Assist. Prof. Dr. Abouelnadar El Salem | Sustainable Agriculture | Best Researcher Award

Senior Researcher, Yellow River Delta Intelligent Agricultural Machinery Equipment Industry Academy, China

Assist. Prof. Dr. Abouelnadar El Salem is a Senior Researcher at the Department of Soil and Water Conservation, Desert Research Center (DRC), Cairo, Egypt, and affiliated with the Yellow River Delta Intelligent Agricultural Machinery Equipment Industry Academy, China. He earned his Ph.D. in Agricultural Mechanization Engineering from Huazhong Agricultural University, China (2022), where his research focused on experimental soil adhesion reduction and simulation of soil–tool interaction under paddy field conditions based on bionics. He also holds an M.Sc. in Farm Machinery and Power Engineering from Ain Shams University, Egypt (2017), and a B.Sc. in Agricultural Engineering from Kafrelsheikh University, Egypt (2006, with honors). Dr. El Salem’s primary research interests lie in reducing soil adhesion and friction at the soil–tool interface using bio-inspired microstructures and low-surface-energy polymers, modeling soil–tool interactions with the Discrete Element Method (DEM), assessing and designing rainwater harvesting systems, and monitoring tillage- and rainfall-induced soil erosion under diverse land-use conditions. He has held key academic and research positions, including Researcher (Doctorate Holder) at DRC, supervising master’s students and conducting peer-reviewed research (2022–Present), Assistant Researcher at Huazhong Agricultural University (2018–2022), and Agricultural Engineer at the Agricultural Research Center, Egypt (2007–2012). His major contributions include innovations in soil conservation techniques, DEM-based mechanistic models of soil–tool interactions, sustainable water resource management, and practical recommendations for arid and semi-arid agriculture. He has published 15 documents, accumulated 136 citations, and holds an h-index of 7. Dr. El Salem has received recognition for his international collaborations in soil mechanization research and is actively engaged in peer-review and scientific societies related to agricultural engineering. His work advances sustainable agricultural mechanization, soil erosion control, and climate-resilient farming, providing practical solutions for global food security and water management. His vision is to integrate mechanization engineering and soil conservation innovations to benefit society, industry, and scientific research worldwide, while mentoring the next generation of agricultural engineers and researchers.

Profile: Scopus | ORCID | ResearchGate | Sci Profiles | Scilit

Featured Publications

1. Salem, A. E., Shang, S., Wang, D., Zhang, G., Wang, H., Abdeen, M. A., & Shehabeldeen, T. A. (2026). Developing an adequate DEM model to simulate soil-tool interactions under sticky soil conditions. Soil and Tillage Research, 256, 106893.

2. Salem, A. E., Wang, H., Gao, Y., Zha, X., Abdeen, M. A., & Zhang, G. (2021). Effect of biomimetic surface geometry, soil texture, and soil moisture content on the drag force of soil-touching parts. Applied Sciences, 11, 8927–8938.

3. Salem, A. E., Zhang, G. Z., Abdeen, M. A. M., & Wang, H. C. (2022). Optimizing the adhesion of soil-touching parts based on biomimetic concepts using the Taguchi method. International Journal of Agricultural and Biological Engineering, 15(1), 147–154.

4. Salem, A. E., Zhang, G., Wang, H., Salem, H. M., Abdalla, M. A., & Ghazy, A. A. (2023). The effect of integrating a bio-inspired convex structure with a low-surface energy polymer on soil adhesion and friction. Journal of Terramechanics, 109, 93–100.

5. Abdeen, M. A., & Salem, A. E., Zhang, G. (2021). Longitudinal axial flow rice thresher performance optimization using the Taguchi technique. Agriculture, 11, 88.