Guest Editors
A.Prof. Dr. Hijaz Ahmad
Email: hijaz.ahmad@neu.edu.tr
Affiliation: Near East University, Operational Research Center in Healthcare, Near East Boulevard, PC: 99138 Nicosia/Mersin 10, Turkey
Homepage:
Research Interests: Computational Fluid dynamics
Dr. Sohail Ahmad
Email: sohailkhan1058@gmail.com
Affiliation: Department of Basic Science and Humanities, Muhammad Nawaz Sharif University of Engineering & Technology, Multan 60000, Pakistan
Homepage:
Research Interests: Numerical analysis and fluid mechanics problems
Dr. Wasim Jamshed
Email: wasiktk@hotmail.com
Affiliation: Department of Mathematics, Capital University of Science and Technology (CUST), Islamabad, 44000, Pakistan
Homepage:
Research Interests: Nanofluids, hybrid nanofluids, non-Newtonian fluids, chemical reactions effect, numerical treatments of nanofluids flow, porous media, magnetic field and solar energy applications.
Dr. Kashif Ali
Email: kashifali_381@mnsuet.edu.pk
Affiliation: Department of Basic Science and Humanities, Muhammad Nawaz Sharif University of Engineering & Technology, Multan 60000, Pakistan
Homepage:
Research Interests: Solid-state physics, theoretical physics and computational fluid dynamics problems
Summary
The proposed special issue aims to delve into the latest discoveries, innovations, and studies regarding the dynamics, behavior, and properties of dusty flows. It is imperative to explore the fundamental principles that govern these flows in both natural and artificial systems for several reasons. This need especially applies to exploring the practical applications and industrial significance of dusty fluids in fields such as manufacturing and agriculture. This special issue will encompass various methodologies and procedures for measuring and characterizing particulate matter within fluid environments. Discussions will highlight technological advancements and new apparatuses for researching particle morphology, concentration, and size distribution. However, this issue will also assess the environmental impacts of dusty flows, considering their roles in climate change, atmospheric processes, and air quality. To summarize, the purpose of this special issue is to provide a comprehensive overview of the most recent advancements in the research of dusty fluid dynamics.
Contributions are welcome on, but not limited to, the following topics:
Modeling and simulation methods to predict dusty flow behavior
Challenges and innovations in the complex interactions between fluids and particles
Multidisciplinary research addressing the intricate problems associated with dusty fluids
Developments and innovations in monitoring, quantifying, and analyzing dusty fluids
Identifying and addressing gaps in the field of dusty fluids research
Keywords
Dusty Flows; Solid Particles; Computational Fluid Dynamics; Fluid Phase; Dust Phase; Nanoparticles
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