Advancing Paper Industry Applications with Extruded Cationic Wheat Starch as an Environmentally Friendly Biopolymer

Ahmed Tara
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Abstract

Within the domain of starch modification, the study delved into cationization of wheat starch through a laboratory-scale twin-screw extruder, exploring various processing conditions. Cationic starch, a crucial component for enhancing paper attributes like dry strength and printability, took center stage. The focus shifted towards integration into papermaking, investigating the transformative potential of reactive extrusion. By contrasting it with conventional dry-process methodology, innovative strides were unveiled. The study extended to pilot-scale extrusion, bridging the gap between laboratory experimentation and potential industrial implementation. Infused with scientific rigor, the investigation navigated the benefits brought about by reactive extrusion. Empirical insights highlighted a significant reduction in the intrinsic viscosity of extruded starch, decreasing from 170 mL·g−1 (native starch) to 100 mL·g−1 at a specific mechanical energy (SME) input of 800 kWh·t−1, demonstrating remarkable stability despite increased mechanical treatment. Moreover, beyond the critical threshold of 220 kWh·t−1, retention efficiency reached a stable plateau at 78%. The study revealed that utilizing a larger extruder slightly improved the mechanical properties of the paper, emphasizing the advantage of scaling up the production process and the consistency of results across different extruder sizes.
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挤压型阳离子小麦淀粉环保型生物聚合物在造纸工业中的应用
在淀粉改性领域,本研究通过实验室规模的双螺杆挤出机对小麦淀粉的阳离子化进行了深入研究,探索了不同的加工条件。阳离子淀粉是增强纸的干强度和可印刷性等特性的关键成分。重点转移到整合到造纸,调查反应挤出的变革潜力。通过与传统干法方法的对比,揭示了创新的进步。这项研究扩展到中试规模的挤压,弥合了实验室实验和潜在工业实施之间的差距。注入科学的严谨,调查导航的好处,反应挤出带来的。在800 kWh·t−1的特定机械能(SME)输入下,挤出淀粉的特性粘度从170 mL·g−1(天然淀粉)降低到100 mL·g−1,尽管增加了机械处理,但仍表现出显著的稳定性。此外,超过220 kWh·t−1的临界阈值后,保持效率稳定在78%。研究表明,使用较大的挤出机略微改善了纸张的机械性能,强调了扩大生产过程的优势以及不同挤出机尺寸结果的一致性。
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