![]() Temperature - Figures and tables showing the enthalpy and entropy of liquid water as function of temperature - SI and Imperial Units. Water - Enthalpy (H) and Entropy (S) vs.Temperature and Pressure - Absolute viscosity for water in centipoises for temperatures between 32 - 200 oF. Water - Absolute (Dynamic) Viscosity vs.Viscosity - Converter Chart - Convert between viscosity units like Centiposes, milliPascal, CentiStokes and SSU.Kinematic - Vicosity is a fluid's resistance to flow and can be valued as dynamic (absolute) or kinematic. Superheated Steam - Entropy - The entropy of steam superheated to temperatures above saturation points.Saturated Steam - Properties with Imperial Units - Steam table with sensible, latent and total heat, and specific volume at different gauge pressures and temperatures.Liquids - Kinematic Viscosities - Kinematic viscosities of some common liquids like motor oil, diesel fuel, peanut oil and many more.Liquids - Dynamic Viscosities - Absolute (dynamic) viscosity values for some common fluids.Gases - Dynamic Viscosities - Absolute (dynamic) viscosities of some common gases.Temperature and Pressure - Online calculator, figures and table showing dynamic and kinematic viscosity of benzene, C 6H 6, at varying temperature and pressure - Imperial and SI Units. Benzene - Dynamic and Kinematic Viscosity vs.Air - Dynamic and Kinematic Viscosity - Online calculator, figures and tables with dynamic (absolute) and kinematic viscosity for air at temperatures ranging -100 to 1600☌ (-150 to 2900☏) and at pressures ranging 1 to 10 000 bara (14.5 - 145000 psia) - SI and Imperial Units.Absolute or Dynamic Viscosity Online Converter - Convert between dynamic or absolute viscosity units - Poiseuille, Poise, centPoise and more.Viscosities - Viscosities of products and chemical species at varying conditions.Thermodynamics - Thermodynamics of steam and condensate systems.Under these conditions supercritical water decomposes to many substances. Supercritical water is superheated steam under high pressure of more than 3206.2 psia (200 atm). The critical point for water is 705.40 oF and 3206.2 psia (374 oC - 218 atm)- For pressure beyond this point the fluid is supercritical 1).ġ) Supercritical fluids are phases of substances at high pressures above their critical temperatures.Similarly, if the secondary pressure increases, the coil spring will contract, closing the main valve, preventing the secondary pressure from increasing, and maintaining a stable pressure.ĬOSPECT reacts to changes of both primary and secondary pressures to maintain the secondary pressure at the desired level. A drop in pressure results in the coil spring expanding, opening the pilot valve wider, allowing the primary pressure steam to act on the piston which in turn opens the main valve and allows steam to flow through. The pilot valve is held by this large coil spring, which reacts to the secondary pressure as the diaphragm applies pressure on the spring. It's designed to deliver dry steam at stable pressure, and it uses a variety of components to achieve this.īefore using the valve, the desired secondary pressure must be set by compressing the upper coil spring. ![]() Ever wondered how our COSPECT pressure reducing valve works?
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