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S. Shivram Sawant, Anil, A. Chandrashe, Krishnamurthy, V., Gaonkar, C., Kolwalkar, J., Khandeparker, L., Desai, D., Mahulkar, A. Vinod, Ranade, V. Vinayak, and Pandit, A. Balchandra, ?Effect of hydrodynamic cavitation on zooplankton: a tool for disinfection?, Biochemical Engineering Journal, vol. 42, no. 3, pp. 320-328, 2008.\par \par K.  Prajapati, Sorokhaibam, L. Gayatri, Bhandari, V. M., Killedar, D. J., and Ranade, V. V., ?Differentiating process performance of various coagulants in removal of congo red and orange G dyes?, International Journal of Chemical Reactor Engineering, vol. 14, no. 1, pp. 195-211, 2016.\par \par S. S.  Raut, Kamble, S. P., and Kulkarni, P. S., ?Efficacy of zero-valent copper (Cu-0) nanoparticles and reducing agents for dechlorination of mono chloroaromatics?, Chemosphere, vol. 159, pp. 359-366, 2016.\par \par P. D.  Pathak, Mandavgane, S. A., and Kulkarni, B. D., ?Utilization of banana peel for the removal of benzoic and salicylic acid from aqueous solutions and its potential reuse?, Desalination and Water Treatment, vol. 57, no. 27, pp. 12717-12729, 2016.\par \par P.  Jain, Bhandari, V. M., Balapure, K., Jena, J., Ranade, V. V., and Killedar, D. J., ?Hydrodynamic cavitation using vortex diode: an efficient approach for elimination of pathogenic bacteria from water?, Journal of Environmental Management, vol. 242, pp. 210-219, 2019.\par \par M. B.  Mane, Bhandari, V. M., Balapure, K., and Ranade, V. V., ?Novel hybrid cavitation process for enhancing and altering rate of disinfection by use of natural oils derived from plants?, Ultrasonics Sonochemistry, vol. 61, p. 104820, 2020.\par \par P. B.  Patil, Bhandari, V. M., and Ranade, V. V., ?Improving efficiency for removal of ammoniacal nitrogen from wastewaters using hydrodynamic cavitation?, Ultrasonics Sonochemistry, vol. 70, p. 105306, 2021.\par \par V.  Ahuja, Dasgupta, D., Kshirsagar, S., Ghosh, P., More, S., Gupta, P., Behera, B., and Bhaskar, T., ?Crystalline xylitol production from corncob biomass with oral toxicity analysis?, Industrial Crops and Products, vol. 187, no. 8, p. 115407, 2022.\par \par D.  Dixit, Thanekar, P., and Bhandari, V. M., ?Degradation of API pollutants using hydrodynamic cavitation and process intensification?, Chemical Engineering and Processing - Process Intensification, vol. 172, p. 108799, 2022.\par \par P. B.  Patil, Thanekar, P., and Bhandari, V. M., ?Intensified hydrodynamic cavitation using vortex flow based cavitating device for degradation of ciprofloxacin?, Chemical Engineering Research & Design, vol. 187, pp. 623-632, 2022.\par \par P. B.  Patil and Bhandari, V. M., ?Solvent-assisted cavitation for enhanced removal of organic pollutants - degradation of 4-aminophenol?, Journal of Environmental Management, vol. 311, p. 114857, 2022.\par \par D.  Dixit, Thanekar, P., and Bhandari, V. M., ?Dual activity cavitation reactors for increased efficacy in degradation of refractory pollutants-A case study on cephalexin degradation?, Chemical Engineering Research & Design, vol. 192, pp. 310-322, 2023.\par \par D.  Dixit, Thanekar, P., and Bhandari, V. M., ?Enhanced degradation of metformin using surface-coated vortex diodes?, Chemical engineering and processing-process intensification , vol. 193, 2023.\par \par D.  Dixit, Thanekar, P., and Bhandari, V. M., ?Improving hydrodynamic cavitation using newer surface-coated cavitation reactors?, Chemical Engineering Research & Design, vol. 199, pp. 238-251, 2023.\par \par S.  Menon, Suresha, P. R., Khairnar, A., and Kalyanraman, V., ?Application of eco-friendly cationic celluloses for effective sludge dewatering?, Water Air and Soil Pollution, vol. 235, no. 6, p. 388, 2024.\par \par S. Najrul Islam, Ansari, I. Ilyas, Gopinath, C. S., and Ahmad, A., ?Efficient hydrogen liberation from autocatalytic wastewater treatment by green synthesized Ag2SeO3 nanocatalyst?, Inorganic Chemistry Communications, vol. 175, p. 114106, 2025.\par \par R.  Ghandour, Ali, A. B. M., Kadhum, A. Amir H., Diab, M. A., El-Sabban, H. A., Shah, M., and Nagar, H., ?Novel extruded palm tree wood-derived activated carbon-based SrTiO3 for wastewater treatment in continuous system: evaluation of synthesis condition, LHSV, and pH?, Inorganic Chemistry Communications, vol. 173, p. 113898, 2025.\par \par }