Hybrid Nanofluids for Application in the Chemical and Petroleum Industry

1st Edition - September 25, 2024
Imprint: Elsevier
Editors: Shriram S. Sonawane, Hussein A Mohammed
Language: English
Paperback ISBN:
9 7 8 - 0 - 4 4 3 - 2 1 4 5 1 - 6
eBook ISBN:
9 7 8 - 0 - 4 4 3 - 2 1 4 5 2 - 3

Hybrid Nanofluids for Application in the Chemical and Petroleum Industry covers the basics of hybrid nanofluids in heat transfer processes as well as their applications in the ch… Read more

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Hybrid Nanofluids for Application in the Chemical and Petroleum Industry covers the basics of hybrid nanofluids in heat transfer processes as well as their applications in the chemical and petroleum industries. This book begins with a detailed overview of the thermo-physical and optical properties of hybrid nanofluids, before covering the application of the heat-transfer enhancement in heat exchangers, CO2 absorption/regeneration, and metal extraction/stripping operations. It also covers the applications of hybrid nanofluids and heat transfer enhancement in the petroleum industry, as well as recent advances and challenges involved in nanofluid applications in industrial processes. The detailed interrelation of nanofluids’ properties and performance enhancement mechanisms in the various chemical and petroleum processes are also reviewed.

This book is written for advanced undergraduate and postgraduate students and researchers in the fields of nanotechnology and chemical engineering, executive engineers, government workers in manufacturing, chemical and biomedical industry, or R&D laboratories working on nanotechnology and chemical processes.

Title of Book
Cover image
Title page
Table of Contents
Copyright
Dedication
List of contributors
Foreword
Chapter one. Current overview of applications of the hybrid nanofluids
Abstract
1.1 Introduction
1.2 Advantages of hybrid nanofluids
1.3 Disadvantages of nanofluids
1.4 Preparation of nanofluid
1.5 Overview of hybrid nanofluids
1.6 Thermophysical properties of hybrid nanofluids
1.7 Stability of nanofluids
1.8 Applications of nanofluids
1.9 Conclusion
References
Chapter two. Thermophysical and optical properties of the hybrid nanofluids
Abstract
2.1 Introduction
2.2 Measurement of thermal conductivity of nanofluids
2.3 Measurement techniques
2.4 Conclusions and future remarks
References
Further reading
Chapter three. Overview of mass transfer enhancement
Abstract
3.1 Introduction
3.2 CO2 absorption experimental set-up
3.3 Recent advances in the CO2 absorption process using nanofluids
3.4 Mechanisms describing the improved CO2 absorption in nanofluids
3.5 Mechanisms for improving CO2 regeneration performance
3.6 Parameters affecting the efficiency of nanofluids
3.7 Conclusion
References
Chapter four. Overview of the heat transfer enhancement mechanism using nanofluids
Abstract
4.1 Introduction
4.2 Evaluation of nanofluid stability
4.3 Thermophysical properties of the hybrid nanofluid
4.4 Advancements in nanofluid
4.5 Factor affecting the hybrid nanofluid
4.6 Applications of hybrid nanofluid
4.7 Challenges of nanofluids
4.8 Preparation of nanofluids
4.9 Challenges of nanofluids
4.10 Stability mechanisms of nanofluids
4.11 Characterization of the nanofluid stability
4.12 Enhancement methods of nanofluid stability
4.13 Chemical treatment methods
4.14 Applications of nanofluids
4.15 Nanofluid in solar energy
4.16 Applications of nanofluids in solar energy
4.17 Challenges in nanofluids
References
Chapter five. Numerical and experimental investigations of nanofluids application solar collectors for the energy optimization
Abstract
5.1 Introduction
5.2 Nanotechnology and effective solar energy use
5.3 Flat plate solar collector
5.4 Effect of type of nanofluids on solar collection efficiency
5.5 Recent advances in the application of nanofluids for solar collector
5.6 Conclusion
References
Chapter six. Applications of nanofluids in boiling operation for enhancement of the critical heat flux
Abstract
6.1 Introduction
6.2 Effect of bubble dynamics
6.3 Heat transfer increment mechanism
6.4 Challenges and future perspectives
6.5 Conclusion
References
Chapter seven. Numerical and experimental investigations of nanofluid application in the car radiator operation
Abstract
7.1 Introduction
7.2 Thermo-hydraulic performance of nanofluids in radiators
7.3 Challenges associated with using nanofluids in car radiators
7.4 Conclusion and future remarks
References
Chapter eight. Mathematical and numerical investigations of hybrid nanofluid applications in the industrial heat exchangers
Abstract
8.1 Introduction
8.2 Tubular heat exchanger
8.3 Human health and environmental hazards
8.4 Challenges to reach industries
8.5 Conclusion
References
Chapter nine. Experimental investigation of industrial hybrid nanofluids in heat exchangers
Abstract
9.1 Introduction
9.2 Principles
9.3 Current applications of hybrid nanofluids in industrial heat exchangers
9.4 Applications of hybrid nanofluids to tubular heat exchangers
9.5 Conclusions and future remarks
References
Chapter ten. Applications of the hybrid nanofluids in the CO2 absorption and desorption processes
Abstract
10.1 Introduction
10.2 Characterization of nanoparticle
10.3 Absorption mechanism
10.4 Parameters that affect the CO2 capture efficiency
10.5 Conclusion
10.6 Future scope
References
Chapter eleven. Applications of the hybrid nanofluids in the extraction processes
Abstract
11.1 Introduction
11.2 Application of hybrid nanofluids in metal extraction
11.3 Conclusion
References
Chapter twelve. Application of hybrid nanofluids in proton exchange membrane fuel cell
Abstract
12.1 Introduction
12.2 Method of preparation of the HNFs
12.3 Thermophysical properties of NFs
12.4 Advantages of HNF
12.5 Challenges of nanofluid
12.6 Conclusions
Nomenclature
References
Chapter thirteen. Challenges of nanofluid's applications in the chemical engineering industry
Abstract
13.1 Introduction
13.2 Challenges in the nanofluid application
13.3 Future scope
References
Chapter fourteen. Applications of nanofluids for the tribological applications in a petroleum industry
Abstract
Nomenclature
14.1 Introduction
14.2 Nanoparticle lubrication mechanisms in nanofluids
14.3 Nanofluids of various types as lubricant additives
14.4 The challenges of nanofluids in lubrication
14.5 Conclusion
References
Further reading
Chapter fifteen. Applications of nanofluids in drilling fluids
Abstract
Nomenclature
15.1 Introduction
15.2 Application of nanofluids in the oil and gas exploration
15.3 Application of nanofluids as the drilling fluid
15.4 Practical real-life implementations of nanofluids as drilling fluid
15.5 Nanofluid challenges in drilling fluid application
15.6 Summary
References
Chapter sixteen. Application of nanofluids for the improved oil mobility
Abstract
16.1 Introduction
16.2 Advancements of nanofluids in enhancing oil mobility
16.3 Principle
16.4 Interfacial tension reduction
16.5 Mobility control and reservoir conformance control
16.6 Principle
16.7 Recent studies
16.8 Wettability alteration
16.9 Principle
16.10 Recent studies
16.11 Modification of fluid viscosity
16.12 Principle
16.13 Recent studies
16.14 Future studies
16.15 Conclusion
References
Chapter seventeen. Application of hybrid nanofluids in enhanced oil recovery
Abstract
17.1 Introduction
17.2 Synthesis method
17.3 Types of hybrid nanofluids
17.4 Properties of hybrid nanofluids
17.5 Field trial of nanofluids
17.6 Benefit of hybrid nanofluids for environmental sustainability
17.7 Conclusion and future prospects
References
Chapter eighteen. Investigation of the effects of nanofluids on the hole cleaning efficiency of water-based drilling mud
Abstract
18.1 Introduction
18.2 Principle of smart drilling fluids
18.3 The efficiency of nanofluid-based drilling fluids in borehole cleaning
18.4 Challenges for using nanofluids in the field of oil and gas industry
18.5 Summary
References
Index

Shriram S. Sonawane

Dr. Shriram S Sonawane is a Professor of Chemical Engineering at Visvesvaraya National Institute of Technology [VNIT], Nagpur. Dr. Sonawane's research area includes a) Polymer Nano-composites b) Nanofluids c) Nano-Separation Technology d) Process Modelling and Simulation. He has 6 patents to his credit. Dr Sonawane recognized amongst 2% scientist declared by AD scientific rankings. He has published more than 150 research papers in various Nationals and Internationals Journals of repute. He also Nominated for the prestigious “Shanti Swaroop Bhatnagar Award”. He has edited many books and published more than 50 book chapters in various reputed publisher's books. He also served as an Expert in various reputed institutions and organizations. He has received the “Fellow Award” from the Prestigious Maharashtra Academy of Science." He is a Fellow Member of the Indian Institute of Chemical Engineers (IIChE). He is an also “Fellow Member” of the Indian water works Association. He was Guest Editor for Sustainable Energy Technologies and Assessment (ELSEVIER). He is the “Executive Guest Editor” of the Current Pharmaceutical Bio-Technology Journal. He is also serving in the Editorial body of “Research Journal of Chemistry and Environment." He also served in the Editorial body of “World Research Journal." He has received more than 3200 citations. He has also presented more than 150 research papers in various Nationals and Internationals conferences. He served as Ph.D. and M. Tech. Examiner to various NITs, Universities and colleges. He has been invited for an expert talk from countries like Malaysia, Thailand Singapore, and Belgium, etc. He has guided 9 Ph.D. students. Dr. Sonawane has completed various international and national projects till the date.

Affiliations and expertise

Professor, Chemical Engineering, Visvesvaraya National Institute of Technology Nagpur, India

Hussein A Mohammed

Dr. Hussein A. Mohammed holds BSc, MSc and PhD in Mechanical Engineering with more than 15 years of academic experience. His research interests are on a wide range of interdisciplinary issues (numerically and experimentally) in aerodynamics, Instrumentation development, and testing, fundamentals and advanced heat transfer aspects, fluid flow, solar energy, nanotechnology (nanofluids), MEMS and combustion engineering and science. He has published more than 100 refereed papers in prestigious peer-reviewed international journals with high impact factor. He is an editorial board member for Helyion Journal published by Elsevier. He has also been a regular scientific reviewer for international conferences and for more than 90 international journals published by various international and renowned publishers such as Elsevier, Springer, Taylor and Francis, Wiley, Inderscience, IEEE Transactions, American Institute of Physics (AIP), Cambridge University Press, AIAA, Begell House, ASME Transactions, Tech Science Press.

Affiliations and expertise

BSc, MSc and PhD in Mechanical Engineering with more than 15 years of academic experience.

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Hybrid Nanofluids for Application in the Chemical and Petroleum Industry

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