Monday, June 9, 2014

Angstrom Advanced - Membrane Separation Nitrogen Generator



Angstrom Advanced Nitrogen/Oxygen Generating Plant by Membrane Separation

With the best rates and a highly trained staff, we guarantee to meet your needs and work with you to obtain your project goals.

www.angstrom-advanced.com

For more information please call Angstrom Advanced at:781.519.4765

Request an Estimate


In this Angstrom Advanced setup, compressed air is pumped through a compressor filter, along with polymer membrane filters. Due to variable solubility and proliferation factors, different gasses in the air penetrate the membrane at different rates, allowing for their separation. Based on their diffusion rates, the gasses in the air are then placed into one of two categories: “rapid gas” or “slow gas.” After being compacted and purified (to remove oil, water, and dust), the air will be passed through the membrane in order to create a separation of the gasses. The “rapid gasses,” oxygen, carbon dioxide, and some vapors, will be the first to infiltrate the membrane wall, and exit through a discharge port via air pressure. Because nitrogen is characterized as a “slow gas,” it will flow from the gas collector at the end of the pressure box, and finally enter a buffer tank where it will be stored.

Specifications
Nitrogen Production
1-1000NM3/H
Nitrogen Purity
>95-99.9%
Dew Point
≤-40°C
Work Pressure
0-2.0 Mpa

Thursday, June 5, 2014

Angstrom Advanced Nitrogen Generating Plant by Pressure Swing Adsorption


Angstrom Advanced Nitrogen/Oxygen Generating Plant by Pressure Swing Adsorption

For more information please call Angstrom Advanced at: 781.519.4765

With the best rates and a highly trained staff, We guarantee to meet your needs and work with you to obtain your project goals.

www.angstrom-advanced.com

Request an Estimate



Introduction:

PSA Nitrogen/Oxygen generator by Angstrom Advanced Inc. gets N2 / O2 by pressure swing adsorption principle at normal temperature using clean compressed air as raw material and carbon molecular sieve as adsorbent. Because of the different adsorption of oxygen and nitrogen on carbon molecular sieve surface as well as different diffusion rate through the open/close of program control valve; separation of oxygen and nitrogen is achieved and N2 of required purify is created.

Specifications
N2 capacity
1-2000 Nm3/h
N2 purity %
>95-99.999%
O2 capacity
10-500 Nm3/h
O2 purity %
>95-99.9%
Dew Point
≤-40C
Transmittance Accuracy
± 0.5%T
Transmittance Repeatability
0.3%T
Stray Light
< 0.2%T (NaNO2)