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Introduction

We extend an invitation to researchers to contribute articles delving into the computational aspects of nanofluid dynamics within defined themes. Authors are encouraged to reference the significant contributions showcased in our previous special issue, "Entropy generation due to nanofluid flow in porous media, micro/mini channels, and cavities." 

While not obligatory, we appreciate discussions related to the insights gained from papers featured in this seminal issue. This special edition aligns with our ongoing commitment to regularly present cutting-edge research, fostering a vibrant community devoted to advancing excellence in nanofluid dynamics.

Emphasising computational insights, this interdisciplinary collection encompasses a diverse range of topics within energy harvesting, thermal management, and biomedical applications. 

Authors are encouraged to harness advanced computational approaches within the following themes:

Advanced Flow Phenomena: Investigate complex flow phenomena in nanofluids using numerical methods and computational techniques. Explore insights into fluid behaviour under various conditions.

Enhanced Heat Transfer: Examine methods for enhancing heat transfer in nanofluid-filled systems, emphasising computational analyses and optimization techniques to improve thermal management.

Biomedical Nanofluidics: Explore applications of nanofluids in biomedical contexts, including drug delivery, hyperthermia therapy, and simulations of nanofluid flow in biological conduits. Utilise computational tools for insights.

Computational Methods in Nanofluid Dynamics: Present advancements in numerical simulations, AI, and machine learning applied to nanofluid dynamics. Discuss the role of computational methods in understanding and predicting nanofluid behaviour, including entropy generation and irreversibility.

Optimisation in Nanofluid Systems: Investigate optimisation strategies in nanofluid systems, focusing on computational approaches to minimise inefficiencies and improve overall system performance.

Multi-Physics Simulations: Explore the coupling of multiple physics phenomena in nanofluids, employing computational models to understand the interplay between different factors.

Applications in Energy Harvesting: Discuss the role of nanofluids in energy harvesting applications, including thermal-to-electric conversion. Utilise computational insights to optimise energy extraction.

 

Guest Editor

Dr Rajesh Ransing, 
Swansea University, UK, 
[email protected]

 

Submissions Information

Submissions are made using ScholarOne Manuscripts. Registration and access are available by clicking the button below.  

Submit your paper here!

Author guidelines must be strictly followed.
Authors should select (from the drop-down menu) the special issue title at the appropriate step in the submission process, i.e. in response to “Please select the issue you are submitting to”. 
Submitted articles must not have been previously published, nor should they be under consideration for publication anywhere else, while under review for this journal.

 

Key Deadlines

Opening date for manuscripts submissions: 15 February 2024
Closing date for manuscripts submission: 30 September 2024