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Full Description
Sustainable Hybrid Cooling and Dehumidification Strategies for Controlled Environments addresses the critical need for energy-efficient climate control solutions in storage, industry and agriculture, amid climate change and rising energy costs. This reference explores innovative hybrid systems, including evaporative cooling, radiative cooling, desiccant systems, and renewable energy integration, to meet demands of sustainable environmental management. The book's contents encompass thermally driven desiccant dehumidification, phase change materials, solar thermal collectors, AI and IoT-based control systems, and applications in agriculture. It combines theoretical foundations, experimental methods, case studies, and practical applications, offering a holistic view of current advancements and future trends. Designed for practitioners, researchers, and graduate students, "Sustainable Hybrid Cooling and Dehumidification Strategies for Controlled Environments" provides actionable insights to enhance energy efficiency, reduce environmental impacts, and support the global energy transition. Its interdisciplinary approach and inclusion of techno-economic analyses make it an essential resource for developing sustainable climate-control solutions aligned with UN SDGs, particularly SDG 7, 9, 11, and 13.
Contents
1. Introduction to Hybrid Cooling and Dehumidification Systems for Controlled Environments
2. Thermally Driven Desiccant Dehumidification System for Greenhouse Application
3. Energy Efficient Evaporative Cooling Systems for Various Applications
4. Study on Phase Change Materials (PCMs) for Agricultural Storage Applications
5. Study on Energy Recovery Ventilators for Heat Pump Systems
6. Integration of Solar Thermal Collectors with Desiccant Cooling Systems for Controlled Environments
7. Performance Evaluation of Radiative Cooling for Greenhouse Temperature Control
8. Hybrid Cooling Strategies for Agricultural Storage in Hot and Humid Regions
9. AI and IoT-based Control for Optimized Greenhouse Cooling and Dehumidification
10. Thermal Energy Storage Materials for Day-Night Cooling Applications in Greenhouses
11. Application of Desiccant Coated Heat Exchangers in Agricultural Storage Facilities
12. Passive and Active Cooling Strategies for Livestock Shelters in Arid Climates
13. Endothermic Salts Based Greenhouse Cooling Systems
14. Future Trends in Climate-Responsive Thermal Systems for Sustainable Agriculture
