Dr. Ehsan Aminvash | Hydraulic structures engineering | Best Researcher Award

Education 

Ehsan Aminvash’s educational journey reflects his commitment to mastering the field of hydraulic structures engineering. He earned his Bachelor’s degree in Civil Engineering from Islamic Azad University, Bonab, in 2017, where he excelled with a score of 17.22/20. His Master’s degree in Civil Engineering with a specialization in Water and Hydraulic Structures was completed at the University of Maragheh in 2021, achieving an impressive average of 18.24/20. Ehsan’s thesis on the hysteresis phenomenon in supercritical flow near hydraulic structures earned him recognition. Currently, he is pursuing a Ph.D. at the University of Tabriz, where he is conducting research on the experimental and numerical investigation of the effects of baffle geometry and inclined drops equipped with screens on hydraulic performance. His academic background and focus on advanced hydraulic research have made him a rising star in the hydraulic engineering community.

Experience 

Ehsan Aminvash has accumulated diverse professional experience in the field of hydraulic structures and civil engineering. His work includes soil mechanics and concrete laboratory testing, mapping, and preparing sketches for various projects. Ehsan has also worked as a teaching assistant for a Master’s level course at the University of Maragheh, where he collaborated with renowned professors on advanced hydraulics, erosion, and sedimentation engineering. He has gained valuable teaching experience by organizing workshops and lectures at Maragheh Girls’ Technical and Vocational College, focusing on fluid mechanics, strength of materials, and hydraulic structures. Additionally, Ehsan has contributed to several national and international conferences, presenting experimental and numerical investigations on energy dissipation, hysteresis phenomena, and hydraulic performance. This hands-on experience has equipped him with a deep understanding of both theoretical and practical aspects of hydraulic engineering, enhancing his research and teaching skills.

Awards and Honors 

Ehsan Aminvash has earned several prestigious awards and honors during his academic career, recognizing his excellence in both research and academic performance. In 2023, he received an award from the Iranian Hydraulic Association for his Master’s thesis, which was ranked among the top three theses. He was also selected as a member of the brilliant talent group at the University of Maragheh in 2022. Ehsan was honored as the top student researcher at the University of Maragheh in 2021 and achieved the first scientific and educational rank in Civil Engineering—Water and Hydraulic Structures with a remarkable average score of 18.24/20 during his Master’s studies. Furthermore, he earned the first rank in Civil Engineering at Islamic Azad University, Bonab, in 2017. These accomplishments demonstrate Ehsan’s dedication to excellence and his commitment to advancing the field of hydraulic structures engineering.

Research Focus 

Ehsan Aminvash’s research focuses on hydraulic structures, specifically the numerical and experimental investigation of water flow and energy dissipation in various hydraulic systems. His work delves into understanding the hysteresis phenomenon in supercritical flow, investigating the effects of baffle geometry and inclined drops equipped with screens on hydraulic performance, and exploring the impact of macro-roughness elements on the flow regime. Ehsan’s research also addresses the optimization of energy dissipation in hydraulic systems, crucial for sustainable water management. Additionally, he works on river engineering, the development of water transmission and distribution structures, and the use of nano materials in hydraulic systems. His expertise in advanced simulation techniques, such as Flow 3D and statistical software, allows him to propose innovative solutions for improving the efficiency and sustainability of water infrastructure. Through his research, Ehsan aims to contribute to the development of more efficient, resilient, and environmentally friendly hydraulic structures worldwide.