Research Series How to Choose - Precision Fluid Control Valves

Research Series How to Choose

Primary Research Series Types

Series Name Internal image Max Pressure psig/bar(g) Min Cv Max Cv Advantages
LF
Low Flow
high pressure regulator To 1,000 psig / 69 bar(g) 1E-8g 0.07 Ultra wide flow range, superior multi-phase flow
HP
High Pressure
To 10,000 psig / 690 bar(g)
HF
Higher Flow
high flow internal rendering To 1,000 psig / 69 bar(g) 1E-5 0.41
HPF
High Pressure & Flow
To 10,000 psig / 690 bar(g) 0.35
HT
High Temp
Equilibar HT interal To 6,000psig / 410 bar(g) 1E-5 0.07 High Temperature applications
HTF
High Temp & Flow
To 6,000 psig / 410 bar(g) 0.35
ZF
Zero Flow
Equilibar zf research series internal CAD image To 2,000 psig / 140 bar(g) Effective Zero 0.01 Nano flow range; excellent multi-phase flow
UL
Ultra Low Flow
rendering of ultra low flow internal To 10,000 psig / 690 bar(g) 1E-7 0.05 Offers lower flow than HP in some applications

 

 

Equilibar News
schematic for tff tmp

Pharmaceutical Manufacturing Case Study: single-use BPR improves Trans Membrane Pressure in novel Single Pass TFF control strategy

This summer, the Journal of Membrane Science published a paper focusing on automated control of Trans Membrane Pressure (TMP) in a Single-Pass Tangential Flow Filtration (SP-TFF) system. Control was substantially improved by using an Equilibar® single-use dome-loaded multi-orifice back pressure regulator (BPR) rather than traditional technologies. Authored by Shashi Malladi, Michael Coolbaugh and other top Read More

Read More