Globe Valves - Bellows Seal for Nuclear Power Generation | Fluitek | Philippopoulos s.a.
Globe Valves - Bellows Seal for Nuclear Power Generation | Fluitek | Philippopoulos s.a.
Globe Valves - Bellows Seal for Nuclear Power Generation | Fluitek | Philippopoulos s.a.
Globe Valves - Bellows Seal for Nuclear Power Generation | Fluitek | Philippopoulos s.a.

Globe Valves - Bellows Seal for Nuclear Power Generation | Fluitek

Fluitek Bellows Seal Globe Valve for Nuclear Power Generation

Fluitek Orsenigo bellows seal valves are designed for systems where stem leakage must be controlled and documented, such as primary heat transport lines in nuclear facilities. The design adheres to ASME Boiler and Pressure Vessel Code, Section III, Subsection NB, covering requirements for leak tightness, seismic resistance, and endurance testing under operational conditions.

Classes, Materials, and Connections

Available in ASME/ANSI Class 600, 900, and 1500, with nominal sizes from 3/4" to 8". Materials include low temperature carbon steels, austenitic stainless steels, and nickel alloys. Connection options are flanged and butt-weld, depending on the piping class of the installation.

Construction Logic

The technical approach avoids cast pressure-containing parts. The specification mentions forged/integral body, avoidance of strength welds, and use of threaded/seal-welded connections where necessary. The compact geometry reduces stress concentration points and allows integrity checks of the bellows and secondary stem sealing during operation.

Technical Data Class 1500

For a typical forged integral body version Class 1500 with butt-weld ends, the technical sheet provides bore sizes from 17.5–177.8 mm for 3/4"–8". Face-to-face dimensions range from 229 mm at 3/4" to 832 mm at 8", with weights from 29 kg to 774 kg. These details are critical for layout, pipe stress analysis, and support selection.

Applications and Selection

Typical use includes isolation of radioactive or critical fluids, auxiliary steam systems, process water, and lines requiring documented stem tightness. Selection should consider Class, temperature, seismic loads, operational cycles, bellows/body material, and inspection requirements.

Certifications

Certifications include ISO 9001:2015, PED 2014/68/EU, ATEX 2014/34/EU, IEC 61508/SIL, API 6A, API 6D, API 6DSS, and TR-CU. The application of each certification should be confirmed per project, data sheet, and purchase specification.

Standard (Options)
  • ANSI
Connection (Options)
  • Flanged
  • Butt Weld
Material (Options)
  • Austenitic Stainless Steel
  • Low Temperature Carbon Steel
  • Nickel Alloys
Pressure Rating (Options)
  • 600 lbs
  • 900 lbs
  • 1500 lbs

Datasheet and documents

Description

Valves used in the primary heat transport system of nuclear power plants are designed in accordance with ASME Boiler And Pressure Vessel Code, Section III, Subsection NB. They have to answer to three major technical requirements: tightness of sealing system to prevent radioactive fluid leakages to the ambient, construction able to withstand earthquake loads, construction able to pass normally required endurance tests at service condition.

FLUITEK ORSENIGO VALVES provides bellows seal globe valves, ASME/ANSI classes 600#, 900# and 1500#, materials low temperature carbon steels, austenitic stainless steels, nickel alloys, sizes ranging from 3/4” to 8” nominal size.

FLUITEK ORSENIGO VALVES design has considered and applied the following principles:

  • eliminate the use of castings for pressure containing parts
  • eliminate the use of strength welds, using threaded and seal welded connections where needed
  • use of a very compact and geometrically homogeneous design, reducing stress concentration points introduction of a system (see separate presentation) allowing verification in service of the integrity of the bellows and, at the same time, verification of the sealing capacity of the secondary stem sealing system.

The ability of submitting production samples to endurance tests (e.g. cycling to failure at pressure and temperature conditions), to demonstrate conformity with the guaranteed minimum cycle life required, is available.

The verification of the design in relation to the ability of withstanding earthquake loads is done with the use of a shake table and operating base earthquake details.

Certifications

Fluitek SRL Company Quality Policy 11-2022 – ENG