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Figure 1

Jiang, H., Straub, A., and Karanikola, V., (2022). Ammonia Recovery with Sweeping Gas Membrane Distillation: Energy and Removal Efficiency Analysis. ACS EST Engg. DOI: 10.1021/acsestengg.1c00294


Borovik, A., Karanikola, V., Zucker, I., (2020). Platform selection of engineered nanomaterials for water decontamination applications. Environ. Sci.: Nano. DOI: 10.1039/D0EN00786B


Karanikola, V., Moore, S., Deshmukh, A., Arnold, R., Elimelech, M., Sáez, E. (2019). Economic performance of membrane distillation configurations in optimal solar thermal desalination systems. Desalination. DOI: 10.1016/j.desal.2019.114164


Karanikola, V., Boo, C., Rolf, J., Elimelech, M. (2018). Engineered Slippery Surface to Mitigate Gypsum Scaling in Membrane Distillation for Treatment of Hypersaline Industrial Wastewaters. Environmental Science & Technology. DOI: 10.1021/acs.est.8b04836

Graphical Abstract

Deshmukh A., Boo C., Karanikola V., Lin S., Straub A. P., Tong T., Warsinger D. M., Elimelech M., (2018) Membrane Distillation at the Water-Energy Nexus: Limits, Opportunities, and Challenges. Energy Environ. Sci., DOI:10.1039/C8EE00291F.


graphical abstract


Moore S., Mirchandani S., Karanikola V., Nenoff T., Arnold R., Saez E. (2018) Process modeling for economic optimization of a solar driven sweeping gas membrane distillation desalination system. Desalination 437, 108-120. DOI: 10.1016/j.desal.2018.03.005

graphical Abstract


Shaulsky, E., Karanikola, V., Straub, A. P., Deshmukh, A., Zucker, I., Elimelech M. (2018). Asymmetric Membranes for Membrane Distillation and Thermo-Osmotic Energy Conversion. Desalination. DOI: 10.1016/j.desal.2018.11.005