PAPERmaking! Vol7 Nr1 2021

 PAPERmaking! FROM THE PUBLISHERS OF PAPER TECHNOLOGY  Volume 7, Number 1, 2021 

the potential to become a carbon-negative industry. This study proposes a new concept for conversion of the pulp and paper industry to carbon negative that relies on the inherent CO2 capture capability of the Kraft process. The techno-economic performance of the proposed carbon-negative system, based on calcium looping (CaL) retrofitted to a pulp and paper plant, was evaluated. The effect of CaL design specifications and cost assumptions on the thermodynamic and economic performance were evaluated. Under the initial design assumptions, the reference pulp and paper plant was shown to turn from electricity importer to electricity exporter with the cost of CO2 avoided equal to 39.0 €/tCO2. The parametric study showed that an increase in the fresh limestone make -up rate resulted in a linear increase of the specific primary energy consumption for CO2 avoided (SPECCA) and a reduction in the amount of electricity exported to the electric grid. This translates into an increase in the price of pulp and newsprint, and the cost of CO2 avoided. This study has also demonstrated that the pulp and paper industry has high potential to become carbon negative. It has been shown that carbon capture and storage would become economically viable in this industry if the negative CO2 emissions are recognised and a negative CO2 emissions credit of at least 41.8 €/tCO2 is implemented. “A Review on the Life Cycle Assessment of Cellulose: From Properties to the Potential of Making It a Low Carbon Material”, Firoozeh Foroughi, Erfan Rezvani Ghomi, Fatemeh Morshedi Dehaghi, Ramadan Borayek & Seeram Ramakrishna, Materials 2021, 14(4), 714. The huge plastic production and plastic pollution are considered important global issues due to environmental aspects. One practical and efficient way to address them is to replace fossil-based plastics with natural-based materials, such as cellulose. The applications of different cellulose products have recently received increasing attention because of their desirable properties, such as biodegradability and sustainability. In this regard, the current study initially reviews cellulose products’ properties in three categories, including biopolyme rs based on the cellulose-derived monomer, cellulose fibers and their derivatives, and nanocellulose. The available life cycle assessments (LCA) for cellulose were comprehensively reviewed and classified at all the stages, including extraction of cellulose in various forms, manufacturing, usage, and disposal. Finally, due to the development of low-carbon materials in recent years and the importance of greenhouse gases (GHG) emissions, the proposed solutions to make cellulose a low carbon material were made. The optimization of the cellulose production process, such as the recovery of excessive solvents and using by-products as inputs for other processes, seem to be the most important step toward making it a low carbon material. MOULDED PULP “ Potential Use of Oil Palm Fronds for Papermaking and Application as Molded Pulp Trays for Fresh Product under Simulated Cold Chain Logistics ”, Lerpong Jarupan, Ratanapat Hunsa-Udom & Nattinee Bumbudsanpharoke, Journal of Natural Fibers , March 2021. Waste paper from newsprint, a key feedstock for molded pulp trays, is globally deficient due to digital shifts. Hence, the alternative fiber source needs to be explored. The potential use of fiber from oil palm fronds for protective packaging under humid conditions was studied. Fibers were isolated from petioles by sulfate pulping with 30.72% yield. The high α -cellulose content (38%) showed valuable for papermaking. Runkle’s ratio (0.63), rigidity coefficient (38.46), and slenderness value (100) suggested that the paper would have excellent mechanical properties. Under cold chain logistics, packaging must withstand high humidity and low temperature (90%RH, 12°C). Addition of 1.4% cationic starch and 0.5% AKD significantly enhanced water absorption resistance from 59 to 23250 sec and improved the burst (6.68%) and tensile index (26.47%). The

 

Technical Abstracts 

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