Process design is the method of designing and expanding a production process for the chemical product. This research aims to design a process for the result of geopolymerized perlite as packing material bound for utilized in the design of a full-column for liquid gas absorption. The process includes the following steps: (1) collection of inexperienced perlite from Lamba, Albay, Bicol; (2) geopolymerization of perlite; (3) quality experiment; and (4) fabrication of geopolymerized Styrofoam material. A conceptual design for the result of geopolymerized perlite packings was developed. The result of its warm stability, synthetic resistance, and condensation strength be going to be the basis of an ideal packing material. Current research indicates that 45% by burden Na2SiO3 exhibited the chief retained bulk and the highest compressive substance making this geopolymerized perlite a potential packing material with a Styrofoam factor of 0.00175/ft. Different studies presented the slightest Na2SiO3 weight portion results in better geopolymer properties. Based on these results, a full-column was created for the absorption of liquid gas accompanying a length-to-width, L/D ratio of 3.8. This process design of the fabrication of geopolymerized Styrofoam material will provide a resolution to the dilemmas of existent packing fabrics used in the industry.
Author(s) Details:
Lola Domnina Pestaño,
Chemical
Engineering Department, Faculty of Engineering, University of Santo Tomas,
Philippines and Research Center for the Natural and Applied Sciences,
University of Santo Tomas, Philippines.
Clariezle
Joy E. Soliven,
Chemical
Engineering Department, Faculty of Engineering, University of Santo Tomas,
Philippines.
Jewel Christine F. Tirado,
Chemical Engineering Department, Faculty of Engineering, University
of Santo Tomas, Philippines.
Please see the link here: https://stm.bookpi.org/TAER-V2/article/view/12950
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