Advanced membrane design for improved carbon dioxide capture.

Nwogu, N.C.; Gobina, E.

All Outputs (3)

Preparation, characterization and testing of inorganic ceramic membranes. (2013)
Thesis
OGBUKE, I. 2013. Preparation, characterization and testing of inorganic ceramic membranes. Robert Gordon University, PhD thesis.

A novel approach to enhance the concentration of Carbon dioxide to economic scale using low efficient Inorganic Ceramic membranes has been proposed. This was achieved by the addition of second and third stage permeation trains to the existing low CO2... Read More about Preparation, characterization and testing of inorganic ceramic membranes..

Advanced membrane design for improved carbon dioxide capture. (2013)
Conference Proceeding
NWOGU, N.C. and GOBINA, E. 2013. Advanced membrane design for improved carbon dioxide capture. In Laudon, M., Romanowicz, B.F. and NSTI. (eds.) TechConnect briefs: Nanotechnology 2013, vol 3: bio sensors, instruments, medical, environment and energy: technical proceedings of the 2013 NSTI (Nano Science and Technology Institute) Nanotechnology conference and expo, 12-16 May 2013, Washington, USA. Boston, MA: TechConnect [online], pages 708-711. Available from: https://briefs.techconnect.org/wp-content/volumes/Nanotech2013v3/pdf/415.pdf

A nano-structure tubular hybrid inorganic membrane capable of stripping carbon dioxide from flue gas stream was designed and tested at laboratory scale to improve compliance to various environmental regulations to cushion the effect of global warming... Read More about Advanced membrane design for improved carbon dioxide capture..

Advanced membrane design for improved carbon dioxide capture. (2013)
Conference Proceeding
NWOGU, N.C. and GOBINA, E. 2013. Advanced membrane design for improved carbon dioxide capture. In Laudon, M. and Romanowicz, B. (eds.) TechConnect briefs: technical proceedings of the 2013 Clean technology and trade show: energy, renewables, materials, storage and environment, 12-16 May 2013, Washington, USA. Boston, MA: TechConnect [online], pages 204-207. Available from: https://briefs.techconnect.org/wp-content/volumes/Cleantech2013/pdf/415.pdf

A nano-structure tubular hybrid inorganic membrane capable of stripping carbon dioxide from flue gas stream was designed and tested at laboratory scale to improve compliance to various environmental regulations to cushion the effect of global warming... Read More about Advanced membrane design for improved carbon dioxide capture..