Graduation Year
2010
Document Type
Thesis
Degree
M.S.Ch.E.
Degree Granting Department
Chemical Engineering
Major Professor
D.Yogi. Goswami, Ph.D.
Co-Major Professor
Elias K. Stefanakos, Ph.D.
Committee Member
Elias K. Stefanakos, Ph.D.
Committee Member
John T. Wolan, Ph.D.
Keywords
carbonation, calcination, gasification, greenhouse gas, power generation
Abstract
The main objective of this research is to develop a simple and cost effective separation method that captures carbon dioxide from power plant flue gas, as a pure stream that can be stored using regenerable dolomite (calcium magnesium carbonate) as the sorbent. The developed dolomite sorbent was evaluated for carbon dioxide capture capacity using muti-cycle tests of cyclical carbonation/calcination experiments in the thermogravimetric analyzer (TGA) model SDT 600. The variables controlled in the experiment were weight of calcium oxide and sintering time of the sample. The dolomite materials investigated were from two sources Alfa Aesar and Specialty Minerals. The prepared sorbent, after conditioning, is in the oxide form and can adsorb CO2 to form the carbonate and be regenerated back to the oxide.
The results showed that the dolomite sorbent developed can be used for reversible CO2 capture. The data from 8 multi-cycle TGA experiments show that the reversible capacity reduced in the first few cycles; however it stabilized to an average value of 34 percent after an average of 10 cycles and an average conditioning time of 15 hours. Data from two multi-cycle TGA experiments show that the dolomite sorbent is capable of an average stabilized conversion of 65% in an average of 13 cycles at a conditioning time of 87 hours.
Scholar Commons Citation
Latchman, Drupatie, "Carbon Dioxide Capture From Fossil Fuel Power Plants Using Dolomite" (2010). USF Tampa Graduate Theses and Dissertations.
https://digitalcommons.usf.edu/etd/1693
