Theoretical and experimental study of the effect of biomass based organic packing wettability on the LDDS and its life cycle analysis

Present study aimed at the fabrication of a counter flow dehumidifier unit using biomass-based organic materials like coconut coir and wood shave as packing alternatives. The wettability of these packings is evaluated by arranging them structurally and their influence on the dehumidification perform...

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Bibliographic Details
Published inRenewable energy Vol. 225; p. 120301
Main Authors Suranjan Salins, Sampath, Kumar, Shiva, Shetty, Sawan, Raghavendra, R.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.05.2024
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Summary:Present study aimed at the fabrication of a counter flow dehumidifier unit using biomass-based organic materials like coconut coir and wood shave as packing alternatives. The wettability of these packings is evaluated by arranging them structurally and their influence on the dehumidification performance has been experimentally studied. A prediction-based mathematical model is constructed to simulate the performance of biomass packing materials. Theoretical and experimental results were very close, with an average deviation of 8.33% for wood shaving and 5.79% for coconut coir packings. Overall, this unit gave the rate of moisture removal (MRR), dehumidification effectiveness (DE), coefficient of mass transfer (MTC) and specific humidity ratio equal to 0.70 g/s, 76%, 37 kg/m2-s and 0.78 respectively. A packing life study and its influence on dehumidification performance is checked. After the third week of continuous usage, results revealed that air contamination CO2, TVOC, and HCHO levels increased by 14.60%, 34.48%, and 38.46%, and the moisture removal rate decreased by 29%, for wood shaving packing. After the third week, the performance deteriorated since the packing fragments became brittle due to the salt interaction. This fibre breakage affected the wettability significantly. [Display omitted] •Locally available biomass materials were tested as alternative packing for dehumidification.•Maximum values of MRR, DE, and MTC are found to be 0.70 g/s, 76% & 37 kg/m2-s, respectively.•Mathematical model deviation of 8.33% and 5.79% is observed wood shaving & coconut packing.•Performance for packing was raised till 3 weeks & then it deteriorated due to salt deposition.•Wood shaving packing with wettability 500 m2/m3 gave high performance compared to coconut packing.
ISSN:0960-1481
DOI:10.1016/j.renene.2024.120301