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Computational Fluid Dynamics Applications in Bio and Biomedical Processes: Biotechnology Applications by Satya Eswari Jujjavarapu, Tukendra Kumar and Sharda Gupta covers emerging areas in novel design and their hydrodynamic properties relevant to bioreactors, environmental system, electrochemical systems, food processing and biomedical engineering. This book uses an interdisciplinary approach to provide a comprehensive prospective simulation modeling and hydrodynamic study in advanced biotechnological process and includes reviews of the most recent state of art in modeling and simulation of flows in biological process, such as CFD. Written by internationally recognized researchers in the field, each chapter provides a strong introductory section that is useful to both readers currently in the field and readers interested in learning more about these areas.
Computational fluid dynamics (CFD) tools play a pivotal role in simulating and analysing diverse biochemical and physical behaviours, optimizing designs, and enhancing efficiency in engineering and scientific applications. The book comprehensively covers all aspects of CFD, showcasing the latest applications in biomedical, biotechnological, and bio-electrochemical engineering. With its wide-ranging applications, this book meets the demand for novel designs and bioprocess optimization, leading to cost reduction and decreased experimental burden. In response to the growing demand for value-added products, this book helps industries must actively seek novel designs to improve production efficiency. Furthermore, the book highlights the game-changing application of CFD in biomedical research, enabling a deeper understanding of complex biological processes, enhancing medical device design, and optimizing drug delivery strategies. As CFD continues to advance, its impact on biomedicine is bound to grow, promising transformative breakthroughs in healthcare and medical technologies. In essence, this book serves as a guiding beacon, empowering researchers to explore new frontiers and foster innovative, sustainable biotechnological advancements that positively impact human health and the well-being of our planet. By harnessing the power of CFD, researchers and industries alike can revolutionize their approach, leading to a more efficient and impactful future.
Computational Fluid Dynamics: Fundamentals and Applications in the Design and Optimization of Various Bioreactors
Introduction
Background
Computational Fluid Dynamics
Numerical Method in CFD
CFD Software and Overview of Modelling
Computational Fluid Dynamics for Design and Optimization of Reactors
Activated Sludge Bioreactors
Fixed-Bed Reactors
Membrane Bioreactors
Trickle-Bed Reactors
Fluidized Bed Bioreactors
Future Prospective
Conclusion
References
CFD Modelling for Optimization of Wastewater Treatment Processes: Towards a Low-Cost Cleaner Future Tool
Introduction
Background
Optimization of Bioprocess in Wastewater Treatment Plants via a CFD
Suspended Growth (Flocculent)
Anaerobic Processes
Disinfection
CFD for Optimization of Wastewater Treatment Plant
Primary Sedimentation
Secondary Sedimentation
Grit Removal
Dissolved Air Flotation
CFD Modelling and Design of Wastewater Treatment Reactor
Large-Scale Flotation Reactor
Membrane Reactors
Activated Sludge Channel Reactor
Continuous Solar-Collector-Reactors
Hydrodynamics and Mass Transfer Simulation for Other Wastewater Reactors
Techno-Economic Analysis
Future Prospective
Conclusion
References
An Overview of Computational Fluid Dynamics in Modelling and Simulation of Microbial Fuel Cells
Introduction
Background
CFD Modelling Strategy for MFC Systems
Assumptions for MFC Modelling
Models for MFC Modelling
Model Simulation in CFD for MFC
Challenges and Future of CFD for MFC Modelling
Computational Complexity and Resource Requirements
CFD Model Validation
Conclusion
References
Computational Fluid Dynamics in Biomedical Engineering
Introduction
Background
Reconstruction of the System
Acquisition of Medical Image
Image Segmentation
Edge Detection
Thresholding-Based Segmentation
Region-Based Segmentation Technique
Deep Learning-Based Segmentation
Mesh Generation
Boundary Condition Generation
Applications of CFD in Biomedical Applications
Cerebral Aneurysm
Respiratory Tract
Microfluidics
Drug Administration
Simulating Microswimmers
CFD in Cardiovascular Applications
Fluid–Structure Interaction to Investigate the Upper Airway of Obstructive Sleep Apnoea (OSA) Patients
Fluid Dynamics in Syringomyelia Cavities
Conclusion
References
Computational Fluid Dynamics in the Human Integumentary Systems
Introduction
Background
Anatomy and Physiology of the Integumentary System
Mathematical Tools for Skin CFD
Diffusion Model
Fluid Flow Model
Case Study
Strain and Stress Study
Diffusion Study
Wound Healing Study
Microneedle Insertion Analysis
Conclusion
References
Role of Computational Fluid Dynamics in Cancer
Introduction
Background
Fluid Mechanics Study of Cancer
Hemodynamics Transport Study of Cancer
Interstitial Fluid Transport Study of Cancer
Diagnosis of Cancer Metastasis
Pharmacokinetics Study
Personalized Treatment for Cancer Study
Case Study of CFD to Evaluate the Effectiveness and Precision of Specific Cancer Treatment Methods
Intra-arterial Chemotherapy
Radioembolization (RE)
Intraperitoneal Chemotherapy
Modelling of Endovascular Chemofilter Device
References
Computational Fluid Dynamics for Modelling and Simulation of Drug Delivery
Introduction
Background
Case Study for Drug Delivery Application in CFD
Respiratory System
Nervous System
Ocular System
Transdermal System
References