual Flapper Check Valves are easy to assemble or disassemble, a new flapper cartridge can be inserted in a matter of minutes. The Dual Flapper Check Valve combines reliability, minimum flow restrictions, and the ability to pump wiper plugs or to drop balls through the valve for disconnects, etc.
As with ball type check valves, rust, scale, paraffin, dried hydrocarbons or materials do not pose a threat of plugging this flapper check valve due to the ability to pump through the valve at all times.
The flapper valve and seat are directly exposed to the pumped fluid and some errosion may occur on the seat surface and possibly the flapper valve itself, depending on a variety of factors including velocity through the valve, abrasiveness of the fluid pumped, solids content, and duration of the exposure. The flappers and valve seats should be checked and replaced when required
SPECIFICATIONS
Part Number Max OD Min ID Thread
(in) (in)
D96-5150-100 1.500 0.620 1" AMMT
D96-5168-100 1.687 0.687
D96-5175-100 1.750 0.687
D96-5212-100 2.125 0.891 1.5" AMMT
D96-5225-100 2.250 1.031
D96-5237-100 2.375 1.000
D96-5287-100 2.875 1.369 2 3/8" PAC
D96-5312-100 3.125 1.442
D96-5312-102 3.125 1.442 2 3/8" EUE
D96-5387-101 3.875 2.125 2 7/8" EUE

TWIN FLAPPER CHECK VALVE WITH LOCK-OUT SLEEVE
The Twin Flapper Check Valve with Lock-Out Sleeve is a coiled tubing string component that can be run in the locked out position and activated with a drop ball when required to perform as a downhole safety barrier. Its use provides a means of preventing the back flow of well fluids into the coiled tubing in the event of failure or damage to the coiled tubing string or surface equipment.
The design of the Twin Flapper Check Valve incorporates a dual sealing system in each flapper assembly for increased safety. A teflon seat provides the primary low pressure seal, while at higher pressure the flapper seals on a metal to metal arrangement.
It is ideally suited to CT velocity string systems allowing activation by a drop ball prior to pulling the string from the well.
Design Features/Benefits:
  • Dual sealing in each flapper cartridge i.e. low pressure Teflon seat/seal and high pressure full metal to metal seat/seal
  • Full bore fluid passage for balls, darts & plugs
  • Removable flapper cartridges
  • Simple drop ball activation
SPECIFICATIONS
Part Number Max OD Min ID Ball OD Thread
(in) (in) (in)
D96-5175-300 1.750 0.470 5/8 1" AMMT
D96-5218-300 2.187 0.750 13/16 1.5"AMMT
D96-5287-300 2.875 1.000 1 1/16
D96-5312-300 3.125 1.000 1 1/16 2 3/8"REG
D96-5350-300 3.500 1.375 11/2 2 7/8"PAC

BALL CHECK VALVE
The Ball Check Valve is a standard coiled tubing string component. Its use in a tool string provides a means of preventing the back flow of fluids into the coiled tubing in the event of failure or damage to the surface equipment.
Ball Check Valves are used when devices such as balls and darts do not need to pass through the valve. In the event of a ball or dart needing to be dropped a Flapper Valve must be used.
Design Features/Benefits:
  • Large flow area
  • Easy redress
  • Metal to metal sealing
SPECIFICATIONS
Part Number Max OD Min ID Thread
(in) (in)
D96-5168-200 1.687 0.750 1" AMMT
D96-5212-200 2.125 1.000 1.5" AMMT
D96-5225-200 2.250 1.031
D96-5237-200 2.375 1.031
D96-5287-200 2.875 1.375 2 3/8" PAC
D96-5312-200 3.125 1.500

HEAVY DUTY HYDRAULIC DISCONNECT

The Heavy Duty Hydraulic Disconnect (HDHD) allows the tool string to detach at a predetermined point via the deployment of a suitable drop/trip ball through the coiled tubing. The drop ball locates on a piston sleeve creating sufficient back pressure to shear the pins and disconnect the tool. The piston sleeve pushes the tool apart to ensure a clean disconnect. Circulation is immediately returned to the tool string, providing a surface indication of a positive disconnect. All piston sleeves and drop balls are returned to surface leaving a standard 'GS' internal fish neck for retrieval purposes.
The 'HDHD' utilizes a heavy duty, one piece, threaded collet slip to hold the tool together. The collet slip endures higher tensile loading than collet finger type release mechanisms and is far less susceptible to fatigue. The collet slip is backed up with a collet slip sleeve to give maximum tensile strength to the disconnect during heavy jarring operations. Only by dropping a ball and shearing the pins can the collet sleeve shift, allowing the collet and top sub to part. The piston sleeve is pressure balanced, therefore internal pressure does not affect the hydraulic configuration and shear values.
High torque capabilities are achieved through positive torque drive teeth between the top sub and the main body of the tool. The 'HDHD' is therefore ideally suited for high torque, heavy duty coiled tubing drilling operations where maximum performance and durability is essential.
Shear screws can be supplied in either brass or steel to give a comprehensive pressure range to suit virtually any coiled tubing application. Shear screws are also integrally situated to eliminate the possibility of shear screws vibrating free during CT drilling operations.
By interchanging the piston sleeve, the drop/trip ball size can be varied to suit the desired tool string requirements. This is a particularly useful feature when the 'HDHD' is situated below jars and accelerators, and ID restrictions are a factor for consideration. Running the 'HDHD' below jars and accelerators ensures that if disconnection of the tool string is necessary, a greater proportion of the tool string is safely returned to surface.
A major design consideration is that of simple field redress. The 'HDHD' has been designed to ensure assembly & disassembly of the tool is trouble free. No special assembly tools are required and all seals are standard 'o' rings.
SPECIFICATIONS
Part Number Max OD Min ID Ball OD Max Ball OD Fishing neck Thread
(in) (in) (in) (in)
D97-1150-500 1.500 0.438 1/2 3/8 1.5"GS  
Pipe Fittings are Piping component that helps in Changes the direction of the flow such as elbows, tees. Changes the size of the pipe such as reducers, reducing tees. Connect different components such as couplings and stop the flows such as Caps.

There are different types of Pipe Fitting used in piping. Pipe Fittings used in piping work are listed below.

  • Elbow
  • Tee
  • Reducer
  • Union
  • Coupling
  • Adapters
  • Olet (Weldolet, Sockolet, Elbowlet, Thredolet, Nipolet, Letrolet, Swepolet)
  • Valve
  • Cross
  • Cap
  • Swage Nipple
  • Plug
  • Bush
  • Expansion Joint
  • Steam Traps
  • Long Radius Bend
  • Flanges

Pipe Fitting

Pipe Fitting,Seamless Pipe Fitting,Butt Weld Ecc Reducer,Carbon Steel Con Tee

Hebei Welkin Pipe Fitting Manufacturing Co., Ltd , https://www.welkinpipeline.com