Bubble Reactions to Improve Sustainability

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BWS ClarkeIndependent ResearcherA And

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8. Ying, K., Al-Mashhadani, M.K.H., Hanotu, J.O., Gilmour, D.J., Zimmerman, W.B., Enhanced Mass Transfer in Microbubble Driven Airlift Bioreactor for Microalgal Culture. Engineering, 2013. 5(9): p. 735-743.9. Z i m m e r m a n , W. B . , L o z a n o - P a r a d a , J . H . , Bandulasena, H.H., Ozone regenerated: low power consumption and high dispersal rates with microbubbles. J. Sewerage & Water, 2010.10. Al-Yaqoobi, A., Zimmerman, W.B., Microbubble distillation studies of a binary mixture, USES - University of Sheffield Engineering Symposium 2014, Chair: Pratik Desai, 2014. Sheffield p. 9.11. Zimmerman, W.B., Hewakandamby, B. N., Tesař, V., Bandulasena, H. C. H. & Omotowa, O. A. On the design and simulation of an airlift loop bioreactor with microbubble generation by fluidic oscillation. Food and Bioproducts Processing, 2009. 87(3): p. 215-227.12. Zimmerman, W.B., Zandi, M., Bandulasena, H. C., Tesař, V., Gilmour, D.J., & Ying, K., Design of an airlift loop bioreactor and pilot scales studies with fluidic oscillator induced microbubbles for growth of a microalgae Dunaliella salina. Applied Energy, 2011. 88(10): p. 3357-3369.13. Al-Mashhadani, M.K.H., Bandulasena, H.C.H., and Zimmerman, W.B., CO2 Mass Transfer Induced through an Airlift Loop by a Microbubble Cloud Generated by Fluidic Oscillation. Industrial & Engineering Chemistry Research, 2011. 51(4): p. 1864-1877.14. Agarwal, A., Ng, W.J., and Liu, Y., Principle and applications of microbubble and nanobubble technology for water treatment. Chemosphere, 2011. 84(9): p. 1175-80.15. Haedelt, J., Beckett, S.T., and Niranjan, K., Bubble- Included Chocolate: Relating Structure with Sensory Response. Journal of Food Science, 2007. 72(3): p. E138-E142.16. Fan, M., Tao, D., Honaker, R., & Luo, Z., Nanobubble generation and its applications in froth flotation (part IV): mechanical cells and specially designed column flotation of coal. Mining Science and Technology (China), 2010. 20(5): p. 641-671.17. Fan, M., Tao, D., Honaker, R., & Luo, Z., Nanobubble generation and its applications in froth flotation (part II): fundamental study and theoretical analysis. Mining Science and Technology (China), 2010. 20(2): p. 159-177.18. Fan, M., Tao, D., Honaker, R., & Luo, Z., Nanobubble generation and its applications in froth flotation (part III): specially designed laboratory scale column flotation of phosphate. Mining Science and Technology (China), 2010. 20(3): p. 317-338.19. Fan, M., Tao, D., Honaker, R., & Luo, Z., Nanobubble generation and its application in froth flotation (part I): nanobubble generation and its effects on properties of microbubble and millimeter scale bubble solutions. Mining Science and Technology (China), 2010. 20(1): p. 1-19.20. Coward, T., Lee, J.G.M., and Caldwell, G.S., The effect of bubble size on the efficiency and economics of harvesting microalgae by foam flotation. Journal of Applied Phycology, 2014.21. Lee, J.-W., Kim, H-W., Sohn, J-I; Yoon, G-S., A Study on Micro Bubbles Influence on Human Skin Cleaning. Advanced Science Letters, 2013. 19(9): p. 5.22. Kozuka, H., Inoue, M., Imura, K., & Nemoto, Y., Microbubble cleaning system for a large product such as a vehicle. 2014, Google Patents.

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