Parabolic Trough Solar Collectors: Thermal and Hydraulic Enhancement Using Passive Techniques and Nanofluids

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Parabolic Trough Solar Collectors: Thermal and Hydraulic Enhancement Using Passive Techniques and Nanofluids systematically and methodically examines all aspects of the essential and basic elements of parabolic trough solar collector (PTSC) design and performance enhancement techniques. The book provides thorough optical, thermal, and exergetic analyses along with a review of experimental and numerical studies performed on thermal augmentation methods, which includes the use of conventional fluids and advanced fluids such as nanofluids and hybrid nanofluids in PTSC. Moreover, the use of passive techniques, turbulators, and surface modifications with different shapes and configurations associated with PTSC is presented. The PTSC’s thermal efficiency augmentation estimation with the utilization of different fluids (i.e. conventional or advanced fluids) is summarized and analyzed in each case study, and the ongoing patterns in hybrid nanofluid utilization are provided. 
Given the interdisciplinary nature of renewable energy systems design, this comprehensive reference will be an invaluable resource for engineering and industrial professionals involved in energy engineering design, power plant design, and solar energy systems design.
  • ​Presents all state-of-the-art aspects of PTSC design and implementation;
  • Hands-on reference for anyone involved in renewable energy systems design;
  • Includes case studies.

Author(s): Hussein A. Mohammed, Hari B. Vuthaluru, Shaomin Liu
Publisher: Springer
Year: 2022

Language: English
Pages: 210
City: Cham

Preface
Acknowledgements
Introduction
Contents
List of Symbols
Chapter 1: Background
1.1 Introduction
1.2 Sunlight-Based Thermal Collector Types
1.2.1 Sunlight-Based Collectors
1.2.2 Non-concentrating Solar Collectors (NCC)
1.2.3 Concentrating Sun-Based Collectors (CSC)
1.2.4 Direct Solar Absorption Collectors Efficiency Improvement
Chapter 2: Parabolic Trough Collector (PTC)
2.1 Historical Start of PTC
2.2 Commercial Collectors
2.3 Background of PTC
2.4 Basics of PTC
2.4.1 Optical Analysis
2.4.2 Thermal Performance
2.4.3 Exergetic Performance
2.4.4 Entropy Analysis
2.5 PTC Applications
2.5.1 Thermal Heating
2.5.2 Thermal Cooling
2.5.3 Seawater Desalination
2.5.4 Water Decontamination
2.5.5 Concentrating PVs
Chapter 3: PTC Enhancement Using Passive Techniques
3.1 Introduction
3.2 Passive Techniques
3.2.1 PTC Studies Using Passive Techniques
3.2.2 WPTC Studies Using Conventional Working Fluids
3.2.2.1 Introduction
3.2.2.2 Numerical and Experimental Studies
Chapter 4: PTC Enhancement Using Nanofluids
4.1 Introduction
4.2 Nanofluids
4.3 Hybrid Nanofluids
4.4 Other Studies/Techniques on PTC
Chapter 5: Discussion on Heat Transfer Enhancement Methods
5.1 Introduction
5.2 Discussion on Thermal Enhancement Methods
5.2.1 Mathematical Perspectives
5.2.2 Numerical Perspectives
5.2.3 Experimental Perspectives
5.2.4 Passive Techniques Perspectives
5.3 Challenges and Research Gaps
5.3.1 Challenges
5.3.2 Research Gaps
Chapter 6: Conclusions and Recommendations
6.1 Conclusions
6.2 Recommendations for Future Work
References
Index