Sirjan University of technology - Iran
Author Profile
ORCID
GOOGLE SCHOLAR
Summary
Hanie Abbaslou is a dedicated academic and researcher whose work bridges multiple disciplines including soil sciences, environmental engineering, energy systems, and artificial intelligence. her dual ph.d. qualifications and extensive academic journey reflect a passion for addressing complex environmental challenges through innovative solutions. her research focuses on topics such as environmental accounting, carbon capture and storage, bioenergy, geochemistry, and the circular economy. notably, she integrates modern technologies such as power electronics into her investigations, enhancing the effectiveness of energy and environmental systems. as an associate professor, she also contributes significantly to teaching, mentoring, and guiding future engineers and scientists in sustainable practices.
Early academic pursuits
Hanie Abbaslou began her academic journey in the field of soil sciences, completing her bachelor's degree at shiraz university, iran, in 2007. her passion for environmental and geochemical studies led her to pursue a master’s degree in the same field at the same institution, graduating in 2010. demonstrating a consistent dedication to expanding her knowledge base, she obtained her first ph.d. in soil sciences from Circular Economy shiraz university in 2014. further broadening her multidisciplinary expertise, she earned a second master’s degree in artificial intelligence from shahrood university in 2024 and is currently pursuing a second ph.d. in energy systems at the university of tehran, expected in 2025. this diverse academic background uniquely positions her at the intersection of environmental science, energy systems, and power electronics.
Professional endeavors
As an associate professor in the department of civil & environmental engineering at sirjan university of technology, hanie abbaslou has committed herself to both teaching and research excellence. her professional journey reflects a blend of academic rigor and industrial relevance, with a clear focus on emerging technologies such as carbon capture, bioenergy solutions, and circular economy applications. her role Circular Economy also involves mentoring young researchers and students in the fields of geochemistry and environmental engineering, while integrating modern tools including artificial intelligence and power electronics into her curriculum and research projects.
Contributions and research focus
Abbaslou's contributions extend across several crucial domains such as environmental accounting, energy-environment interactions, and problematic soil management. her research emphasizes the development and application of nano-clays, advanced clays, and sustainable energy solutions. her work on carbon capture and storage reflects a keen interest in mitigating environmental degradation while promoting renewable energy technologies. increasingly, her investigations incorporate artificial intelligence and power electronics to optimize environmental Circular Economy processes and energy systems for practical, scalable applications.
Impact and influence
Through her multidisciplinary approach combining soil sciences, energy systems, and circular economic models, hanie abbaslou has established herself as an influential figure in the academic community. her integration of power electronics into environmental engineering practices has opened new pathways for sustainable energy management. her efforts in bridging geochemistry with Circular Economy bioenergy and carbon technologies have informed both scientific discourse and practical implementations in environmental preservation and resource optimization.
Academic cites
Hanie Abbaslou maintains active academic profiles on platforms such as google scholars, researchgate, and linkedin, where her research outputs are widely cited by peers in soil science, environmental engineering, and energy systems. her scholarly works not only contribute to theoretical advancements but also offer valuable insights for industrial applications in fields like bioenergy production Circular Economy, problematic soil stabilization, and power electronics for environmental monitoring systems.
Legacy and future contributions
Looking ahead, hanie abbaslou envisions expanding her research in environmental accounting and circular economic strategies while leveraging the transformative potential of artificial intelligence and power electronics. her future contributions are expected to drive innovations in carbon capture methods and bioenergy technologies that can respond to pressing global environmental challenges. by Circular Economy fostering cross-disciplinary collaborations and mentoring the next generation of engineers and scientists, she aims to leave a lasting legacy in the fields of environmental sustainability and energy systems.
Notable Publications
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Title: Synthesis, characterization and evaluation of biochar from agricultural waste biomass for use in building materials
Authors: Z.A. Zeidabadi, S. Bakhtiari, H. Abbaslou, A.R. Ghanizadeh
Journal: Construction and Building Materials
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Title: Modeling of bentonite/sepiolite plastic concrete compressive strength using artificial neural network and support vector machine
Authors: A.R. Ghanizadeh, H. Abbaslou, A.T. Amlashi, P. Alidoust
Journal: Frontiers of Structural and Civil Engineering
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Title: The compatibility of bentonite/sepiolite plastic concrete cut-off wall material
Authors: H. Abbaslou, A.R. Ghanizadeh, A.T. Amlashi
Journal: Construction and Building Materials
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Title: Effect of cations and anions on flocculation of dispersive clayey soils
Authors: H. Abbaslou, H. Hadifard, A.R. Ghanizadeh
Journal: Heliyon
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Title: Trace element concentrations and background values in the arid soils of Hormozgan Province of southern Iran
Authors: H. Abbaslou, F. Martin, A. Abtahi, F. Moore
Journal: Archives of Agronomy and Soil Science
Conclusion
Through her diverse expertise and forward-thinking approach, hanie abbaslou has become a respected figure in the academic and scientific community. her ability to combine traditional environmental studies with emerging technologies like artificial intelligence and power electronics has set her apart as a leader in her field. moving forward, her contributions are expected to shape sustainable energy solutions and environmental strategies that address both local and global challenges. her work will likely continue to influence advancements in power electronics applications within energy systems and environmental monitoring, ensuring lasting impact and relevance in the evolving landscape of civil and environmental engineering.