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Design of High Pressure Differential Volumetric Adsorption Measurements with Increased Accuracy
Adsorption
  • Sarmishtha Sircar
  • Cheng Yu Wang
  • Angela D. Lueking, Missouri University of Science and Technology
Abstract

High pressure adsorption measurements for light gases on volumetric equipment are prone to error. Differential units reduce the sensitivity to leakage, gas compressibility, and temperature gradients, but remain highly sensitive to volume uncertainties, the calibration of which is difficult in the presence of low-density, microporous samples. Calibration error can be reduced using a high initial pressure differential and large calibration volume; however, systematic error is prevalent in the literature. Using both analytical and multivariate error analysis, we demonstrate that calibration of the differential unit with the differential pressure transducer significantly decreases volume sensitivity. We show that hydrogen adsorption to GX-31 superactivated carbon at 298 K and 80 bar can be measured with a 7 % error in measurement (i.e. within 0.05 wt% for a 100 mg sample), even when experimental volume calibration is determined only within ~1 %. This represents approximately a 2-7 fold increase in sensitivity relative to previous reports using differential measurements. We also provide a framework for optimizing the design of a volumetric adsorption unit. For virtually any system design, the improved differential methods offer a significant increase in precision relative to the conventional volumetric measurement (from 10- to over 250-fold, depending on the precision of the pressure transducer). This improvement further enhances advantages of the differential unit, in addition to advantages that arise for treating gas compressibility and temperature fluctuations.

Department(s)
Chemical and Biochemical Engineering
Sponsor(s)
United States. Department of Energy.Office of Energy Efficiency and Renewable Energy
Comments
This work was supported by the U.S. Department of Energy, Energy Efficiency and Renewable Energy program, award DE-FG36-08GO18139.
Keywords and Phrases
  • Adsorption measurement,
  • Differential measurements,
  • Differential pressure transducer,
  • Gas compressibilities,
  • High pressure adsorptions,
  • Superactivated carbon,
  • Temperature fluctuation,
  • Volumetric measurement,
  • Calibration,
  • Compressibility of gases,
  • Isotherms,
  • Pressure sensors,
  • Pressure transducers,
  • Uncertainty analysis,
  • Adsorption,
  • Differential volumetric measurement
Document Type
Article - Journal
Document Version
Citation
File Type
text
Language(s)
English
Rights
© 2013 Springer Verlag, All rights reserved.
Publication Date
12-1-2013
Disciplines
Citation Information
Sarmishtha Sircar, Cheng Yu Wang and Angela D. Lueking. "Design of High Pressure Differential Volumetric Adsorption Measurements with Increased Accuracy" Adsorption Vol. 19 Iss. 6 (2013) p. 1211 - 1234 ISSN: 0929-5607
Available at: http://works.bepress.com/angela-lueking/8/