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Adsorption Desalination and Cooling Systems: Advances in Design, Modeling and Performance
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Increasing energy efficiency; reducing energy demand, greenhouse gas emissions, and the use of waste; and integrating renewable and recycled heat from low-temperature sources are significant challenges today and are key parts of 4th Generation District Heating (4GDH) concept. On the other hand, currently about one billion people around the world are suffering from water scarcity, and another three billion are approaching this situation. Only 2.5% of all water on the planet is freshwater, of which around 70% is not available and only 0.4% constitutes the most valuable portion of freshwater. Adsorption cooling technology is one of the most effective ways of addressing both these issues. This technology cools and produces potable water from the renewable and wasted heat of the near ambient temperature, including from sewage water, solar heat, and underground resources. This Special Issue Reprint Book provides the detailed information concerning the above-mentioned issues.
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Keywords
- additives
- adsorption
- adsorption chiller
- adsorption cooling
- adsorption working pairs
- adsorptive water harvesting from the atmosphere
- CFD
- Chemical engineering
- chiller
- coated beds
- coefficient of performance
- comparative analysis
- Copper
- cycle time
- dead state
- deep learning
- desalination
- Energy Efficiency
- exergy
- Industrial Chemistry
- Industrial chemistry & manufacturing technologies
- kinetics sorption
- Long Short-Term Memory (LSTM)
- low-temperature heat
- mass recovery
- metal organic silica
- metal–organic frameworks
- MIL-160
- n/a
- nanocomposites
- natural refrigerants
- neural networks
- preheating
- reheat cycle, mass recovery
- SAPO-34
- silica gel
- sorption
- sorption capacity
- sorption process time
- sorption processes
- specific cooling power
- specific energy consumption
- specific water productivity
- steam
- Technology, engineering, agriculture
- Technology: general issues
- thermal diffusivity
- variable mode
- waste heat recovery
- water vapor adsorption
- zeolite
Links
DOI: 10.3390/books978-3-0365-5914-8Editions