Mr Mohammadamin Mirdarsoltan | Coastal Protection | Best Researcher Award

Mr Mohammadamin Mirdarsoltan | Coastal Protection | Best Researcher Award

PhD candidate , University of MiAMI ,United States 

Dr. Mohammadamin Mirdarsoltany is a dedicated structural engineer with a strong background in materials science and reinforced concrete design. He holds a PhD in Civil Engineering from the University of Miami, where his research focused on the application of Fiber-Reinforced Polymer (FRP) bars in concrete reinforcement, specifically for seawalls. With a proven track record of excellence, Dr. Mirdarsoltany is an active member of several professional engineering organizations, including the American Concrete Institute (ACI) and the American Society of Civil Engineers (ASCE). His passion for advancing sustainable construction techniques is demonstrated through numerous published research papers and contributions to industry standards. Skilled in various engineering software such as SAP2000, ETABS, and ABAQUS, he continues to contribute to the field of structural engineering by enhancing the durability and performance of reinforced concrete structures through innovative materials and techniques.

Profile

Scopus

Google Scholar

Strengths for the Award:

  • Innovative Research Focus: Dr. Mirdarsoltany’s work on sustainable materials like FRP and hybrid composites has direct applications in improving infrastructure resilience against coastal and seismic challenges. His ability to integrate advanced materials science with structural engineering is commendable.
  • Publication Record: His extensive publication record, particularly in high-impact journals, underscores his contribution to the field of civil engineering. He has authored several highly-cited articles related to innovative reinforcement methods for concrete structures.
  • Professional Engagement: Active membership in leading professional organizations such as ACI and ASCE reflects his commitment to the field and continuous professional development.

Areas for Improvement:

  • Wider Industry Impact: While his research is highly relevant, expanding his influence into large-scale industry applications, including collaborations with engineering firms and governmental bodies, could amplify the real-world impact of his work.
  • Interdisciplinary Projects: Pursuing more interdisciplinary research, particularly involving environmental engineers or urban planners, could broaden the scope of his impact on sustainable infrastructure solutions.

 

Education 

Dr. Mohammadamin Mirdarsoltany completed his PhD in Civil Engineering at the University of Miami, Florida, focusing on the effects of Fiber-Reinforced Polymer (FRP) bars for concrete reinforcement, particularly in seawalls. His dissertation was supervised by Prof. Antonio Nanni. He also holds a Master’s degree in Civil Engineering with an emphasis on Earthquake Engineering from Amirkabir University of Technology in Tehran, Iran, where he researched improving the ductility of composite bars through hybridization, under the guidance of Dr. Alireza Rahai and Dr. Farzad Hatami. Dr. Mirdarsoltany’s academic background is complemented by a Bachelor’s degree in Civil Engineering from Islamic Azad University, South Tehran Branch. Throughout his education, he has gained expertise in advanced structural analysis, finite element analysis, concrete material science, seismic design, and sustainable construction. His diverse academic foundation has equipped him to address critical challenges in structural engineering, particularly in concrete durability and reinforcement systems.

Research Focus 

Dr. Mohammadamin Mirdarsoltany’s research focuses on the development and application of advanced reinforcement materials, such as Fiber-Reinforced Polymers (FRP) and hybrid composite bars, for improving the performance of concrete structures. His work aims to enhance the durability, ductility, and sustainability of reinforced concrete, particularly for infrastructure subjected to harsh environmental conditions like seawalls and buildings in seismic zones. His research explores the mechanical properties, corrosion resistance, and seismic performance of various composite materials, including basalt-carbon and basalt-steel hybrid composites. Through experimental investigations and analytical studies, Dr. Mirdarsoltany strives to optimize the use of sustainable materials in construction, contributing to safer, more efficient, and environmentally friendly engineering practices. His interdisciplinary research bridges materials science, structural engineering, and sustainable construction techniques to address real-world challenges in concrete reinforcement and structural performance.

 

Publications 

  1. “Fiber-reinforced polymer (FRP) in concrete: A comprehensive survey” 📚
  2. “Evaluating GFRP bars under axial compression and quantifying load-damage correlation” 🏗️
  3. “A comprehensive review of the effects of different simulated environmental conditions and hybridization processes on the mechanical behavior of different FRP bars” 🌍
  4. “Influence of metakaolin on fresh properties, mechanical properties and corrosion resistance of concrete and its sustainability issues: A review” 🌿
  5. “Investigating tensile behavior of sustainable basalt–carbon, basalt–steel, and basalt–steel-wire hybrid composite bars” 💪
  6. “Experimental Investigation on the Ductility of Concrete Deep Beams Reinforced with Basalt-Carbon and Basalt-Steel Wire Hybrid Composite Bars” 🏢
  7. “Performance Evaluation of CFRP Strengthened Corrosion-Proof Columns” 🏢⚙️

Conclusion

Dr. Mirdarsoltany’s research on sustainable and resilient structural reinforcement materials makes him an excellent candidate for the Best Researcher Award. His work combines innovative material science with real-world engineering challenges, contributing significantly to both academia and industry. His continued focus on coastal protection and seismic resilience has the potential to shape the future of structural engineering, making him a promising leader in his field.

 

Iacopo Vona – Coastal Engineering – Best Researcher Award

Iacopo Vona - Coastal Engineering - Best Researcher Award

National Research Council of Italy Institute of Marine Science - Italy

AUTHOR PROFILE

SCOPUS

COASTAL HYDRODYNAMICS AND PROCESSES

Iacopo Vona is an expert in coastal hydrodynamics, with a focus on understanding and modeling shoreline dynamics and sediment transport. His research includes analyzing coastal processes using numerical modeling and satellite remote sensing, complemented by extensive field work to validate and refine his models.

RESEARCH AND PROFESSIONAL EXPERIENCES

Currently a Post-Doctoral Fellow at the National Research Council's Institute of Marine Science (ISMAR), Iacopo's professional journey includes roles as a Graduate Research Assistant and Laboratory Technician at the University of Maryland's Center for Environmental Science (UMCES). He also worked as a Hydraulic Engineer for 3TI Progetti SPA and completed an internship at ISAC-CNR, focusing on statistical analysis of satellite images.

ACADEMIC AWARDS AND RECOGNITIONS

Iacopo has been recognized for his outstanding contributions to marine and environmental sciences with several awards, including the Clint Waters Scholarship and the Horn Point Lab Student Travel Award. His article on the impact of submerged breakwaters on sediment distribution was selected as an Editor's Choice by the Water journal.

SKILLS AND EXPERTISE

Proficient in programming languages such as MATLAB, R, and Python, Iacopo excels in high-performance computing and various flood and hydraulic software tools like Delft3D and SWAN. His expertise extends to topographic surveys, hydrodynamic instruments, structural analysis software, and remote sensing technologies.

PUBLICATIONS AND RESEARCH CONTRIBUTIONS

Iacopo has authored numerous peer-reviewed journal publications, including studies on the hydrodynamics of artificial and oyster-populated breakwaters, the integration of oysters on submerged breakwaters, and sediment exchange in created saltmarshes. His research provides valuable insights into adaptive shoreline protection and coastal vulnerability assessment.

ACADEMIC AND MENTORING EXPERIENCES

As a guest editor for the Journal of Visualized Experiments and a reviewer for multiple research journals, Iacopo actively contributes to the academic community. He has supervised and taught undergraduate students in numerical models, field-work methods, and data analysis, fostering the next generation of scientists through programs like the Maryland Sea Grant REU.

INTERNATIONAL COLLABORATIONS

Iacopo's work has taken him across the globe, including collaborations with international students at the Horn Point Laboratory and fellowships in Italy and the United States. His international experience and multilingual skills enhance his ability to work in diverse research environments and contribute to global scientific advancements.

NOTABLE PUBLICATION

Hydrodynamics of Artificial and Oyster-Populated Breakwaters: A Laboratory Study with Scaled-Down Oyster Castles Under Unidirectional Flow.

Authors: Vona, I., Tseng, C.-Y., Tinoco, R.O., Nardin, W.
Year: 2024
Journal: Journal of Environmental Management

Oysters' Integration on Submerged Breakwaters Offers New Adaptive Shoreline Protection in Low-Energy Environments in the Face of Sea Level Rise.

Authors: Vona, I., Nardin, W.
Year: 2023
Journal: Journal of Geophysical Research: Earth Surface

Experimental Design and Field Deployment of an Artificial Bio-Reef Produced by Mollusk Shell Recycling.

Authors: Corbau, C., Nardin, W., Vaccaro, C., Vona, I., Simeoni, U.
Year: 2023
Journal: Marine Environmental Research

Seasonality and Characterization Mapping of Restored Tidal Marsh by NDVI Imageries Coupling UAVs and Multispectral Camera.

Authors: Nardin, W., Taddia, Y., Quitadamo, M., Staver, L.W., Pellegrinelli, A.
Year: 2021
Journal: Remote Sensing

Sediment Exchange Between the Created Saltmarshes of Living Shorelines and Adjacent Submersed Aquatic Vegetation in the Chesapeake Bay.

Authors: Vona, I., Palinkas, C.M., Nardin, W.
Year: 2021
Journal: Frontiers in Marine Science