Mo, Z., Peters, C. D., Long, C., Hankins, N. P., She, Q., & Engineering, S. o. C. a. E. (2022). How split-feed osmotically assisted reverse osmosis (SF-OARO) can outperform conventional reverse osmosis (CRO) processes under constant and varying electricity tariffs.
Chicago Style CitationMo, Zijing, Christian D. Peters, Cheng Long, Nicholas P. Hankins, Qianhong She, and School of Civil and Environmental Engineering. How Split-feed Osmotically Assisted Reverse Osmosis (SF-OARO) Can Outperform Conventional Reverse Osmosis (CRO) Processes Under Constant and Varying Electricity Tariffs. 2022.
MLA引文Mo, Zijing, et al. How Split-feed Osmotically Assisted Reverse Osmosis (SF-OARO) Can Outperform Conventional Reverse Osmosis (CRO) Processes Under Constant and Varying Electricity Tariffs. 2022.