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Swagelok® Specialty Regulators

Specialty pressure regulators are designed to meet unique application needs such as gas cylinder changeover, steam-heating, and tank blanketing.

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Designed to fit in special applications:

  • Steam-heated gas vaporization regulators (KSV series) accommodate phase changes
  • Gas cylinder changeover regulators (KCM series) switch automatically between two gas sources, easing the burden and downtime associated with manual changeovers.
  • Tank blanketing pressure regulators provide low pressure and high flow of an inert gas to the vapor space of a storage tank

KCM Series Gas Cylinder Changeover Regulators


Maximum Inlet Pressure 4351 psig (300 bar) with PEEK seat
3600 psig (248 bar)
Cylinder connections and hose accessories may limit inlet pressure ratings.
Pressure Control Ranges 0 to 10 psig (0.68 bar) through 0 to 500 psig (34.4 bar)
Nominal Changeover Pressures 100, 250 and 500 psig (6.8, 17.2, and 34.4 bar)
Flow Coefficient (Cv) 0.06
Maximum Operating Temperature 176°F (80°C) with PCTFE seat
392°F (200°C) with PEEK seat
212°F (100°C) with PEEK seat and maximum inlet pressure greater than 3600 psig (248 bar)

KSV Series Steam-Heated Vaporizing Pressure-Reducing Regulators


Maximum Inlet Pressure 3600 psig (248 bar)
Pressure Control Ranges 0 to 10 psig (0.68 bar) through 0 to 500 psig (34.4 bar)
Flow Coefficient (Cv) 0.06 or 0.20
Maximum Steam Pressure and Temperature 650 psig (44.7 bar) and 500°F (260°)
Maximum Operating Temperature 392°F (200°C)

Tank Blanketing Pressure Regulators


Material 316L stainless steel construction
End Connection Sizes 1/2, 1, and 2 in.
Working Pressure up to 232 psig (16.0 bar)
Pressure Control Ranges 0.07 to 0.14 psig (2.0 to 4.0 in. H2O, 5 to 10 mbar) through to 0.72 to 11.6 psig (20 to 321 in. H2O, 50 to 800 mbar)
Flow Coefficient (Cv) 0.20, 0.30, 1.00
Temperature from –4 to 212°F (–20 to 100°C)

Specialty Regulators Catalogs

Locate detailed product information, including materials of construction, pressure and temperature ratings, options, and accessories.

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Swagelok Resources Curated for You

레귤레이터에서 공급 압력효과
Managing Supply Pressure Effect (SPE) in a Regulator

Supply pressure effect, also known as dependency, is an inverse relationship between inlet and outlet pressure variables within a regulator. Learn how to manage this phenomenon in your pressure regulators with tips from Swagelok.

스웨즈락 RHPS 시리즈 레귤레이터
How Thorough Testing Ensures Reliable Regulator Performance

Have you ever wondered what testing goes into a product designed to operate in extreme conditions? Take a look behind the lab doors, following the development journey of RHPS Series industrial regulators rated for use at temperatures well below zero.

Droop을 나타내는 유량 곡선 차트
How to Flatten a Regulator Flow Curve to Reduce Droop

Droop is an issue for every pressure-reducing regulator. Learn how to minimize droop and flatten regulator flow curves with various dome loaded regulator configurations.

시간 지연을 줄이는 데 사용되는 레귤레이터
How to Use a Regulator to Reduce Time Delay in an Analytical Instrumentation System

Time delay is often underestimated or misunderstood in analytical systems. One way to mitigate this delay is with a pressure-controlled regulator. Learn how to manage your analytical system’s time delay with these tips.

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