Hiremath, C.R.Kadoli, R.2026-02-042022Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2022, 44, 4, pp. -16785878https://doi.org/10.1007/s40430-022-03455-5https://idr.nitk.ac.in/handle/123456789/22609The present study considers the composite desiccant employing horse dung, sawdust with clay and later impregnating CaCl<inf>2</inf> into the host material. The microscopic and spectroscopic experimental methods such as scanning electron microscope (SEM) and X-ray diffraction (XRD) were used to characterize the composite desiccants. The specific heat (C<inf>p</inf>) quantification reveals higher values for clay-additives composite desiccants with lower pore volume and larger grain sizes, whereas lower values for clay composite desiccants with higher pore volume and smaller grain sizes. Adsorption–desorption experiments for moisture removal and addition are conducted in a vertical column in static and fluidized states. The desiccant beds are subjected to an initially set value of process air velocity, relative humidity, temperature and mass of bed. Moisture removal capacity, moisture addition capacity and mass transfer coefficient are the parameter indices adopted to measure the heat and mass transfer characteristics of vertical packed and fluidized bed comprising clay-additives-CaCl<inf>2</inf> composite desiccants. Comparing packed and fluidized beds, a higher surface area of bed in fluidization improves dehumidification performance and results in higher desorption rates. Experimental results confirmed that clay and clay-additives-based desiccants have desired adsorption–desorption characteristics of a suitable desiccant. The interesting advantage of fabricated clay and clay-additives-based composite adsorbents is that the air exits the desiccant bed at a lower temperature, saving cooling energy requirements of sorption-based systems. © 2022, The Author(s), under exclusive licence to The Brazilian Society of Mechanical Sciences and Engineering.AdditivesAdsorptionAirChlorine compoundsCooling systemsDesorptionDriers (materials)Fluidized bedsGrain size and shapeHumidity controlMass transferPacked bedsScanning electron microscopySpecific heatAdsorption and desorptionsAdsorption/desorptionComparison studyComposite desiccantsExperimental methodsHost materialsLargest grain sizesMoisture removalPore volumeX- ray diffractionsFluidization