SEARCH

SEARCH BY CITATION

Literature Cited

  • 1
    Crezee E, Tennison SR, Rawlinson AP, Place RN, Crittenden BD, Perera SP. Electrically regenerable carbon monolithic adsorption system for the recovery and recycle of volatile organic chemicals (VOCs). Paper Presented at 7th World Congress of Chemical Engineering, July 10–14, 2005, Glasgow, United Kingdom.
  • 2
    Vergunst T, Kapteijn F, Moulijn JA. Preparation of carbon-coated monolithic supports. Carbon. 2002; 40: 18911902.
  • 3
    Garcia-Bordeje E, Kapteijn F, Moulijn JA. Preparation and characterisation of carbon-coated monoliths for catalyst supports. Carbon. 2002; 40: 10791088.
  • 4
    De Lathouder KM, Lozano-Castello A, Linares-Solano A, Wallin SA, Kapteijn F, Moulijn JA. Carbon-ceramic composites for enzyme immobilization. Microporous Mesoporous Mater. 2007; 99: 216223.
  • 5
    Barannik GB. Composite honeycomb monoliths. React Kinet Catal Lett. 1997; 60: 291296.
  • 6
    Yates M, Blanco J, Avila P, Martin MP. Honeycomb monoliths of activated carbons for effluent gas purification. Microporous Mesoporous Mater. 2000; 37: 201208.
  • 7
    Tennison SR. Phenolic resin-derived activated carbons. Appl Catal A. 1998; 173: 289311.
  • 8
    Tennison SR, Blackburn AJ, Rawlinson AP, Place RN, Crittenden BD, Fair S. Electrically regenerable monolithic adsorption system for the recovery and recycle of solvent vapours. Paper Presented at: Proc AIChE Spring Meeting, 2001, Houston.
  • 9
    Crittenden BD, Patton A, Jouin C, Perera SP, Tennison S, Botas Echevarria JA. Carbon monoliths: a comparison with granular materials. Adsorption. 2005; 11( suppl 1): 537541.
  • 10
    Lapkin A, Joyce L, Crittenden BD. A framework for evaluating the “greenness” of chemical processes, a case study of a novel VOC recovery technology. Environ Sci Technol. 2004; 38: 58155823.
  • 11
    Crittenden BD, Perera SP, Mays TJ, Camus O, Tennison SR. Monolithic adsorbents in sustainable development. Paper Presented at: 7th World Congress of Chemical Engineering, 2005, Glasgow, United Kingdom.
  • 12
    Golay MJE. Theory of chromatography in open and coated tubular columns with round and rectangular cross-sections. In: Desty DH, editor. Gas Chromatography. New York: Academic Press, 1958: 3655.
  • 13
    Ahn H, Brandani S. Analysis of breakthrough dynamics in rectangular channels of arbitrary aspect ratio. AIChE J. 2005; 51: 19801989.
  • 14
    Ahn H, Brandani S. Dynamics of carbon dioxide breakthrough in a carbon monolith over a wide concentration range. Adsorption. 2005; 11: 473477.
  • 15
    van Gulijk C, Linders MJG, Valdés-Solís T, Kapteijn F. Intrinsic channel maldistribution in monolithic catalyst support structures. Chem Eng J. 2005; 109: 8996.
  • 16
    Grande CA, Cavenati S, Barcia P, Hammer J, Fritz HG, Rodrigues AE. Adsorption of propane and propylene in zeolite 4A honeycomb monolith. Chem Eng Sci 2006; 61: 30533067.
  • 17
    Perdana I, Creaser D, Bendiyasa IM, Rochmadi, Tyoso BW. Modelling NOx adsorption in a thin NaZSM-5 film supported on a cordierite monolith. Chem Eng Sci 2007; 62: 38823893.
  • 18
    Petkovska M, Antov-Bozalo D, Markovic A, Sullivan P. Multiphysics modeling of electric-swing adsorption system with in-vessel condensation. Adsorpt J Int Adsorpt Soc. 2007; 13: 357372.
  • 19
    Cornish RJ. Flow in a pipe of rectangular cross-section. Proc Roy Soc Lon A Math Phys Sci 1928; 120: 691700.
  • 20
    Fuller EN, Schettler PD, Giddings JC. A new method for prediction of binary gas phase diffusion coefficient. Ind Eng Chem. 1966; 58: 1927.
  • 21
    Patton A, Crittenden BD, Perera SP. Use of the linear driving force approximation to guide the design of monolithic adsorbents. Chem Eng Res Des. 2004; 82: 9991009.
  • 22
    Sanchez-Liarte F. Performance of electrically regenerable monolithic adsorbents for VOC control. PhD Thesis Chemical Engineering, University of Bath, Bath, 2009.
  • 23
    Perry RH, Green DW. Specific Heats of Miscellaneous Materials. Perry's Chemical Engineers' Book, 7th ed. New York: McGraw-Hill, 1997: 2186.
  • 24
    Hawthorn RD. Afterburner Catalysts-effects of Heat and Mass Transfer between Gas and Catalyst Surface. AIChE Symp Ser. 1974; 70: 428438.
  • 25
    Kakaç S, Shah RK, Aung W, editors. Handbook of Single-Phase Convective Heat Transfer. New York: Wiley, 1987.
  • 26
    Chagger HK, Ndaji FE, Sykes ML, Thomas KM. Kinetics of adsorption and diffusional characteristics of carbon molecular sieves. Carbon. 1995; 33: 14051411.