Swagelok’s steam-heated vaporizing pressure-reducing regulator is designed to effectively vaporize liquid samples or warm gas samples, preventing condensation. It is engineered to adapt to changes in user inputs, ambient temperatures, and other operating conditions. Certified for use in critical and hazardous environments, KSV series regulator consistently delivers dependable performance.
Key Features of the KSV Series Regulator
- Convoluted, nonperforated diaphragm
- Metal-to-metal diaphragm seal
- Low internal volume
Specifications
| 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°C) |
| Maximum Operating Temperature | 392°F (200°C) |
Pressure-Reducing, Steam-Heated Vaporizing Regulators Catalogs
Find comprehensive details on our steam-heated vaporizing pressure-reducing regulator covering construction materials, accessories, pressure, and temperature ratings.
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Find the Right RegulatorSwagelok Regulator Resources
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.
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.
レギュレーターの流量曲線を平坦にしてドループを抑える方法
ドループ(流量増加に伴う二次側圧力の降下)は、あらゆるレギュレーターに共通する問題です。今回は、ドループを最小限に抑えてレギュレーターの流量曲線を平坦にする方法を、さまざまなドーム・ロード式レギュレーターの構成と併せて紹介します。
レギュレーターを使用して分析計装システムにおける時間遅れを短縮する方法
分析システムでは、時間遅れが軽視されていたり、誤解されていたりするケースは少なくありません。この時間遅れは、レギュレーターでコントロールすることができます。今回は、分析計装システムにおける時間遅れを小さくする方法を紹介します。