- Gebundenes Buch
- Merkliste
- Auf die Merkliste
- Bewerten Bewerten
- Teilen
- Produkt teilen
- Produkterinnerung
- Produkterinnerung
This book presents emerging prospects of understanding and controlling thermophysical properties at the nanoscale. It covers a comprehensive study of recent progress concerning these properties from the solid state to colloids and, above all, a different look at the effect of temperature on nanofluids thermal conducting.
Andere Kunden interessierten sich auch für
- W. L. DutréSimulation of Thermal Systems77,99 €
- Nemani SubadraStudy of Peristaltic Transport of Nanofluids34,99 €
- Tayyaba BokhariThermal Analysis of Fair Scheduling in Real-time Embedded Systems26,99 €
- Nazibuddin AhmedThermal and Solutal Convection in Some Hydromagnetic Flows103,99 €
- Grae WorsterUnderstanding Fluid Flow22,99 €
- Padmakar KhadikarSadhana Index in Nanotechnology38,99 €
- Modeling and Control for Micro/Nano Devices and Systems200,99 €
-
-
-
This book presents emerging prospects of understanding and controlling thermophysical properties at the nanoscale. It covers a comprehensive study of recent progress concerning these properties from the solid state to colloids and, above all, a different look at the effect of temperature on nanofluids thermal conducting.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 376
- Erscheinungstermin: 23. Oktober 2024
- Englisch
- Abmessung: 234mm x 156mm
- ISBN-13: 9781032664064
- ISBN-10: 1032664061
- Artikelnr.: 70524186
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 376
- Erscheinungstermin: 23. Oktober 2024
- Englisch
- Abmessung: 234mm x 156mm
- ISBN-13: 9781032664064
- ISBN-10: 1032664061
- Artikelnr.: 70524186
Taher Armaghani is an Associate Professor of Mechanical Engineering at the West Tehran Branch of Islamic Azad University. He earned his BSc, MSc, and Ph.D. in Mechanical Engineering from Shahrood University of Technology, Shahrood, Iran. He teaches advanced heat transfer in the nanoscience field in Ph.D. grade. He has published more than 60 ISI in the nanoscience field. He has published two books in the nanoscience field about applications of nanofluids and nanofluid applications in microelectronics. He is also an editor of the Journal of Nanofluid and guest editor in special topics of nanofluids in some journals. Additionally, he serves as a reviewer more than 100 scientific journals in nanoscience field. In current studies, the modern experimental heat transfer of nanofluids will be explored in the advanced heat transfer laboratory of the West Tehran branch of Islamic Azad University instituted by Dr. Taher Armaghani and Dr. Ramin Ghasemiasl. Ramin Ghasemiasl has been an Assistant Professor of Mechanical Engineering at the West Tehran Branch of Islamic Azad University since 2010. He earned his Ph.D. in Mechanical Engineering from Tarbiat Modares University (TMU), Tehran, Iran. He has published more than 40 WOS papers, more than 50 papers in conferences, and 12 books. His research interest includes renewable energy, the multi-generation system for product electricity, freshwater and hydrogen, and nanofluids applications in modern technologies. In current studies, the modern experimental heat transfer of nanofluids will be explored in the advanced heat transfer laboratory of the West Tehran branch of Islamic Azad University instituted by Dr. Ramin Ghasemiasl and Dr. Taher Armaghani. Omid Mahian is a Professor at Ningbo University, China, and serves as a visiting professor in the Department of Chemical Engineering at Imperial College London. He is a member of the Editorial Board for the Energy and Renewable Energy journals published by Elsevier, as well as a senior associate editor for the Journal of Thermal Analysis and Calorimetry and the Journal of Thermal Science, both by Springer. With extensive experience as a reviewer for over 100 international journals, Dr. Mahian's research primarily focuses on the application of nanotechnology in renewable energy-such as the use of nanofluids in solar collectors and solar desalination-as well as on entropy generation and exergy analysis in energy systems. He has published over 200 SCI papers, including highly cited works in top journals like Progress in Energy and Combustion Science, Physics Reports, and Nano Energy.
1. Introduction. 2. Solid State. 3. Colloidal Nanofluids Thermal
Conductivity. 4. New Look at Nanofluid Thermal Conductivity Correlations.
5. Viscosity. 6. Statistical Study and Overview of Nanofluid Viscosity
Correlations. 7. Isobaric Specific Heat Capacity. 8. Selecting a
Thermophysical Model for Numerical Modeling of Nanofluids.
Conductivity. 4. New Look at Nanofluid Thermal Conductivity Correlations.
5. Viscosity. 6. Statistical Study and Overview of Nanofluid Viscosity
Correlations. 7. Isobaric Specific Heat Capacity. 8. Selecting a
Thermophysical Model for Numerical Modeling of Nanofluids.
1. Introduction. 2. Solid State. 3. Colloidal Nanofluids Thermal
Conductivity. 4. New Look at Nanofluid Thermal Conductivity Correlations.
5. Viscosity. 6. Statistical Study and Overview of Nanofluid Viscosity
Correlations. 7. Isobaric Specific Heat Capacity. 8. Selecting a
Thermophysical Model for Numerical Modeling of Nanofluids.
Conductivity. 4. New Look at Nanofluid Thermal Conductivity Correlations.
5. Viscosity. 6. Statistical Study and Overview of Nanofluid Viscosity
Correlations. 7. Isobaric Specific Heat Capacity. 8. Selecting a
Thermophysical Model for Numerical Modeling of Nanofluids.