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Dr. F. Handan Tezel leads the Energy-S.M.A.R.T. team (Energy-Storage, Membranes, Adsorption Research and Technology), composed of graduate (Ph.D. candidate and M.A.Sc. candidate) and undergraduate (B.A.Sc. candidate) students.


They work together in the Chemical and Biological Engineering laboratories in the Colonel By building located on the University of Ottawa campus in downtown Ottawa, ON. 

Post-doctoral Fellow

Energy - S.M.A.R.T.

Coming soon.

Maria Abbassi
M.A.Sc. Candidate

Graduate Students

Amirhosein Jahanshahi.png

Production of Natural Gas from Renewable Sources using Adsorption Technology

Amirhosein’s research is focused to develop a technology and identify adsorbents that are better able to remove impurities such as carbon dioxide (CO2), nitrogen (N2), and oxygen (O2) from biogas (mostly CH4, also referred to as natural gas) at different system total pressures for different concentrations using adsorption technology. His research will be carrying out adsorbent screening, by determining pure component and mixed gas adsorption isotherm data. Promising adsorbents will then be selected and tested to obtain and look at adsorbents’ performance data when treating different gas mixtures in fixed bed adsorption systems. Concentration pulse chromatographic technique will be used to determine binary mixture isotherms of these gases with the chosen adsorbents. Breakthrough curves will also be determined using multicomponent mixtures of the above mentioned gases.

Amirhosein Jahanshahi
Ph.D. Candidate
Dana Li
M.A.Sc. Candidate

Separation of Carbon Dioxide, Nitrogen, and Methane by Adsorption


Adsorption for the separation of gases is attractive due to its relatively low capital cost and energy requirements compared to absorption or distillation. Our current research involves determining the single adsorption capacities of CO2, N2, and CH4 for commercially available adsorbents, as well as the binary adsorption capacities of CO2 and N2 in the presence of CH4. After identifying promising adsorbents from these tests, breakthrough experiments will be completed to assess their performance for multicomponent mixtures.

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Suboohi Shervani
Ph.D., EIT

Porous Nanostructures for Space Heating and Cooling


Adsorption thermal energy storage is an emerging technology used in space heating and cooling applications. The thermal energy storage group focuses on a different class of porous adsorbent materials such as silica gel, zeolites, activated carbon, etc., and studies their thermal energy storage properties. We are also analyzing how the porosity, pore-volume, and surface area of the materials affect the water uptake capacity and energy storage density of the adsorption materials.

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