Minhtrang 92

This user is a student editor in Wikipedia:Wiki_Ed/UC_Berkeley/Carbon_Capture_and_Sequestration_(Spring_2016). Student assignments should always be carried out using a course page set up by the instructor. It is usually best to develop assignments in your sandbox. After evaluation, the additions may go on to become a Wikipedia article or be published in an existing article.

Topic: Calcium Looping Post Combustion Carbon Capture

Description

The biggest thing we have to contribute to the current Wikipedia entry on Calcium Looping is specificity to carbon capture and storage. While the entry does contain a section titled “Benefits of CaL compared with other post-combustion capture processes”, it is empty. We have several resources specifically describing the efficacy of Calcium Looping in relation to capture methods like solid sorbent capture and membrane scrubbers present in the bibliography. The entry offers a very basic technical explanation of the process which we will make more specific and comprehensive. While it does explain the basic technology, it fails to cover the political implications; something that is necessary to understand in order to evaluate the true viability of the process. It is politically divisive, seen as financially extravagant and an unnecessary expense. While the entry describes in brief the process of calcium looping, it does not describe how the process would be implemented; nor does it describe in depth the drawbacks to calcium looping as a process. While calcium looping is a viable carbon capture strategy, some resources we have compiled raise caveats to its efficacy, notably the high amounts of waste solvent that make the process expensive to run for extended periods of time. Providing the conflicting viewpoints presented in these sources would make the entry more comprehensive and less opinionated. In order to surmount these obstacles, technological advances in decreasing the waste product would have to be made; advances which are described in portions of our bibliography, but not at all in the entry. Finally, the entry is poorly referenced.

Articles

1. Calcium looping
2. Chemical looping combustion
3. Carbon capture and storage

References

1. Blamey, J.; Anthony, E.J.; Wang, J.; Fennell, P.S. 2010, The Calcium Looping Cycle for large-scale CO2 capture. Progress in Energy and Combustion Science vol. 36 (2) p. 260-279
2. MacKenzie A, Granatstein DL, Anthony EJ, Abanades JC. Economics of CO2 capture using the calcium cycle with a pressurized fluidized bed combustor. Energy & Fuels 2007; 21(2):920–6.
3. Manovic V, Anthony EJ. Thermal activation of CaO-based sorbent and self reactivation during CO2 capture looping cycles. Environmental Science &Technology 2008; 42(11):4170–4.
4. Romeo LM, Abanades JC, Escosa JM, Pano J, Giminez A, Sanchez-Biezma A,et al. Oxyfuel carbonation/calcination cycle for low cost CO2 capture in existing power plants. Energy Conversion and Management 2008;49(10):2809–14
5. Coppola A., Montagnaro F., Salatino P., Scala F. Fluidized bed calcium looping: The effect of SO2 on sorbent attrition and CO2 capture capacity, Chemical Engineering Journal, Volumes 207–208, 1 October 2012, 445-449