Publication
JOURNAL PUBLICATIONS
2024
[1] Maleki, M., Rokhsar Talabazar, F., Koşar, A., Ghorbani, M., “On the Spatio-temporal Dynamics of Cavitating Turbulent Shear Flow Over a Microscale Backward-Facing Step: A Numerical Study,” International Journal of Multiphase Flow, Accepted, 2024.
[2] Abdelrahman, AM., Tebyani, S., Talabazar, FR., Tabar, SA., Berenji, NR., Aghdam, AS., Koyuncu, I., Kosar, A., Guven, H., Ersahin, ME., Ghorbani, M., Ozgun, H., “The flow pattern effects of hydrodynamic cavitation on waste activated sludge digestibility,” Chemosphere, 357, 141949, 2024.
2023
[3] Rokhsar Talabazar, F., Maleki, M., Sheibani Aghdam, A., Grishenkov, D., Ghorbani, M., and Kosar, A., ” Cavitation Inception and Evolution in ‘Cavitation on a Chip’ Devices at Low Upstream Pressures,” Physics of Fluids, 35, 012012, 2023.
[4] Namli, I., Karavelioglu, Z., Sarraf, SS., Aghdam, AS., Varol, R., Yilmaz, A., Sahin, SB., Ozogul, B., Bozkaya, DN., Acar, HF., Uvet, H., Cetinel, S., Kutlu, O., Ghorbani, M., Koşar, A., “On the application of hydrodynamic cavitation on a chip in cellular injury and drug delivery,” Lab on a Chip, 23(11), 2640-53, 2023.
[5] Maleki, M., Rokhsar Talabazar, F., Seyedmirzaei Sarraf, S., Sheibani Aghdam, A., Bayraktar, S., Tuzcuoğlu, E., Koşar, A., Ghorbani, M., “Detergent dissolution intensification via energy-efficient hydrodynamic cavitation reactors,” ACS Omega, 8(32), 29595-607, 2023.
2022
[6] Rokhsar Talabazar, F., Sheibani Aghdam, A., Jafarpour, M., Grishenkov, D., Kosar, A., and Ghorbani, M., ”Chemical Effects in “Hydrodynamic Cavitation on a Chip”: The Role of Cavitating Flow Patterns,” Chemical Engineering Journal, 445, 136734, 2022.
[7] Namli, I., Sarraf, S., Aghdam, A.S., Torabfam, G.C., Kutlu, O. Cetinel, S., Ghorbani, M., and Koşar, A., “Hydrodynamic Cavitation on a Chip: A Tool to Detect Circulating Tumor Cells,” ACS Applied Materials and Interfaces, 14, 40688-40697, 2022.
[8] Seyedmirzaei Sarraf, S., Rokhsar Talabazar, F., Namli, I., Maleki, M., Sheibani Aghdam, A., Gharib, G., Grishenkov, D., Ghorbani, M., and Kosar, A., ”Fundamentals, Biomedical Applications and Future Potential of Micro-scale Cavitation-A Review,” Lab on a chip, 22, 2237-2258, 2022.
[9] Abbasiasl, T., Sutova, H. E., Niazi, S., Celebi, G., Karavelioglu, Z., Kirabali, U.G., Yilmaz, A., Uvet, H., Kutlu, O., Ekici, S., Ghorbani, M., and Kosar, A., ”A Flexible Cystoscope Based on Hydrodynamic Cavitation for Tumor Tissue Ablation,” IEEE Transactions on Biomedical Engineering, 69, 513 – 524, 2022.
2021
[10] Ghorbani, M., ”The Hydrodynamic Cavitation Manifestation in Small Chips,” IEEE Access, 9, 110517 – 110524, 2021.
[11] Jafarpour, M., Sheibani Aghdam, A., Kosar, A., Cebeci, F.C., Ghorbani, M., ”Electrospinning of Ternary Composite of PMMA-PEG-SiO2 Nanoparticles: Comprehensive Process Optimization and Electrospun Properties,” Materials Today Communications, 29, 102865, 2021.
[12] Rokhsar Talabazar, F., Jafarpour, M., Talebian Gevari, M., Zuvin, M., Chen, H., Villanueva, L.G., Grishenkov, D., Kosar, A., and Ghorbani, M., ”Design and Fabrication of a Vigorous “Cavitation on a Chip” Device with Multiple Microchannel Configurations,” Microsystems & Nanoengineering, 7, 1-13, 2021.
[13] Jafarpour, M., Sheibani Aghdam, A., Talebian Gevari, M., Kosar, A., Bayazit, M.K., and Ghorbani, M., ”An Ecologically Friendly Process for Graphene Exfoliation Based on the “Hydrodynamic Cavitation on a Chip” Concept,” RSC Advances, 11, 17965-17975, 2021
[14] Shafaghi, AH., Rokhsar Talabazar, F., Zuvin, M., Talebian Gevari, M., Villanueva, L.G., Ghorbani, M., and Kosar, A.,”On Cavitation Inception and Cavitating Flow Patterns in a Multi Orifice Microfluidic Device with a Functional Surface,” Physics of Fluids, 33, 032005, 2021.
[15] Loskutova, K., Nimander, D., Gouwy, I., Chen, H., Ghorbani, M., Svagan, A., and Grishenkov, D., ”A Study on the Acoustic Response of Pickering Perfluoropentane Droplets in Different Media,” ACS Omega, 6,5670-5678, 2021.
[16] Talebian Gevari, M., Aydemir, G., Gharib, G., Kutlu, O., Uvet, H., Ghorbani, M., and Kosar, A., ”Local Carpet Bombardment of Immobilized Cancer Cells with Hydrodynamic Cavitation,” IEEE Access, 9,14983-14991, 2021.
[17] Chen, H., Evangelou, D., Loskutova, K., Ghorbani, M., and Grishenkov, D.,”On the Development of a Novel Contrast Pulse Sequence for Polymer-Shelled Microbubbles,” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 68, 1569 – 1579, 2021.
2020
[18] Ghorbani, M., Sheibani Aghdam, A., Talebian Gevari, M., Kosar, A., M., Cebeci, F.C., Grishenkov, D., and Justina Svagan, A., ”Facile Hydrodynamic Cavitation ON CHIP via Pickering Stabilized Perfluorodroplets inside Layer-by-Layer Assembled SLIPS Surfaces,” Chemical Engineering Journal, 382, 122809, 2020.
[19] Shafaghi, AH., Rokhsar Talabazar, F., Kosar, A. and Ghorbani, M., ”On the Effect of the Respiratory Droplet Generation Condition on COVID-19 Transmission,” Fluids, 5(3), 113, 2020
[20] Talebian Gevari, M., Abbasiasl, T., Niazi, S., Ghorbani, M., and Kosar, A.,”Direct and indirect thermal applications of hydrodynamic and acoustic cavitation: A review,” Applied Thermal Engineering, 171, 115065, 2020.
[21] Talebian Gevari, M., Parlar, A., Torabfam, M., Kosar, A., Yucel, M., and Ghorbani, M., ”Influence of fluid properties on intensity of hydrodynamic cavitation and deactivation of Salmonella typhimurium,” Processes, 8 (3), 326, 2020.
[22] Talebian Gevari, M., Niazi, S., Karimzadehkhouei, M., Sendur, K., Menguc, M. P., Ghorbani, M., and Kosar A., ”Deagglomeration of nanoparticle clusters in a ‘Cavitation on Chip’ device,” AIP Advances, 10, 115204, 2020.
[23] Talebian Gevari, M., Shafaghi, AH., Villanueva, L.G., Ghorbani, M., and Kosar, A., ”Engineered Lateral Roughness Element Implementation and Working Fluid Alteration to Intensify Hydrodynamic Cavitating Flows on a Chip for Energy Harvesting,” Micromachines, 11, 49, 2020.
[24] Abbasiasl, T., Niazi, S., Sheibani Aghdam, A., Chen, H., Cebeci, F.C., Grishenkov, D., Ghorbani, M., and Kosar, A.,”Effect of intensified cavitation using poly(vinyl alcohol) microbubbles on spray atomization characteristics in micro scale,” AIP Advances, 10, 025318, 2020.
2019
[25] Ghorbani, M., Olofsson, K., Justina Svagan, A., and Grishenkov, D., ”Unravelling the Acoustic and Thermal Responses of Pickering Emulsions Stabilized with Cellulose Nanofibers,” Langmuir, 35, 13090-13099, 2019.
[26] Ghorbani, M., Deprem, G., Ozdemir, E., Motazakker, A.R., Villanueva, L.G., and Kosar, A., ”On ”Cavitation On Chip” in Microfluidic Devices with Surface and Side Wall Roughness Elements,” IEEE Journal of Microelectromechanical Systems, 28, 890-899, 2019.
[27] Sheibani Aghdam, A., Ghorbani, M., Deprem, G., Cebeci, F., and Kosar, A., ”A New Method for Intense Cavitation Bubble Generation on Layer-by-Layer Assembled SLIPS,” Scientific Reports, 9, 1-13, 2019.
[28] Talebian Gevari, M., Ghorbani, M., Justina Svagan, A.,Grishenkov, D., and Kosar, A., ”Energy Harvesting with Micro Scale Hydrodynamic Cavitation -Thermoelectric Generation Coupling,” AIP Advances, 9, 105012, 2019
[29] Loskutova, K., Grishenkov, D. and Ghorbani, M., ”Review on Acoustic Droplet Vaporization in Ultrasound Diagnostics and Therapeutics,” Biomed Research International, 2019, 9480193, 2019.
2018
[30] Ghorbani, M., Chen, H., Villanueva, L.G., Grishenkov, D., and Kosar, A., “Intensifying Cavitating Flows in Microfluidic Devices with Poly(vinyl alcohol) (PVA) Microbubbles,” Physics of Fluids, 30, 102001, 2018.
[31] Ghorbani, M., “Numerical Study on the Behavior of Fuel Spray due to Cavitation in Injector Nozzle with Different Angles of the Nozzle,” Journal of Hydrodynamics, Ser. B, 30, 908-919, 2018.
[32] Ghorbani, M., Khalili Sadaghiani, A., Villanueva, L. G., Kosar, A., “Hydrodynamic Cavitation in Microfluidic Devices with Roughened Surfaces,” Journal of Micromechanics and Microengineering, 28, 075016, 2018.
[33] Ghorbani, M., Alcan, G., Sozer, C., Unel, M., Kosar, A., “Design, prototyping and fabricate a cavitating flow induced endoscopy for biomedical applications,” AIP Advances, 8, 035108, 2018.
[34] Ghorbani, M., Alcan, G., Mohammadi, A., Khalili Sadaghiani, A, Unel, M., Gozuacik, D., and Kosar, A. “Visualization and Droplet Segmentation of Cavitating Flows in Micro Orifices Using Active Contours,” Experimental Thermal and Fluid Sciences, 91, pp. 89-102, 2018.
2017
[35] Ghorbani, M., Mohammadi, A., Motazakker, A., Villanueva, L. G., Leblebici, Y., and Kosar, A. “Energy Harvesting in Micro Scale with Cavitating Flow,” ACS Omega, 2 (10), pp. 68706877, 2017.
[36] Ghorbani, M., Khalili Sadaghiani, A., Yildiz, M., and Kosar, A., “Experimental and Numerical Investigations on Spray Structure under the Effect of Cavitation Phenomenon in a Microchannel,” Journal of Mechanical Sciences and Technology, 31 (1), pp. 235-247, 2017.
2016
[37] Ghorbani, M., Alcan, G., Unel, M., Sabanovic, A., Uvet, H., Gozuacik, D., and Kosar, A., “Visualization of Microscale Cavitating Flow Regimes via Particle Shadow Sizing Imaging and Vision based Estimation of the Cone Angle,” Experimental Thermal and Fluid Sciences, 78, pp. 322-333, 2016.
[38] Ghorbani, M., Oral, O., Ekici, S., Gozuacik, D., and Kosar, A., “Review on Lithotripsy and Cavitation in Urinary Stone Therapy,” IEEE Reviews in Biomedical Engineering, 9, pp. 264-283, 2016.
[39] Ghorbani, M., Yildiz, M., Gozuacik, D., and Kosar, A., “Cavitating Nozzle Flow in Micro- and Mini Channels under the Effect of Turbulence,” Journal of Mechanical Sciences and Technology, 30 (6), pp. 2565-2581, 2016.
[40] Ghorbani, M., and Akbarpour, S., “The Multi Zone Model of the Low Heat Rejection Engine for DI Diesel Injection Engines,” Journal of the Brazilian Society of Mechanical Sciences and Engineering, 38 (2), pp. 365-375, 2016.
[41] Alcan, G., Ghorbani, M., Kosar, A., and Unel, M., “A New Visual Tracking Method for the Analysis and Characterization of Jet Flow,” Flow Measurement and Instrumentation, 51, pp. 55-67, 2016.
[42] Karimzadehkhouei, M., Ghorbani, M., Sendur, K., Menguc, M. P., Leblebici, Y., and Kosar, A., “Increasing the Stability of Nano Fluid with Cavitating Flows in Microorifices,” Applied Physics Letters, 109 (10), 104101, 2016.
2012-2015
[43] Ghorbani, M., Alcan, G., Yilmaz, D., Unel, M., and Kosar, A., “Visualization and Image Processing of Spray Structure under the Effect of Cavitation Phenomenon,” IOP Journal of Physics: Conference Series, 656, 012115, 2015.
[44] Akbarpour, S., and Ghorbani, M. “Numerical Investigation on the External Compressible Flow around NACA m1 and NACA 0015 Airfoils,” Scientia Iranica, 20 (5), pp. 1508-1516, 2013.
[45] Shervani-Tabar, M. T., Sheykhvazaye, M., and Ghorbani, M. “Numerical Study on the Effect of the Injection Pressure on spray Penetration Length,” Applied Mathematical Modelling, 37 (14-15), pp. 7778-7788, 2013.
[46] Shervani-Tabar, M. T., Parsa, S., and Ghorbani, M. “Numerical Study on the Effect of the Cavitation Phenomenon on the Characteristics of Fuel Spray,” Mathematical and Computer Modelling, 56 (5-6), pp. 105-117, 2012.
BOOK CHAPTERS
[1] Sozer, C., Ghorbani, M., Alcan, G., Uvet, H., Unel, M., and Kosar A., “Design, prototyping and control of a flexible cystoscope for biomedical applications,” IOP Conference Series: Materials Science and Engineering, 224, 012050, 2017.
[2] Alcan, G., Ghorbani, M., Kosar, A., and Unel, M., “Single Droplet Tracking in Jet Flow,” ICIAR 2016, LNCS 9730, pp. 18, 2016.
PAPERS IN CONFERENCE PROCEEDINGS
[1] Ghorbani, M., “A Qualitative Comparison between Two Different Microfluidic De-vices with Roughened Surfaces Regarding Cavitation Inception,” Nano Singapore 2021, Nov. 23, 2021
[2] Talebian Gevar, M., Koar, A., Ghorbani, M., “Spray structure analysis under the ef ect of hydrodynamic cavitation and its local ef ect on immobilized cancer cells,” NanoBioTech-Montreux Conference, 14-16 November 2021.
[3] Jafarpour, M., Rokhsar Talabazar, F., Koşar, A., Ghorbani, M., “ The Role of Potassium Iodide (KI) Solution in the Development of Hydrodynamic Cavitation on a Chip,” 11th International Symposium on Cavitation 2021 (CAV2021), Daejeon, Korea, 10 to 13 May 2021
[4] Ghorbani, M., Justina Svagan, A., Grishenkov, D., “Targeted Hydrodynamic Cavitating Flows via Ultrasound Waves via Pickering Stabilized Perfluorodroplets,” The 25th European symposium on Ultrasound Contrast Imaging, Rotterdam, The Netherlands 14-16 January 2020.
[5] Ghorbani, M., Grishenkov, D., Viklund, M., Kosar, A., “Impact Pressure of Cavitating Flows in Microfluidic Devices with Poly (Vinyl Alcohol) PVA Microbubbles,” 16th UK HEAT TRANSFER CONFERENCE, UKHTC2019, University of Nottingham, UK 8-10 September 2019.
[6] Ghorbani, M., Kosar, A., “A qualitative comparison between two different microfluidic devices with roughened surfaces regarding cavitation inception,” Green & Sustainable Chemistry & Photonics & Optoelectronics Conferences, Zurich, Switzerland, 2019.
[7] Ghorbani, M., Justina Svagan, A., Grishenkov, D., “Acoustic Response of a Novel Class of Pickering Stabilized Perfluorodroplets,” The 24th European symposium on Ultrasound Contrast Imaging, Rotterdam, The Netherlands 17-18 January 2019.
[8] Niazi, S., Talebian Gevar, M., Ghorbani, M., Koar, A., “Deagglomeration effects of hydrodynamic cavitation on nanofluids,” 1st International Conference on Nanofluids (ICNf2019) and 2nd European Symposium on Nanofluids (ESNf2019), Castelló, Spain.
[9] Talebian Gevar, M., Niazi, S., Ghorbani, M., Kosar, A., “Thermoelectric-coupled hydrodynamic cavitation energy harvesting system,” 1st International Conference on Nanofluids (ICNf2019) and 2nd European Symposium on Nanofluids (ESNf2019), Castelló, Spain.
[10] Ghorbani, M., Villanueva, L.G., Kosar, A., “An Optimization Study on Thermal Energy Harvesting from Micro Cavitating Flows,” 6th Micro and Nano Flows Conference, Atlanta, USA 9-12 September 2018.
[11] Ozdemir, E., Ozer, B., Deprem, G., Motezakker, A.R., Villanueva, L.G., Ghorbani, M., Kosar, A., “Hysteresis in Cavitating Flows within Transparent Microchips,” The 10th Symposium on Cavitation (CAV2018), Baltimore, Maryland, USA 2018.
[12] Ucak, B., Demirbilek, S., Kilic, K., Ghorbani, M., Kosar, A., “Thermoelectric Generator in Microscale with the Use of Cavitating Flows,” 15th UK HEAT TRANSFER CONFERENCE, UKHTC2017, Brunel University London, 4-5 September 2017.
[13] Alcan, G., Ghorbani, M., Kosar, A., Unel, M., “Droplet Characterization in Cavitating Flow Using Invariants of Elliptical Fourier Descriptors,” 19th International Conference on Image Analysis and Processing (ICIAP 2017), Catania, Italy, September 13-15, 2017.
[14] Sozer, C., Ghorbani, M., Alcan, G., Uvet, H., Unel, M., Kosar A., “Design, prototyping and control of a flexible cystoscope for biomedical applications,” 4th International Conference on Mechanics and Mechatronics Research (ICMMR 2017), Xi’an, China, June 20-24, 2017.
[15] Alcan, G., Ghorbani, M., Kosar, A., and Unel, M., “Vision Based Cone Angle Estimation of Bubbly Cavitating Flow and Analysis of Scattered Bubbles using Micro Imaging Techniques,” 41st Annual Conference of the IEEE Industrial Electronics Society (IECON2015), Yokohama, Japan, November 9-12, 2015.
[16] Ghorbani, M., and Kosar, A., “Visualization of Spray Structure at the Outlet of the Micro Orifices,” InterPACKICNMM2015-48304, Proceedings of the ASME 2015 International Technical Conference and Exhibition on Packaging and Integration of Electronic and Photonic Microsystems and ASME 2015 12th International Conference on Nanochannels, Microchannels, and Minichannels InterPACK-ICNMM2015, San Francisco, California, USA, July 6-9, 2015.
[17] Ghorbani, M., and Kosar, A., “Collapse of the Cavitation Bubbles at the Outlet of Microchannels,” Smart and Green interfaces Conference-2015 and Annual MC meeting COST MP 1106, Belgrade, Serbia, March 30th to April 1st 2015.
[18] Shervani-Tabar, M. T., Ghorbani, M., and Bahiji, S. A., “The Numerical Study on the Effect of the Cavitation Phenomenon on the Spray Length for a Certain Fuel Temperature,” ISME 2012.
[19] Shervani-Tabar, M. T., Ghorbani, M., and Parsa, S., “Numerical Study on the Behavior of Fuel Spray Characteristics due to Cavitation Phenomenon for Different Injector Geometry,” The 8th Symposium on Cavitation, Singapore, Paper Number 94, 2012.
[20] Shervani-Tabar, M. T., Sheykhvazaye, M., Ghorbani, M., and Azimzadeh, N., “Numerical Study on the Effect of the Pressure on the spray Penetration Length,” World Academy of Science, Engineering and Technology, Dubai, UAE, 61 Paper Number 297, 2012.
[21] Ghaffarnejhad, A., Shervani-Tabar, M. T., Ghorbani, M., and Sheykhvazaye, M., “Numerical Study on the Behavior of Fuel Spray due to Cavitation Phenomenon in the injector Hole,” World Academy of Science, Engineering and Technology, Dubai, UAE, 61 Paper Number 245, 2012.
[22] Shervani-Tabar, M. T., Parsa, S., and Ghorbani, M., “Numerical Study on the Effect of the Cavitation Phenomenon on the Characteristics of Fuel Spray,” World Academy of Science, Engineering and Technology, Dubai, UAE, 61 Paper Number 298, 2012.