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Advanced Materials-Based Fluids for Thermal Systems

Advanced Materials-Based Fluids for Thermal Systems
Author: Hafiz Muhammad Ali
Publisher: Elsevier
Total Pages: 326
Release: 2024-01-26
Genre: Science
ISBN: 0443215766
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Advanced Materials-Based Fluids for Thermal Systems focuses on new advanced materials called nanofluids that can be used to maximize heat transfer rates by adding nanoparticles (nanocomposites) into conventional heat transfer fluids. This comprehensive resource covers fundamentals, brief history, definitions, literature review, an introduction to thermophysical properties, and heat transfer characteristics with mathematical models, techniques, performance-affecting factors, applications, and challenges of hybrid nanofluids. The book includes thermal characteristics, measurement, design, and applications of nanoparticles, as well as up-to-date advances in thermal engineering. Sections cover basics then advance to major topics with mathematical models, schematic diagrams, and summaries of experimental work of different researchers. The book also summarizes previous research and contemporary advances on nanofluids worldwide and introduces new techniques, resolving existing problems, and includes tactics on the implementation in practical applications.

Advanced Materials-Based Fluids for Thermal Systems

Advanced Materials-Based Fluids for Thermal Systems
Author: Hafiz Muhammad Ali
Publisher: Elsevier
Total Pages: 360
Release: 2024-01-18
Genre: Technology & Engineering
ISBN: 0443215774
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Approx.326 pages Summarizes heat transfer characteristics of nanofluids Addresses factors that affect the properties of heat transfer Includes applications and challenges of commercialization

Materials for Advanced Heat Transfer Systems

Materials for Advanced Heat Transfer Systems
Author: S. J. Vijay
Publisher: Woodhead Publishing
Total Pages: 358
Release: 2022-11-26
Genre: Science
ISBN: 0323904998
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Materials for Advanced Heat Transfer Systems presents the latest research and technologies developed for high-performance materials in heat transfer and cooling. The book compiles sought after research academics and industry experts need to adopt to solve common problems in critical areas of heat transfer and cooling to help advance the field further. A variety of methodologies are included to synthesize the material used, along with the correct procedures to follow to ensure appropriate and effective use. Various case studies are presented to help the reader further understand the benefits and challenges of the materials discussed. Researchers, academics, students and engineers working on heat transfer systems will benefit from this interdisciplinary and applications-focused reference and be guided through various methodologies to make informed decisions based on the latest research and technologies available. Presents current and futuristic materials that are being synthesized or used for improving heat transfer mechanisms of a system Applies the technologies, models and methods to a variety of applications, including power generation, aerospace, electronics and automobiles Includes recent case studies which exemplify the concepts and technologies analyzed

Advanced Materials based Thermally Enhanced Phase Change Materials

Advanced Materials based Thermally Enhanced Phase Change Materials
Author: Hafiz Muhammad Ali
Publisher: Elsevier
Total Pages: 392
Release: 2024-04-01
Genre: Science
ISBN: 0443215758
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Advanced Materials-based Thermally Enhanced Phase Change Materials: Fundamentals and Applications focuses on the use of advanced materials to enhance the thermal characteristics of phase change materials used to maximize heat transfer rate and thermal storage capability of PCMs. This book covers the various aspects of PCMs through characteristics and preparation to heat transfer enhancement with emphasis on prominent applications. This book will progress from cover brief history, literature review, definitions, recent advances, preparation techniques, thermophysical properties and heat transfer characteristics with mathematical models, performance-affecting factors, and applications and challenges of PCMs in manufacturing. A powerful tool for researchers and energy engineers, Advanced Materials-based Thermally Enhanced Phase Change Materials: Fundamentals and Applications offers cutting-edge materials advances, analysis and applications of phase change materials in manufacturing. Provides an in-depth explanation of phase change materials (PCMs), heat transfer, and thermal characteristics and applications Covers applications and challenges for commercialization Explores advanced materials such as nanoparticles, graphene, carbon nanotubes, MXene, metallic foams, and micro fins

Recent Milestone and Technology Development in Sustainable Energy and Advanced Material for Applied Engineering and Industry

Recent Milestone and Technology Development in Sustainable Energy and Advanced Material for Applied Engineering and Industry
Author: Ubaidillah, Ph.D.
Publisher: Nas Media Pustaka
Total Pages: 288
Release: 2023-01-09
Genre: Technology & Engineering
ISBN: 6233517966
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This research applies a numerical study of topology optimization of laminate composite structures by using a Finite Element Method. In this methodology, the plies orientation is excluded from the optimization. The geometry-based optimization from frames of a MALE UAV fuselage structure is presented. The minimum strain energy with an optimization constraint of 20 percent of weight reduction is used in the objective function. Before the primary analysis, benchmark studies of topology optimization without considering orientations from previously published literature are performed. The convergence studies were taken to acquire the appropriate mesh size in the FEM technique, which utilized a four-noded shell element. The FE analysis and optimization results showed that the structural design of the newly frame composite fuselage MALE UAV meets the structural strength requirements specified in the airworthiness standard STANAG 4671.

The Academic Discourse of Mechanical Engineering

The Academic Discourse of Mechanical Engineering
Author: Thi Ngoc Phuong Le
Publisher: John Benjamins Publishing Company
Total Pages: 336
Release: 2023-03-15
Genre: Language Arts & Disciplines
ISBN: 9027254508
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This volume examines rhetorical conventions employed in mechanical engineering research to understand the knowledge-making principles of the discipline, as well as their expression within the research article. In particular, the study analyses the organisational patterns of mechanical engineering research articles using Swales’s conceptualisation of moves and steps. In addition, the research identifies the phraseology associated with specific moves and steps. The study draws on a corpus of 120 mechanical engineering research articles, equally distributed across two sub-disciplines (mechanical systems and thermal-fluids engineering), three research traditions (experimental, theoretical and mixed methods), and two publication periods (2002–2006 and 2012–2016). It adopts an integrated methodology, intertwining various approaches and perspectives including corpus linguistics, move analysis, discourse analysis and interviews to address two main strands of research enquiry: (i) What are the properties of the rhetorical structures in terms of range, frequency, and length for each section of mechanical engineering research articles? (ii) What effect does sub-discipline, research tradition and publication date have on the rhetorical structure of research articles?

Tuning Energy Transport in Solar Thermal Systems Using Nanostructured Materials

Tuning Energy Transport in Solar Thermal Systems Using Nanostructured Materials
Author: Andrej Lenert
Publisher:
Total Pages: 146
Release: 2014
Genre:
ISBN:
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Solar thermal energy conversion can harness the entire solar spectrum and theoretically achieve very high efficiencies while interfacing with thermal storage or back-up systems for dispatchable power generation. Nanostructured materials allow us to tune the spectral properties and heat transfer behavior to enable such systems. However, under high temperature conditions, thermal management, system optimization and minimization of parasitic losses are necessary to achieve competitive solar power generation. This thesis seeks to achieve spectral control and thermal management through manipulation of nanostructured materials. First, this thesis presents the design and development of a nanophotonic solar thermophotovoltaic (STPV) that harnesses the full spectrum of the sun, in a solid-state and scalable way. Through device optimization and control over spectral properties at high temperatures (~1300 K), a device that is 3 times more efficient than previous STPVs is demonstrated. To achieve this result, a framework was developed to identify which parts of the spectrum are critical and to guide the design of nanostructured absorbers and emitters for STPVs. The work elucidated the relative importance of spectral properties depending on the operating regime and device geometry. Carbon nanotubes and a silicon/silicon dioxide photonic crystal were used to target critical properties in the high solar concentration regime; and two-dimensional metallic photonic crystals were used to target critical properties in the low solar concentration regime. A versatile experimental platform was developed to interchangeably test different STPV components without sacrificing experimental control. In addition to demonstrating significant improvements in STPV efficiency, an experimental procedure to quantify the energy conversion and loss mechanisms helped improve and validate STPV models. Using these validated models, this thesis presents a scaled-up device that can achieve 20% efficiencies in the near term. With potential integration of thermal-based storage, such a technology can supply power efficiently and on-demand, which will have significant implications for adoption of STPVs. Second, the thesis shifts focus away from solid-state systems to thermal-fluid systems. A new figure of merit was proposed to capture the thermal storage, heat transfer and pumping power requirements for a heat transfer fluid is a solar thermal system. Existing and emerging fluids were evaluated based on the new metric as well as practical issues. Finally, sub-micron phase change material (PCM) suspensions are investigated for simultaneous enhancement of local heat transfer and thermal storage capacity in solar thermal systems. A physical model was developed to explain the local heat transfer characteristics of a flowing PCM suspension undergoing melting. A mechanism for enhancement of heat transfer through.control over the distribution of PCM particles inside a channel was discovered and explained. Together, this thesis makes significant contributions towards improving our understanding of the role and the effective use of nanostructured materials in solar thermal systems.

Design and Optimization of Thermal Systems, Third Edition

Design and Optimization of Thermal Systems, Third Edition
Author: Yogesh Jaluria
Publisher: CRC Press
Total Pages: 794
Release: 2019-09-06
Genre: Mathematics
ISBN: 1498778259
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Design and Optimization of Thermal Systems, Third Edition: with MATLAB® Applications provides systematic and efficient approaches to the design of thermal systems, which are of interest in a wide range of applications. It presents basic concepts and procedures for conceptual design, problem formulation, modeling, simulation, design evaluation, achieving feasible design, and optimization. Emphasizing modeling and simulation, with experimentation for physical insight and model validation, the third edition covers the areas of material selection, manufacturability, economic aspects, sensitivity, genetic and gradient search methods, knowledge-based design methodology, uncertainty, and other aspects that arise in practical situations. This edition features many new and revised examples and problems from diverse application areas and more extensive coverage of analysis and simulation with MATLAB®.

Introduction to Materials for Advanced Energy Systems

Introduction to Materials for Advanced Energy Systems
Author: Colin Tong
Publisher: Springer
Total Pages: 911
Release: 2018-12-12
Genre: Technology & Engineering
ISBN: 3319980025
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This first of its kind text enables today’s students to understand current and future energy challenges, to acquire skills for selecting and using materials and manufacturing processes in the design of energy systems, and to develop a cross-functional approach to materials, mechanics, electronics and processes of energy production. While taking economic and regulatory aspects into account, this textbook provides a comprehensive introduction to the range of materials used for advanced energy systems, including fossil, nuclear, solar, bio, wind, geothermal, ocean and hydropower, hydrogen, and nuclear, as well as thermal energy storage and electrochemical storage in fuel cells. A separate chapter is devoted to emerging energy harvesting systems. Integrated coverage includes the application of scientific and engineering principles to materials that enable different types of energy systems. Properties, performance, modeling, fabrication, characterization and application of structural, functional and hybrid materials are described for each energy system. Readers will appreciate the complex relationships among materials selection, optimizing design, and component operating conditions in each energy system. Research and development trends of novel emerging materials for future hybrid energy systems are also considered. Each chapter is basically a self-contained unit, easily enabling instructors to adapt the book for coursework. This textbook is suitable for students in science and engineering who seek to obtain a comprehensive understanding of different energy processes, and how materials enable energy harvesting, conversion, and storage. In setting forth the latest advances and new frontiers of research, the text also serves as a comprehensive reference on energy materials for experienced materials scientists, engineers, and physicists. Includes pedagogical features such as in-depth side bars, worked-out and end-of- chapter exercises, and many references to further reading Provides comprehensive coverage of materials-based solutions for major and emerging energy systems Brings together diverse subject matter by integrating theory with engaging insights

Advances in Nanofluid Heat Transfer

Advances in Nanofluid Heat Transfer
Author: Hafiz Muhammad Ali
Publisher: Elsevier
Total Pages: 589
Release: 2022-05-28
Genre: Science
ISBN: 0323886426
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Advances in Nanofluid Heat Transfer covers the broad definitions, brief history, preparation techniques, thermophysical properties, heat transfer characteristics, and emerging applications of hybrid nanofluids. Starting with the basics, this book advances step-by-step toward advanced topics, with mathematical models, schematic diagrams and discussions of the experimental work of leading researchers. By introducing readers to new techniques, this book helps readers resolve existing problems and implement nanofluids in innovative new applications. This book provides detailed coverage of stability and reliable measurement techniques for nanofluid properties, as well as different kinds of base fluids. Providing a clear understanding of what happens at the nanoscale, the book is written to be used by engineers in industry as well as researchers and graduate students. Covers new applications of nanofluids, along with key challenges encountered in the commercialization of this technology Highlights new nanofluid properties and associated numerical modeling methods Addresses the very latest topics in nanofluids sciences, such as ionic nanofluids