Vapodétendeurs chauffés à la vapeur Swagelok®
Le vapodétendeur chauffé à la vapeur série KSV est conçu pour vaporiser des échantillons liquides ou préchauffer des échantillons de gaz.
Se faire aider pour choisir des régulateurs de pressionSwagelok’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.
Reductores de presión; Reguladores de contrapresión; Reguladores para cambio de botella; Modelos Vaporizadores
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Find the Right RegulatorSwagelok Regulator Resources
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Cómo Utilizar un Regulador para Reducir el Retardo de Muestra en un Sistema de Instrumentación Analítica
El retardo es frecuentemente subestimado o incomprendido en los sistemas analíticos. Una forma de controlar el retardo es utilizar un regulador de control de presión. Vea cómo gestionar el retardo de su sistema analítico con estos consejos.