Mina Khosravi Researcher at Iran University of science and technology, Iran
Mina Khosravi, born on May 1, 1995, in Tehran, Iran, is a dedicated researcher specializing in water resources engineering. As a Ph.D. candidate at Iran University of Science and Technology, she explores sustainable strategies for the conjunctive use of surface and groundwater under hydrologic uncertainties. Her contributions to this field are recognized through high-ranking academic achievements and impactful publications in international journals. Mina is proficient in advanced modeling tools like GMS, MATLAB, and GIS, alongside artificial neural networks, enhancing her ability to design innovative solutions for water resource challenges.
PROFESSIONAL PROFILE
Β Suitable for Women Researcher AwardΒ
Dr. Mina Khosravi is a strong candidate for a Research for Women Researcher Award, demonstrating a highly impressive academic and research trajectory in Civil Engineering, with a focus on Water Resources Engineering. Her work, characterized by innovation and sustainability, directly addresses global challenges in water resource management, making her achievements both impactful and deserving of recognition. Below is a summary of her suitability for such an award
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Education
Mina Khosravi holds a B.Sc. in Civil Engineering from the University of Kashan, an M.Sc. in Water Resources Engineering from Iran University of Science and Technology (graduating top of her class in 2019), and is currently pursuing a Ph.D. Her master’s research focused on a cyclic storage approach to sustainable water management, and her doctoral work expands on designing reliability-based conjunctive operation policies. With consistent academic excellence, Mina has excelled across her educational journey, earning top ranks and distinctions.
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Β Β Professional Experience
Mina Khosravi has served as a teaching assistant for advanced groundwater engineering at Iran University of Science and Technology since 2018, contributing to course delivery and curriculum enhancement. Her professional expertise includes designing and optimizing water resource systems using tools like WEAP and ANN. She also collaborates on multidisciplinary research, particularly on groundwater hydraulics and climate resilience strategies, contributing to national and international academic discourse through her innovative approaches.
Β Awards and Recognitions
- Academic Excellence Awards: Achieved top ranks in her B.Sc. and M.Sc. programs. π
- Research Grants: Secured funding for projects on sustainable groundwater management. π‘
- Publication Distinctions: Recognized for impactful journal articles in hydrology and resource management. π
- Conference Honors: Presented at prestigious forums addressing climate-adaptive water management. π
- National Rankings: Consistently ranked among top students in her academic career. π
- Groundwater Modeling: Proficient in GMS and advanced hydrological tools. π₯οΈ
- Optimization Techniques: Expertise in multi-objective design and cyclic storage systems. βοΈ
- Climate Adaptation: Developing strategies for resilience under hydrologic uncertainties. π§οΈ
- Software Proficiency: Skilled in MATLAB, WEAP, and ENVI for water resource simulation. π»
- Technical Writing: Strong track record of high-impact journal publications and technical reports. βοΈ
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PUBLICATION TOP NOTES
“Multi-Step-Ahead Rainfall-Runoff Modeling: Decision Tree-Based Clustering for Hybrid Wavelet Neural-Networks Modeling”
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- Authors: Molajou, A.; Nourani, V.; Tajbakhsh, A.D.; Variani, H.A.; Khosravi, M.
- Journal: Water Resources Management
- Year: 2024
“A new paradigm of water, food, and energy nexus”
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- Authors: Molajou, A.; Afshar, A.; Khosravi, M.; Vahabzadeh, M.; Variani, H.A.
- Journal: Environmental Science and Pollution Research
- Year: 2023
“Joint Operation of Surface and Groundwater to Improve Sustainability Index as Irrigation System Performance: Cyclic Storage and Standard Conjunctive Use Strategies”
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- Authors: Khosravi, M.; Afshar, A.; Molajou, A.; Solis, S.S.
- Journal: Journal of Water Resources Planning and Management
- Year: 2022
“Decision Tree-Based Conditional Operation Rules for Optimal Conjunctive Use of Surface and Groundwater”
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- Authors: Khosravi, M.; Afshar, A.; Molajou, A.
- Journal: Water Resources Management
- Year: 2022
“Assessing Adaptability of Cyclic and Non-Cyclic Approach to Conjunctive Use of Groundwater and Surface Water for Sustainable Management Plans under Climate Change”
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- Authors: Afshar, A.; Khosravi, M.; Molajou, A.
- Journal: Water Resources Management
- Year: 2021
“Correction to: Optimal Design and Feature Selection by Genetic Algorithm for Emotional Artificial Neural Network (EANN) in Rainfall-Runoff Modeling”
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- Authors: Molajou, A.; Nourani, V.; Afshar, A.; Khosravi, M.; Brysiewicz, A.
- Journal: Water Resources Management
- Year: 2021
“Optimal Design and Feature Selection by Genetic Algorithm for Emotional Artificial Neural Network (EANN) in Rainfall-Runoff Modeling”
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- Authors: Molajou, A.; Nourani, V.; Afshar, A.; Khosravi, M.; Brysiewicz, A.
- Journal: Water Resources Management
- Year: 2021
“Reliability-based multi-objective optimum design of nonlinear conjunctive use problem; cyclic storage system approach”
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- Authors: Afshar, A.; Khosravi, M.; Ostadrahimi, L.; Afshar, A.
- Journal: Journal of Hydrology
- Year: 2020