User:Bposson/sandbox

A. https://en.wikipedia.org/wiki/Membrane_gas_separation

B. https://en.wikipedia.org/wiki/Carbon_capture_and_storage

C. https://en.wikipedia.org/wiki/Facilitated_diffusion

To the membrane gas separation article, we will add content on the following:

We will describe the effects of changing the pressure ratio on the process, and how selectivity alone does not allocate the proper carbon dioxide separation. Energy costs alone, though, makes operating the pressure difference under close to vacuum conditions not feasible. We will describe the CO2 separation process designed by Dr. Baker’s works that makes membranes be competitive with absorption and adsorption technologies. We will discuss the advantages of process design in making membrane separation economical. For example, considering applications of appropriate contact area between phases. Also, we need to consider the use of multiple membranes, configured with streams going into many different pressure changes to optimize carbon dioxide separation.Methods in which to increase carbon dioxide concentration to maximize driving force. We will also explain the current status of CO2 capture with membranes in terms of research, feasibility, and implementation.

Bibliography
 * 1) Brunetti, A.; Scura, F.; Barbieri, G. Membrane technologies for CO2 separation. Journal of Membrane Science 359 (2010) 115–125.
 * 2) Baker, Richard W. Future Directions of Membrane Gas Separation Technology. Ind. Eng. Chem. Res. 2002, 41, 1393-1411.
 * 3) Merkel, Tim C.; Lin, Haiqing; Wei, Xiaotong; Baker, Richard W. Power plant post-combustion carbon dioxide capture: An opportunity for membranes.Journal of Membrane Science 359 (2010) 126–139.
 * 4) Huang, Yu; Merkel, Tim C.; Baker, Richard W. Pressure ratio and its impact on membrane gas separation processes. Journal of Membrane Science 463 (2014) 33–40.
 * 5) Hao, Pingjiao; Wijmans, J.G.; Kniep, Jay; Baker, Richard W. Gas/gas membrane contactors - An emerging membrane unit operation. Journal of Membrane Science 462 (2014) 131–138.
 * 6) Brice Freemana, Pingjiao Haoa, Richard Bakera, Jay Kniepa, Eric Chenb, Junyuan Dingb, Yue Zhangb, Gary T. Rochelle. Hybrid Membrane-absorption CO2 Capture process. Energy Procedia 63 (2014) 605 – 613.
 * 7) Haiqing Lin, Zhenjie He, Zhen Sun, Jay Kniep, Alvin Ng, Richard W. Baker, Timothy C. Merkel. CO2-selective membranes for hydrogen production and CO2 capture – Part II: Techno-economic analysis.Journal of Membrane Science 493 (2015) 794–806

Our article draft is in the sandbox of JoseZZ