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Metal-Lok Ultra™ Wellhead Penetrator System for SAGD

Product Description

The Metal-Lok™ Ultra Wellhead Penetrator with k-PaC™ Technology features a new high temperature feedthru and lower connector design that is suitable for temperatures to 500°F (260°C) and pressures to 3000 psi. This downhole connector is field attachable and features BIW Connector Systems' k-PaC™ Technology, a pressure-balanced design that compensates for thermal expansion and pressure variation and operates over a wide temperature range. Metal-Lok™ Ultra was designed to withstand extended exposure to direct steaming at 500°F (260°C).

The Surface Connectors are supplied with coupling rings retained by ball bearings. This retention method ensures longer life, better resistance to corrosion, and easier engagement. For more information click here.

Specifications

Environmental: 500°F (260°C), 3000 psi
Electrical: 5000 VAC
Approvals:  Approved for Class I, Division 1, Groups C and D Hazardous locations in the USA and Canada

Features

    Decompression Resistant

    Field Attachable Lower

    Certified for hazardous environments

    High Temperature

    Metal-Lok™ Keying



FAQs

What are the key advantages of using Metal-Lok™ Ultra Wellhead Penetrator with k-PaC™ Technology?

This innovative wellhead penetrator relies on improved high performance insulators and sealing element and is most suitable for higher, continuous use temperatures at pressures up to 3,000 psi. It is field attachable to cable and uses an advanced concept design featuring BIW’s k-PaC™ pressure balanced technology. With pressure balanced technology, there is no differential pressure which can force well fluids into the connector body.

What are the most common applications for Metal-Lok™ Ultra with k-PaC™ Technology?

It is a next generation product designed for higher temperature applications and is suitable for steam injection applications, such as SAGD, where temperatures up to 260°C are encountered.

What is k-PaC™ Technology?

k-PaC™ Technology is a pressure-balanced design that compensates for normally destructive thermal expansion and pressure variation and operates over a wide temperature range. It is BIW Connector Systems' groundbreaking, patented approach that dramatically improves ESP system performance, reliability and ease of use in harsh environments.

Is Metal-Lok™ Ultra with k-PaC™ Technology compatible with other products?

The system consists of a completely re-designed penetrator and an advanced design downhole connector. It is totally compatible with BIW’s existing high temperature surface connectors.

Metal-Lok Ultra™ Wellhead Penetrator System for SAGD


Product Description

The Metal-Lok™ Ultra Wellhead Penetrator with k-PaC™ Technology features a new high temperature feedthru and lower connector design that is suitable for temperatures to 500°F (260°C) and pressures to 3000 psi. This downhole connector is field attachable and features BIW Connector Systems' k-PaC™ Technology, a pressure-balanced design that compensates for thermal expansion and pressure variation and operates over a wide temperature range. Metal-Lok™ Ultra was designed to withstand extended exposure to direct steaming at 500°F (260°C).

The Surface Connectors are supplied with coupling rings retained by ball bearings. This retention method ensures longer life, better resistance to corrosion, and easier engagement. For more information click here.
Environmental: 500°F (260°C), 3000 psi
Electrical: 5000 VAC
Approvals:  Approved for Class I, Division 1, Groups C and D Hazardous locations in the USA and Canada
  • Decompression Resistant

    Pressure-balanced k-PaC™ Technology is designed to withstand rapid decompression and repetitive pressure cycles
  • Field Attachable Lower

    Eliminates downhole splice and works with all ESP cables
  • Certified for hazardous environments

    Approved for Class 1 Division 1
  • High Temperature

    Pressure-balanced k-PaC™ Technology enables use in applications with temperatures up to 500° F (260°C)
  • Metal-Lok™ Keying

    Prevents damage from inadvertent turning or mishandling of the surface connector