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Water and Cost Reduction from the Application of EDS to Facilitate Water Free Cleaning in Concentrated Solar Power

Published online by Cambridge University Press:  06 April 2018

Ryan Eriksen*
Affiliation:
Electrical and Computer Engineering Department, Boston University, 8 Saint Marys Street, Boston, MA
Aykut Turkoglu
Affiliation:
Questrom School of Business, Boston University, 595 Commonwealth Avenue, Boston, MA
Annie Bernard
Affiliation:
Electrical and Computer Engineering Department, Boston University, 8 Saint Marys Street, Boston, MA
Nitin Joglekar
Affiliation:
Questrom School of Business, Boston University, 595 Commonwealth Avenue, Boston, MA
Mark Horenstein
Affiliation:
Electrical and Computer Engineering Department, Boston University, 8 Saint Marys Street, Boston, MA
Malay Mazumder
Affiliation:
Electrical and Computer Engineering Department, Boston University, 8 Saint Marys Street, Boston, MA
*
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Abstract

Soiling in solar power generation will be a significant obstacle to its growth if a water free method cannot be found. Demand for water in arid regions will increase as more solar power generation is built, requiring more water to clean the optical surface, in turn increasing the price of water. This will lead to increased operating costs for solar power generation, and potentially disputes in locations where water is scarce. The electrodynamic screen (EDS) can reduce soiling and contribute to restoring the optical surface without the use of water. Periodic cleaning will still be required, but at reduced frequency, leading to a significant reduction in the consumption of water. In this model, it was found that a 250 MW concentrated solar power plant would have a 74% reduction in water given current laboratory production uncertainties. This indicates that EDS technology could decrease both the operating cost and the water use for solar generation plants.

Type
Articles
Copyright
Copyright © Materials Research Society 2018 

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References

References:

Sarver, T., Al-Qaraghuli, A., Kazmerski, L.., “A comprehensive review of the impact of dust on the use of solar energy: History, investigations, results, literature, and mitigation approaches”, Renewable and Sustainable Energy Reviews 22 (2013) 698733CrossRefGoogle Scholar
Bracken, N., et al. ., “Concentrating Solar Power and Water Issues in the U.S. Southwest”, Technical Report NREL/TP-6A50-61376, March 2015, The Joint Institute for Strategic Energy Analysis, https://www.nrel.gov/docs/fy15osti/61376.pdfGoogle Scholar
Jones, R., Baras, A., Al Saeeri, A., Al Qahtani, A., Al Amoudi, A., Al Shaya, Y, Alodan, M., Al-Hsaien, S., “Optimized Cleaning Cost and Schedule Based on Observed Soiling Conditions for Photovoltaic Plants in Central Saudi Arabia”, IEEE Journal Of Photovoltaics, Vol. 6, No. 3, May 2016CrossRefGoogle Scholar
Sayyah, D. Crowell, A. Raychowdhury, M. Horenstein, , Mazumder, M., “An experimental study on the characterization of electric charge in electrostatic dust removal”, Journal of Electrostatics, Volume 87, June 2017, Pages 173179.CrossRefGoogle Scholar
Mazumder, , et al., Mitigation of Dust Impact on Solar Collectors by Water-Free Cleaning with Transparent Electrodynamic Films: Progress and Challenges, IEEE Journal Of Photovoltaics, Vol. 7, No. 5, September 2017CrossRefGoogle Scholar
Joglekar, N., Guzelsu, E., Mazumder, M., Botts, A., Ho, C. (2014). “A Levelized Cost Metric for EDS-Based Cleaning of Mirrors in CSP Power Plants” ASME -8th International Conference on Energy Sustainability, Boston, MA.Google Scholar
Alqatari, S., Alfaris, A., and de Weck, O. L., “Cost and performance comparative model of dust mitigation technologies for solar PV in Saudi Arabia, Journal of Environmental Science, http://environment.scientific-journal.com/articles/4/17.pdfGoogle Scholar