Swagelok® 프로세스 레귤레이터, 역압(Back-Pressure), 돔 하중
돔 하중 프로세스 레귤레이터는 입구 압력 또는 유량 변화에 관계없이 드룹(droop)을 최소화하고 고도로 안정적인 출구 압력을 제공합니다.
프로세스 레귤레이터에 관련된 지원 받기Back-pressure process regulators are suitable for a wide variety of industrial applications where manual or remote operation of the regulator is suitable. Dome-loaded process regulators excel at maintaining consistent outlet pressures, even when faced with fluctuations in inlet pressure or flow. This stability is achieved through a pressurized dome control mechanism, which eliminates the need for a set spring.
These versatile regulators can be customized with various features to meet specific application needs:
- Multiple gauge connection options
- Pilot regulators
- External feedback systems
- Specialized cleaning processes
For enhanced automation, dome-loaded regulators can be paired with electronic pilot valves. This configuration reduces the need for manual adjustments and allows for rapid responses to changing system conditions.
When choosing pressure regulators, ask suppliers about their performance verification methods. Regulators that excel in rigorous testing are more likely to withstand demanding field conditions over time. Precision in regulator design and rigorous laboratory testing can be the decisive factors between triumph and setback.
Back-Pressure, Dome-Loaded Process Regulators Catalogs
Locate detailed product information, including materials of construction, pressure and temperature ratings, options, and accessories.
감압용 모델; 역압용 모델; 스프링 작동식, 돔 작동식 및 공기 작동식; 1/4 ~ 4인치 연결구; 최대 사용 압력 10 150 psig (700 bar); 온도 –20 ~ 80 ºC (–4 ~ 176 ºF)
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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.
レギュレーターの信頼性を確保するために
過酷な条件下での運用を前提とした製品には、どのような試験を行うべきでしょうか。今回は、スウェージロックの実験室における取り組みと共に、氷点下を大幅に下回る温度でも正常に機能する一般産業用RHPSシリーズ・レギュレーターの開発事例を紹介します。
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。