We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
Numerical Heat Transfer and Fluid Flow: New Advances
Summary
This editorial introduces a special issue presenting new research on numerical modeling of heat transfer and fluid flow in engineering systems. No primary microplastics research is included in this entry.
This Special Issue, titled ‘Numerical Heat Transfer and Fluid Flow 2022’, presents articles addressed to Energies and is a continuation of the 2021 edition [...]
Sign in to start a discussion.
More Papers Like This
Investigation of Thermo-Hydraulics in a Lid-Driven Square Cavity with a Heated Hemispherical Obstacle at the Bottom
This paper is not about microplastics; it uses computational fluid dynamics (ANSYS Fluent) to model heat transfer and airflow in a lid-driven square cavity with a heated obstacle — a pure fluid mechanics and thermal engineering study.
Numerical Study of Microplastic Dispersal in Simulated Coastal Waters Using CFD Approach
Researchers used CFD numerical simulations to model microplastic dispersal in simulated coastal waters, investigating how particle type, size, shape, flow velocity, and temperature affect the transport and distribution patterns of PET, PU, and polypropylene microplastics.
Effect of Microplastics on the Flow-Through Electro-Peroxone Process: A Computational Fluid Dynamics Simulation
Researchers used computational fluid dynamics simulations to examine how microplastics affect mass transfer in a flow-through electro-peroxone advanced oxidation process, finding that microplastic presence alters fluid dynamics and contaminant removal efficiency in ways that static experimental measurements cannot easily capture.
A numerical model to simulate the transient frictional viscoelastic sliding contact
This paper develops a numerical model for transient sliding contact between viscoelastic surfaces, accounting for friction and partial slip. It is a mechanical engineering study with no connection to microplastics and is a false positive for microplastic relevance.
Unlocking the potential of computational fluid dynamics in Nigerian polymer research: current trends and future directions
This review examines the underutilization of computational fluid dynamics (CFD) in Nigerian polymer research and argues for broader adoption to address challenges such as plastic waste management, material degradation, and property enhancement. The authors identify prospective opportunities for CFD integration in the Nigerian research context to foster innovation and improve cost-efficiency in polymer science.