PAPERmaking! Vol8 Nr3 2022

PAPER making! FROM THE PUBLISHERS OF PAPER TECHNOLOGY INTERNATIONAL ® Volume 8, Number 3, 2022

improve the tissue-making quality of OCC pulp. The processes evaluated reduced the lignin content (kappa number from 89 to values as low as 55) and generated brightness gains as high as 8.8% ISO units. The strength of the sheets also improved due to the delignification and increase in fiber swelling. Chemically treated OCC resulted in sheets with higher water absorption capacity and absorption rate and fiber slurries with higher freeness compared to sheets and slurries from mechanically refined OCC. Therefore, we demonstrate the application of treatments with low environmental impact to upcycle OCC into a high-quality brown pulp suitable for manufacturing high-performance tissue paper. “To improve the disintegration potential of toilet grade tissue paper”, Sanjeev Kumar Jain, Olimpiya Biswas & Priyanka Pandey, Nordic Pulp & Paper Research Journal , online (2022). Disintegration potential of toilet grade tissue paper is one of the most important parameter keeping in mind the worldwide water scarcity faced by human race in current decade. The aim of this experimental study is to improve the disintegration potential of toilet tissue. Softener is used as debonding material. The right amount dry strength required by Toilet tissue is maintained by controlled fiber refining. High fiber bonding would lower the disintegration potential of the tissue paper, thus hampering the aim of study. The initial freeness of the pulp slurry was found 16°SR. It was then further UHILQHGLQFRQWUROOHGPDQQHUWRYDULRXVGHJUHHVRIIUHHQHVV LௗHDQG 30°SR). Bulk, Strength properties along with disintegration time and softness of 15GSM hand sheets prepared from each set of pulp slurry was investigated. Turbidity test was done to check the cloudiness. Upon analysing, it was found that the paper developed at ƒ65IUHHQHVVKDYLQJEXONௗF c/gm, breaking length 750 meter, softness 80 Hand feel units, and disintegration time 08 seconds was most suitable having the better softness, optimum strength and higher disintegration potential as compared to the benchmarked samples. WASTE TREATMENT “Strategies to improve membrane performance in wastewater treatment”, Shams Forruque Ahmed, Fatema Mehejabin, Adiba Momtahin, Nuzab a Tasannum, Nishat Tasnim Faria, M. Mofijur. Anh Tuan Hoang, Dai-Viet N. Vo & T.M.I. Mahlia, Chemosphere , Vol.306, 135527 (Nov. 2022). Membrane technology has rapidly gained popularity in wastewater treatment due to its cost-effectiveness, environmentally friendly tools, and elevated productivity. Although membrane performance in wastewater treatment has been reviewed in several past studies, the key techniques for improving membrane performance, as well as their challenges, and solutions associated with the membrane process, were not sufficiently highlighted in those studies. Also, very few studies have addressed hybrid techniques to improve membrane performance. The present review aims to fill those gaps and achieve public health benefits through safe water processing. Despite its higher cost, membrane performance can result in a 36% reduction in flux degradation. The issue with fouling has been identified as one of the key challenges of membrane technology. Chemical cleaning is quite effective in removing accumulated foulant. Fouling mitigation techniques have also been shown to have a positive effect on membrane photobioreactors that handle wastewater effluent, resulting in a 50% and 60% reduction in fouling rates for backwash and nitrogen bubble scouring techniques. Membrane hybrid approaches such as hybrid forward-reverse osmosis show promise in removing high concentrations of phosphorus, ammonium, and salt from wastewater. The incorporation of the forward osmosis process can reject 99% of phosphorus and 97% of ammonium, and the reverse osmosis approach can achieve a 99% salt rejection rate. The control strategies for membrane fouling have not been successfully optimized yet and

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Technical Abstracts

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