The worldwide transition in the direction of sustainability has sparked important curiosity in bio-based supplies and energy-efficient applied sciences. Amongst these, cellulose nanocrystals (CNCs), derived from renewable assets, have proven nice potential to be used in composites, biomedical supplies, and packaging. Nevertheless, a serious problem in CNC manufacturing is the energy-intensive drying course of, which frequently requires eradicating massive quantities of water from low-concentration suspensions.
To deal with this problem, a group of researchers on the College of Illinois Urbana-Champaign and Purdue College has launched a novel multi-frequency ultrasonic drying expertise. This methodology not solely accelerates the drying course of but in addition reduces vitality consumption in comparison with conventional drying strategies equivalent to sizzling air, spray, and freeze drying.
The analysis is printed within the Journal of Bioresources and Bioproducts.
The examine in contrast the drying kinetics, product high quality, and vitality effectivity of assorted drying strategies. The ultrasonic drying course of resulted in a outstanding 50% discount in drying time over sizzling air drying, with minimal change in particle measurement, indicating wonderful redispersibility.
Furthermore, the ultrasonic drying methodology demonstrated superior stability in aqueous options, with zeta potentials starting from -35 to -65 mV, a vital issue for the colloidal stability of CNCs.
When it comes to vitality consumption and CO2 emissions, the ultrasonic drying expertise outperformed different strategies. The particular vitality consumption was considerably decrease, and the potential CO2 emissions may attain net-zero if renewable electrical energy is used. This innovation aligns with international efforts to cut back greenhouse fuel emissions and obtain net-zero objectives.
The researchers concluded that ultrasonic drying is a promising, sustainable methodology for drying CNCs, providing a scalable answer for the biomaterials business. This methodology not solely enhances the effectivity of CNC manufacturing but in addition helps environmental sustainability by minimizing vitality use and carbon emissions.
Extra data:
Junli Liu et al, Complete comparability of cellulose nanocrystal (CNC) drying utilizing multi-frequency ultrasonic expertise with chosen standard drying applied sciences, Journal of Bioresources and Bioproducts (2024). DOI: 10.1016/j.jobab.2024.07.003
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Journal of Bioresources and Bioproducts
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Ultrasound expertise accelerates drying of renewable cellulose nanocrystals (2024, September 26)
retrieved 26 September 2024
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