Type of Document Master's Thesis Author Staton, JoAnna Christen II Author's Email Address jcstaton@vt.edu URN etd-32298-8531 Title Heat and Mass Transfer Characteristics of Desiccant Polymers Degree Master of Science Department Mechanical Engineering Advisory Committee
Advisor Name Title Kander, Ronald C. Thomas, James R. Jr. Scott, Elaine P. Committee Chair Keywords
- desiccants
- polymers
- total enthalpy exchangers
Date of Defense 1998-04-16 Availability unrestricted Abstract Desiccant-enhanced air conditioning equipmenthas exhibited both the capability to improve humidity control and the
potential to save energy costs by lowering the latent energy
requirement of the supply air stream. The resulting increasing
popularity of desiccant-enhanced air conditioning systems has sparked
new interest in the search for a better, more efficient desiccant
material. The ultimate goal of this research was to develop a
material that, when applied to an existing air-to-air heat exchanger,
would achieve the necessary heat and mass transfer in a single
process, thus transforming a sensible heat exchanger into a
total enthalpy exchanger.
This study focuses on the development and determination of appropriate
polymeric desiccant materials for use in different heat and mass
transfer applications. Various candidate materials were initially
studied. It was decided that polyvinyl alcohol best met the
pre-determined selection criteria. After the focus material was
chosen, numerical models representing two heat and mass transfer
applications were created. One-dimensional numerical models were
developed for the performance studies of a rotary wheel total enthalpy
exchanger. A two-dimensional numerical model was developed for
the performance studies of a fixed plate total enthalpy exchanger as
well. Material characterization tests were performed to collect
material property information required by the numerical models.
Sensible, latent, and total efficiencies gathered from both the rotary
wheel total enthalpy exchanger and the fixed plate total enthalpy
exchanger models indicate potential uses for some candidate polyvinyl
alcohol materials.
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