Numerical study and statistical analysis of effective parameters on dielectrophoretic separation of particles using finite element and response surface methods
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Publisher
Springer Science and Business Media LLC
Link
https://link.springer.com/content/pdf/10.1007/s40430-024-05058-8.pdf
Reference26 articles.
1. Karthick S, Sen AK (2018) Improved understanding of acoustophoresis and development of an acoustofluidic device for blood plasma separation. Phys Rev Appl 10(3):034037
2. Yan S, Zhang J, Alici G, Du H, Zhu Y, Li W (2014) Isolating plasma from blood using a dielectrophoresis-active hydrophoretic device. Lab Chip 14(16):2993
3. Park SW, Lee J, Yoon H, Shin S (2021) Microfluidic investigation of salinity-induced oil recovery in porous media during chemical flooding. Energy Fuels 35(6):4885–4892
4. Saadat M, Yang J, Dudek M, Oye G (2021) Microfluidic investigation of enhanced oil recovery: the effect of aqueous floods and network wettability. J Pet Sci Eng 203:108647
5. Yang L, Sun L, Zhang H, Bian F, Zhao Y (2021) Ice-inspired lubricated drug delivery particles from microfluidic electrospray for osteoarthritis treatment. ACS Nano 15:20600–20606
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