Fractional Modeling of Fluid Flow and Transport Phenomena

Fractional Modeling of Fluid Flow and Transport Phenomena by Mohamed F. El-Amin offers a compelling, modern approach to modeling complex flow and transport in porous and heterogeneous media. If you work with anomalous diffusion, non-local dynamics, or fractional calculus applied to engineering problems, this book immediately draws you in with clear motivation and practical relevance.

Inside, the author translates advanced mathematical ideas—fractional derivatives, fractional partial differential equations, and memory effects—into approachable theory and modeling strategies. Detailed chapters connect foundational concepts to real-world challenges: groundwater contamination, enhanced oil recovery, and subsurface transport processes. Both analytical insights and robust numerical techniques are presented, providing readers with tools to build and validate fractional models for realistic systems.

This text is tailored for graduate students, researchers, and practicing engineers seeking to deepen their expertise in non-classical transport modeling. It bridges pure mathematics and applied engineering, helping readers understand when fractional models outperform classical approaches and how to implement them efficiently. Global in scope, the book serves professionals across North America, Europe, the Middle East, and Asia looking to advance projects in hydrogeology, petroleum engineering, and environmental remediation.

Well-structured and written in a professional yet engaging tone, Mohamed F. El-Amin’s work is both a scholarly reference and a practical guide. Add Fractional Modeling of Fluid Flow and Transport Phenomena to your collection to master contemporary techniques for modeling complex transport processes and to stay at the forefront of applied fractional calculus.

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