Assoc Prof Dr. Humaira Yasmin | Fluid Mechanics | Best Researcher Award

Assoc Prof Dr. Humaira Yasmin | Fluid Mechanics | Best Researcher Award

King Faisal University | Saudi Arabia

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Early Academic Pursuits 

Humaira Yasmin's early academic pursuits laid the foundation for her scholarly journey. As the specifics of her early academic history are not provided, it is advisable to refer to official university sources for comprehensive details on her educational background.

Professional Endeavors

Currently associated with King Faisal University, Humaira Yasmin has dedicated her professional career to academia. The roles and responsibilities she has undertaken in the academic realm contribute to her overall professional profile.

Contributions and Research Focus

While the specific details of Humaira Yasmin's contributions and research focus are not provided, being associated with King Faisal University suggests an active engagement in academic and potentially research-oriented activities. Her impact in terms of publications, projects, or other academic contributions would be essential to understanding her research focus.

Accolades and Recognition

Without detailed information, it's challenging to highlight specific accolades or recognition received by Humaira Yasmin. Recognition in academia often comes through research publications, awards, or noteworthy contributions to the field.

Impact and Influence

Humaira Yasmin's impact and influence can be gauged by her roles within the academic institution, potential mentorship activities, and involvement in research projects. The extent of her influence on students and colleagues contributes to her professional legacy.

Legacy and Future Contributions

Humaira Yasmin's legacy and future contributions depend on her continued engagement in academia and research. If she has made significant strides in her field, her legacy might include contributions to knowledge, successful mentorship, and advancements in her academic discipline. Future contributions could involve expanding research endeavors, taking on leadership roles, and further enhancing the academic environment.

For a more comprehensive understanding of Humaira Yasmin's career, contributions, and impact, it is recommended to explore official university profiles, academic publications, and any available news or press releases related to her professional journey at King Faisal University.

Notable Publication

Peristaltic transport of nanofluid in a compliant wall channel with convective conditions and thermal radiation 2016 (110)

Simultaneous effects of slip and wall properties on MHD peristaltic motion of nanofluid with Joule heating  2015 (93

Simultaneous effects of convective conditions and nanoparticles on peristaltic motion  2014 (78)

Soret and Dufour effects in peristaltic transport of physiological fluids with chemical reaction: A mathematical analysis 2014 (69)

Effect of Hall and ion-slip on the peristaltic transport of nanofluid: A biomedical application 2019 (56)

Mr. Mohsen Faghihinezhad | Matertial Characterization | Best Researcher Award

 

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Early Academic Pursuits

Mohsen Faghihinezhad embarked on his academic journey with a Bachelor of Science in Civil Engineering from the University of Qom, Iran, graduating in 2018. During his undergraduate studies, he engaged in courses related to sustainable energy, hydrology engineering, water and wastewater treatment, welding technology, system management, groundwater, and general chemistry.

Professional Endeavors

Following his bachelor's degree, Mohsen pursued a Master of Science in Environmental Engineering at the University of Tehran, Iran, from 2018 to 2021. His master's thesis, titled "Catalytic ozonation of real textile wastewater by g-C3N4 modified with Al2O3 nanoparticles," earned an excellent grade. He then joined Michigan State University in 2022 for his Ph.D. in Environmental Engineering, showcasing his commitment to advancing his expertise.

Contributions and Research Focus

Mohsen's research focuses on various aspects of environmental engineering, including advanced oxidation processes such as catalytic ozonation, biodegradation remediation of environmental contaminants, wastewater surveillance, removal of emerging concerns by advanced treatment systems, adsorption processes, and the identification of functional microorganisms and genes involved in biodegradation.

Accolades and Recognition

Mohsen's dedication to research is evident through his publication record. Notably, his paper titled "Catalytic ozonation of real textile wastewater by magnetic oxidized g-C3N4 modified with Al2O3 nanoparticles" was published in the prestigious journal Separation and Purification Technology in 2022.

Impact and Influence

Through his research in catalytic ozonation and other advanced environmental engineering processes, Mohsen contributes to the understanding and development of effective methods for wastewater treatment. His work on phosphate removal and wastewater aerosols has implications for environmental protection and public health.

Legacy and Future Contributions

Mohsen Faghihinezhad's legacy in environmental engineering is marked by his contributions to catalytic ozonation and innovative wastewater treatment methods. As he pursues his Ph.D. at Michigan State University, his future contributions are anticipated to further enrich the field, particularly in the realms of advanced oxidation processes and contaminant removal.

For more specific details or updates, it is recommended to refer to Mohsen Faghihinezhad's professional profiles, research publications, or official university sources for the latest information on his academic and research endeavors.

Notable Publication

Catalytic ozonation of real textile wastewater by magnetic oxidized g-C3N4 modified with Al2O3 nanoparticles as a novel catalyst   2022 (30)

Phosphate removal from municipal effluent by a porous MgO-expanded graphite composite as a novel adsorbent: Evaluation of seawater as a natural source of magnesium ions   2021 (17)

Wastewater aerosols produced during flushing toilets, WWTPs, and irrigation with reclaimed municipal wastewater as indirect exposure to SARS-CoV-2  2021 (17)

Tailoring photocatalytic activity of graphitic carbon nitride using sulfanilic acid and incorporating in chitosan beads: Cr(VI) removal from aqueous solutions  2024