Thursday, December 25, 2014

Happy Holidays from M.S. Jacobs and Associates

On behalf of everyone at M.S. Jacobs and Associates, we wish you a very Happy Holiday Season and a prosperous New Year!

Thursday, December 11, 2014

When to Use Pressure Gauge Accessories

pressure gauge
Pressure Gauge (Wika)
Gauge accessories are designed to complement a pressure gauge in order to enhance and maximize its performance. Based on the application, pressure gauge accessories may never be required; however, protecting the pressure gauge from abnormal conditions is the most common reason for choosing to use a gauge accessory. Pressure spikes, temperature fluctuations and corrosion are leading causes for premature gauge failure. Your application may benefit from a gauge accessory.

Accessories for a pressure gauge may be the extra step needed for a successful, proactive, preventative maintenance program and for extending the life of pressure gauges in environments like oil and gas, petrochemical, and chemical plants. When a pressure gauge is paired with a mini-siphon, the gauge is protected from harmful steam, vapors and liquids. When a pressure gauge is paired with an overpressure protector, the gauge is protected from pressures exceeding its maximum pressure rating. When a pressure gauge is paired with a diaphragm seal, the gauge is protected from hot, viscous, contaminated or corrosive media. When a pressure gauge is paired with a snubber, the gauge is protected from pressure pulses.

Thursday, December 4, 2014

Volume Booster Working Principle

Pneumatic Volume Booster
Pneumatic Volume Booster
A pneumatic air volume booster reproduce a low flow control signal with a higher regulated flow output pressure. It uses an unregulated input pressure to maintain a regulated output pressure under flowing and non-flowing conditions.

The volume booster is connected to the supply line and the output plumbing. It receives a pneumatic control signal, however, from another device, such as a transducer, valve positioner or other control means.

This pneumatic signal controls the pressure into and out of the booster, while allowing the booster to flow the maximum volume of the supply line. Boosters may also be referred to as pilot-operated regulators, as your control or pilot signal maintains the pressure control.

The regulated output of a pneumatic air volume booster can be any of the following:

      • A direct reproduction of the pneumatic control signal
      • A multiple of the pneumatic control signal 
      • A fraction of the pneumatic control signal

The volume booster ratio is the multiplier or divider of signal pressure to output pressure. For example, a 2:1 ratio means output pressure is 1/2 the signal pressure. Similarly, a 2:1 ratio would provide output pressure twice the signal pressure. Note, however, the output pressure can never exceed the supply pressure to the booster.

Often the signal pressure is lower than the supply pressure because a control device (valve positioner, I/P, etc.) will only handle a lower supply pressure.