Well known is the fact that compressed air, stored at higher pressures, can provide a capacitance effect for sudden high volume demands. Less known is that higher pressure storage, that is not properly controlled and managed, will result in not just the additional energy to compress to a higher pressure (0.5% energy for every 1% pressure increase), but also significantly higher air consumption from all compressed air users (in some cases up to12% more)!

The application of Ingersoll Rand IntelliFlow control effectively uses system storage to compensate for high, random air usage and avoids the need to increase the entire system pressure. Similarly, the IntelliFlow control also eliminates the need for compreesors to be loaded start or short cycle due to the same high, random air usage.

 

Features

High volume low pressure drop design

Electronic PID control of valve position

Mounted controller with digital interface

Mounted pressure transducer

3-valve bypass

Taps and gages for system audit instrumentation

 

Benefits

Increased productivity: optimize production air control

Increased efficiency: optimize energy usage

Increased reliability: eliminate compressor rapid cycling

Reduced waste: lower pressure, less air consumption

 

Technical Information

Max Pressure: 150 psig (10 barg)

Max Temperature: 150°F (65°C)

Flange/Valve Sizes: 2 - 8 in (50 - 200 mm)

Max Flow Capacity: 850 - 15900 cfm (24 - 450 m3/min)

1 psig (0.07 barg) pressure drop in full open valve position

 

As much as 20% to 60% of the energy used to operate compressed air systems is wasted! One of the major contributors to this waste is operating air systems at elevated pressures.

Well known is the fact that compressed air, stored at higher pressures, can provide a capacitance effect for sudden hign volume demands. Less known is that higher pressure storage, that is not properly controlled and managed, will result in not just the additional energy to compress to a higher pressure (0.5% energy for every 1% pressure increase), but also significantly higher air consumption from all compressed air users (in some cases up to12% more)!

The application of Ingersoll Rand PacE control effectively uses system storage to compensate for high, random air usage and avoids the need to increase the entire system pressure. Similarly, the PacE control also eliminates the need for compreesors to be false loaded or short cycle due to the same high, random air usage.

 

Features

High volume low pressure drop design

Pneumatic control

Mounted inlet/outlet pressure gages

Simple installation

 

Benefits

Increased efficiency: optimize energy usage

Increased productivity: optimize production air control

Increased reliability: eliminate compressor rapid cycling

Reduced waste: lower pressure, less air consumption

 

Technical Information

Max Pressure: 150 psig (10 barg)

Max Temperature: 150°F (65°C)

Flange/Valve Sizes: 0.5 - 2 in (13- 50 mm)

Max Flow Capacity: 40 - 650 cfm (1 - 18 m3/min)

Sensitivity: 0.2% of full span

Repeatability: +/- 0.5% of full span