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Full Description
This book provides a comprehensive exploration of solar radiation modeling and its applications in building energy efficiency, offering readers practical tools to reduce energy consumption while maximizing renewable energy use. It introduces innovative models, including anisotropic diffuse radiation methods, haze-corrected frameworks, and photothermal integration approaches, supported by extensive data validation and advanced computational techniques. Special features such as clear illustrations, comparative analyses, and case-based evaluations bridge theory and engineering practice. The book also examines real-world challenges, from the effects of dust and rainfall on photovoltaic performance to the impact of air pollution on solar energy utilization. Readers will gain both theoretical understanding and practical strategies for optimizing solar applications in building design and renewable energy systems. It will appeal to graduate students, researchers, architects, engineers, and professionals engaged in solar energy and building performance optimization.
Contents
Chapter 1. Regional Analysis and Theoretical Model Construction of Sky Diffuse Radiation.- Chapter 2. Proposal and Evaluation of the Simplified Anisotropic Diffusion Model (NSADR Model).- Chapter 3. The research of new daily diffuse solar radiation models modified by air quality index (AQI) in the region with heavy fog and haze.- Chapter 4. The Study on the Impact of Environmental Factors on the Weakening Effect of Solar Radiation Scattering.- Chapter 5. Validation of measured data of modified ASHRAE model.- Chapter 6. Nonlinear analysis of the relationship between solar irradiance and illuminance.- Chapter 7. Establishing the functional relationship between sky brightness and solar radiation.- Chapter 8. Anisotropic Solar Radiation Model Based on CIE Standards (CIE-NASR Model).- Chapter 9. Improvement and Validation of the All-Sky Radiation Distribution Model.- Chapter 10. Analysis of the impact of dust on the performance of solar photovoltaic panels.- Chapter 11. Research on the impact of rainwater on the output power of photovoltaic modules.- Chapter 12. Dust Density Prediction and Photovoltaic Efficiency Loss Assessment.- Chapter 13. Annual Power Generation Efficiency Model of Heat Pipe PV/T Systems Based on Spectral Response Bands.- chapter 14. Quantitative Study of Spectral Transmission Performance of Transparent Enclosure Structures.- Chapter 15. Analysis of the Spatial and Temporal Distribution Characteristics of Transmitted Solar Radiation.
