Risk analysis case study of enthalpy wheels for laboratory exhaust
Risk analysis case study of enthalpy wheels for laboratory exhaust
Risk analysis case study of enthalpy wheels for laboratory exhaust
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Importance <strong>of</strong> the 3Å Molecular Sieve<br />
Silica Gel (No humidity transfer)<br />
60<br />
45<br />
Silica Gel (With humidity transfer)<br />
4A Molecular Sieve (No humidity transfer)<br />
4A Molecular Sieve (With humidty transfer)<br />
3A Molecular Sieve (With humidity transfer)<br />
40.1<br />
46.6<br />
47.5<br />
54<br />
49.4<br />
43.2<br />
% Transference<br />
30<br />
32.1<br />
33.9<br />
28<br />
32.1<br />
30.6 32<br />
30.9<br />
29<br />
15<br />
0<br />
4<br />
3<br />
2.4<br />
1.4<br />
0.5 0<br />
0.4 0.9<br />
0 0 0 0 0<br />
0<br />
0<br />
SF6<br />
Propane<br />
CO2<br />
p-Xylene<br />
MIBK<br />
IPA<br />
Compound Investigated<br />
Source: Independent Georgia Tech Research Institute Investigation 1993, 1999<br />
Acetaldehyde<br />
Methanol/IPA<br />
0