Kinetic study and real-time monitoring strategy for tempo-mediated oxidation of bleached eucalyptus fibers
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s10570-022-05013-7
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Conclusions
The present work provides a deep understanding of the reaction mechanism of cellulose with TEMPO/ NaBr/NaOH system, as well as the effect of process conditions on the reaction kinetics. In a first part of the study, it was found that regardless the process conditions, the NaOH consumption exhibited a lin- ear relationship with the carboxyl content of the fib- ers, which indicates that the evolution of the reaction could be directly monitored by means of considering the amount of NaOH per gram of fiber. This infers the possibility of using a calibration curve to estimate the oxidation degree based on NaOH addition, potentially skipping a characterization step that could be per- formed only for validation purposes. In addition, this relationship was found to be the same at varying tem- perature, NaBr content and surface area of the fibers, while different TEMPO contents were found to have different impact on this correlation. This was attrib- uted to the capacity of TEMPO to protect the fibers and then, preventing their depolymerization. In light of the competing OH(6) oxidation and the oxidative cleavage of β-1,4 bonds, we advise against the com- mon practice of quenching the reaction once the pH remains stable. This way, the last period of the pro- cess still shows consumption of ClO – , but particularly directed to depolymerization. Instead, the process should be finished in a predetermined, optimized NaOH consumption. The obtained results were consistent with those previously reported for cotton or regenerated cel- lulose, particularly in terms of energy of activation, which validates the study. Modifying the process conditions only resulted in positive impact for tem- perature, where the required time for complete con- version was found to be significantly decreased at 25 and 30 °C. However, this was not observed at increasing TEMPO and NaBr contents, and only a slight reduction was observed at increasing PFI revo- lutions. Further, the increase on surface area resulted in lower yield reactions, which implies the generation of higher amount of waste in the form of dissolved substances. Finally, pH was found to have low effect on oxidation, at least between 10.5 and 11.5, where no significant differences were observed at relatively high CC. The present work was conducted at a NaClO dos- age of 5 mmol/g and results are consistent with a pseudo-first order kinetics. However, the need of con- ducting further studies at different NaClO amounts, as well as further understanding the mechanism of TEMPO, is clear. Moreover, despite the proven use- fulness of monitoring NaOH consumption and CC, other characteristics of the oxidized fibers should be taken into account: rheology, transmittance, conduc- tivity. Besides these properties, which can be meas- ured in-line, the effects of TEMPO-mediated oxida- tion on remaining hemicelluloses can impact the quality and usability of the end product. Acknowledgments Authors wish to acknowledge the financial support of the funding agencies listed in the “Funding” section for their support to develop the present work. Marc Delgado-Aguilar and Quim Tarrés are Serra Húnter Fellows. Download 1.85 Mb. Do'stlaringiz bilan baham: 
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