Publication | Closed Access
An integrated cellulose aerogel evaporator with improved thermal management and reduced enthalpy of evaporation using a hierarchical coordinated control strategy
40
Citations
31
References
2023
Year
EngineeringEnergy EfficiencyPolyelectrolyte GelChemistryChemical EngineeringCellulose Aerogel EvaporatorWater StatesDesiccationHigh Evaporation RateCarbon AerogelsThermodynamicsNanocelluloseControl StrategyHydrogenHeat TransferEvaporation SitesDewvaporationThermal ManagementThermal EngineeringChemical Kinetics
The synergistic effect between the water states, the evaporation sites and porous structure decreases the enthalpy of evaporation to 949 J g −1 and provides a single-module evaporator with a high evaporation rate of 3.17 kg h −1 m −2 .
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