Mohammad Boshrouyeh Ghandashtani scite author profile

The two‐chambered microbial fuel cell (MFC) was designed and used for studying the efficiency of the real wastewater treatment from a non‐steroidal anti‐inflammatory pharmaceutical plant as well as from synthetic wastewater containing diclofenac sodium (DS). The removal of the contaminants was expressed regarding chemical oxygen demand (COD) removal, as measured by spectrophotometry experiments. Moreover, the effect of two different types of the cathode on current characteristics and COD removal was investigated. This research showed that the Pt‐coated Ti cathode could lead to higher efficiency of both power density and COD removal. In this case, the results indicated that the maximum power density (Pmax) was 20.5 and 6.5 W/m3 and the maximum COD removal was 93 and 78% for MFCs using real and synthetic wastewater, respectively.

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Experimental investigation and mathematical modeling of nano‐composite membrane fabrication process: Focus on the role of solvent type

Ghandashtani

Tavangar

Ashtiani

et al. 2018

Asia-Pacific J Chem Eng

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In this study, the effect of fabrication parameters on the performance of nano-SiO 2 -embedded membranes fabricated by three prevalent solvents was investigated. Genetic programming was applied for modeling and estimating the best preparation conditions to obtain a proper membrane for oily wastewater microfiltration. Membranes were prepared via a combination of vapor-induced phase separation and nonsolvent-induced phase separation methods. Different types of solvents such as N-methyl-2-pyrrolidone, N,N-dimethyl formamide, and dimethyl sulfoxide were used in cooperating with SiO 2 nanoparticles to improve hydrophilicity properties of polyethersulfone. Thermodynamic behavior of solvents and their interaction with polymer and nonsolvent were considered as criteria for forming a suitable membrane with the maximum effectiveness of nanoparticles. The results showed that nanoparticles are more influential along with a solvent that has a weak affinity with a polymer, which subsequently can produce efficient membranes under conditions with a balance between exposure time and relative humidity. The optimum amounts of parameters were estimated by genetic algorithm to introduce a condition for having a membrane with the maximum permeate flux. Membranes fabricated with dimethyl sulfoxide represented the highest pore size and the most hydrophilic surface, which, in turn, led to the desired membrane (permeate flux 300 L/m 2 hr and oil rejection 97%).

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The impacts of high salinity and polymer properties on dewatering and structural characteristics of flocculated high-solids tailings

Ghandashtani

Costine

Edraki

et al. 2022

Journal of Cleaner Production

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The Effects of Surfactant Additives on Properties and Morphologies of Cellulose Acetate Membranes Prepared by Phase Inversion

Bolandi

Ashtiani

Okhovat

et al. 2020

Theor Found Chem Eng

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