Ali Bahloul | Advanced Light Sources | Research Excellence Award

Published on by Biophotonics Research

Prof. Dr. Ali Bahloul | Advanced Light Sources | Research Excellence Award

Prof. Dr. Ali Bahloul | IRSST | Canada

Ali Bahloul is an accomplished researcher and academic specializing in fluid dynamics and heat and mass transfer, with a strong focus on applications related to chemical and biological risk prevention, environmental health, and occupational safety. He received advanced training in fluid dynamics and transfer phenomena from leading French institutions, progressing from undergraduate studies in physics and mechanics to a master’s degree, a doctorate, and ultimately the habilitation to supervise research. He is actively affiliated with major research and academic institutions, where he contributes as a regular researcher and as an associate and adjunct professor in engineering and public health–related departments. His work bridges fundamental transport phenomena with applied issues in risk assessment, exposure control, and prevention strategies in complex environments. Ali Bahloul has authored a substantial body of scientific documents published in peer-reviewed journals and conference proceedings, reflecting sustained research productivity and international visibility. His scholarly impact is evidenced by strong bibliometric indicators, with citation counts reaching approximately 2,271 and 913 across major indexing databases, an h-index of 26 and 16, and i10-index values of 54 and 25, respectively. These metrics highlight the influence, consistency, and relevance of his contributions to fluid dynamics, transfer processes, and environmental and occupational health research.

Profile: Google Scholar

Featured Publications

Bahloul, A., Boutana, N., & Vasseur, P. (2003). Double-diffusive and Soret-induced convection in a shallow horizontal porous layer. Journal of Fluid Mechanics, 491, 325–352.

Chavez, M., Hajra, B., Stathopoulos, T., & Bahloul, A. (2011). Near-field pollutant dispersion in the built environment by CFD and wind tunnel simulations. Journal of Wind Engineering and Industrial Aerodynamics, 99(4), 330–339.

Oztop, H. F., Dagtekin, I., & Bahloul, A. (2004). Comparison of position of a heated thin plate located in a cavity for natural convection. International Communications in Heat and Mass Transfer, 31(1), 121–132.

Dagtekin, I., Oztop, H. F., & Bahloul, A. (2007). Entropy generation for natural convection in Γ-shaped enclosures. International Communications in Heat and Mass Transfer, 34(4), 502–510.

Burlet-Vienney, D., Chinniah, Y., Bahloul, A., & Roberge, B. (2015). Design and application of a five-step risk assessment tool for confined space entries. Safety Science, 80, 144–155.

Burlet-Vienney, D., Chinniah, Y., Bahloul, A., & Roberge, B. (2015). Occupational safety during interventions in confined spaces. Safety Science, 79, 19–28.

Mostofi, R., Wang, B., Haghighat, F., Bahloul, A., & Jaime, L. (2010). Performance of mechanical filters and respirators for capturing nanoparticles: Limitations and future direction. Industrial Health, 48(3), 296–304.

Samah Gasm Allah Babiker | Advanced Light Sources | Research Excellence Award

Published on by Biophotonics Research

Dr. Samah Gasm Allah Babiker | Advanced Light Sources | Research Excellence Award

Dr. Samah Gasm Allah Babiker | Red Sea University | Sudan

Dr. Samah Gasm Allah Babiker Gasm Allah is a Sudanese Assistant Professor and accomplished researcher with more than 19 years of experience in higher education, combining teaching, research, and consultancy across diverse STEM disciplines. She has built a strong academic profile with 11 scholarly documents, achieving an h-index of 5 and accumulating 67 citations across 63 citing documents, reflecting the impact and relevance of her scientific contributions. Her research expertise centers on renewable energy, quantum physics, thermophotovoltaic (TPV) systems, and light-emitting diodes, with a particular emphasis on modifying radiative properties and designing innovative TPV systems to enhance overall efficiency and energy output. Throughout her career, Dr. Samah has published extensively in peer-reviewed journals and international conferences, earning recognition among leading academics for research productivity and scientific citations. In addition to her research achievements, she possesses in-depth experience in managing undergraduate and postgraduate programs, supervising postgraduate research, and executing energy and manufacturing projects. She is also known for her strong leadership, project management, proposal writing, and academic administration skills, alongside effective communication, mentoring, and faculty development capabilities. Her work demonstrates a sustained commitment to advancing scientific knowledge and fostering excellence in higher education.

Profile: Scopus

Featured Publication
Thermal performance optimization of microchannel heat sinks with triangle wave fin designs and various heat transfer fluids using GA/RSM/TOPSIS. (2025). Case Studies in Thermal Engineering.