Risk analysis case study of enthalpy wheels for laboratory exhaust

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GTRI Pollutant Carry-over Research Desiccant materials other than a 3Å molecular sieve have been shown to transfer up to 50% <strong>of</strong> the airborne pollutants back to the space The 3Å molecular sieve coating was found to limit contaminant carry-over in the lab as well as in numerous field studies
Importance <strong>of</strong> the 3Å Molecular Sieve Silica Gel (No humidity transfer) 60 45 Silica Gel (With humidity transfer) 4A Molecular Sieve (No humidity transfer) 4A Molecular Sieve (With humidty transfer) 3A Molecular Sieve (With humidity transfer) 40.1 46.6 47.5 54 49.4 43.2 % Transference 30 32.1 33.9 28 32.1 30.6 32 30.9 29 15 0 4 3 2.4 1.4 0.5 0 0.4 0.9 0 0 0 0 0 0 0 SF6 Propane CO2 p-Xylene MIBK IPA Compound Investigated Source: Independent Georgia Tech Research Institute Investigation 1993, 1999 Acetaldehyde Methanol/IPA 0
Page 1 and 2: Labs for the 21 st Century Applying
Page 3 and 4: Johns Hopkins Ross Research Buildin
Page 6 and 7: Initial Risk Assessment Process:
Page 8 and 9: Maintenance Requirements • All wh
Page 12 and 13: Comparing Recovery Options Recovery
Page 14 and 15: Ross Building: Benefits Recognized
Page 16 and 17: Cooling Mode: Ross Building 455,000
Page 24 and 25: Ross Chiller/Boiler Reduction 3500
Page 26 and 27: Recovery Wheel Economic Summary Ene
Page 28: Background for Economic Analysis Mo
Page 31 and 32: Cross-contamination Test Results Jo
Page 33 and 34: Potential Sources for Carry-over of
Page 35: 3Å Angstrom Molecular Sieve Desicc
Page 39 and 40: Bacteria and Virus Carry-over • O
Page 41 and 42: Assessment Procedure • Assume wor
Page 43 and 44: Laboratory Systems Should be Commis
Page 45: Labs for the 21 st Century Applying

Risk analysis case study of enthalpy wheels for laboratory exhaust

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