磷酸化对包埋anammox污泥的聚乙烯醇/海藻酸盐凝胶特性的影响OA
Effect of phosphorylation on the properties of polyvinyl alcohol/sodium alginate gel embedding anammox sludge
聚乙烯醇/海藻酸盐(PVA/SA)凝胶包埋是解决厌氧氨氧化(anammox)菌易流失、易受外界环境干扰的有效途径之一,但传质性能差、机械强度低等限制了其应用.本文提出了一种通过磷酸化处理改善PVA/SA水凝胶性能的方法.结果表明,磷酸化处理的最优条件:磷酸化试剂为K3PO4,磷质量浓度为 50 mg·L−1,处理时间为 30 min.最优条件处理后的凝胶对氨氮、亚硝态氮和罗丹明B的传质效率分别提高了 28.6%、64.4%和 32.3%,机械强度增加了1.75倍,溶胀性减少了 17.0%.磷酸化改善凝胶性能的机制是磷酸盐与PVA/SA发生反应,用小分子质量的磷酸根将大分子质量的海藻酸根置换出来,从而显著提高了凝胶的孔隙结构.经磷酸化凝胶包埋的anammox污泥活性比未经磷酸化凝胶包埋的污泥活性高出 58.1%.因此,本研究成果为解决anammox污泥固定化技术中的关键问题提供了可行方案,有望推动anammox工艺的工程化应用.
Polyvinyl alcohol/sodium alginate(PVA/SA)gel embedding is one of the effective approaches to address the issues of easy loss and high susceptibility to external environmental disturbances in anaerobic ammonia oxidation(anammox)bacteria.However,its application is limited by poor mass transfer performance and low mechanical strength.This study proposes a method to enhance the properties of PVA/SA hydrogels through phosphorylation treatment.The results indicate that the optimal phosphorylation conditions are as follows:phosphorylation reagent K3PO4,phosphorus concentration of 50 mg·L−1,and treatment duration of 30 min.Under these optimal conditions,the mass transfer efficiencies of the gel for ammonia nitrogen,nitrite nitrogen,and Rhodamine B increased by 28.6%,64.4%,and 32.3%,respectively;the mechanical strength increased by 1.75 times;and swelling decreased by 17.0%.The mechanism behind the performance improvement is attributed to the reaction between phosphate and PVA/SA,where high-molecular-weight alginate chains are replaced by low-molecular-weight phosphate groups,significantly enhancing the gel's pore structure.The anammox sludge activity embedded in phosphorylated gel was 58.1%higher than that in non-phosphorylated gel.Therefore,this research provides a feasible solution to key challenges in anammox sludge immobilization technology and holds promise for promoting the engineering application of the anammox process.
唐睿;李博博;王雨;周振;胡真虎
上海电力大学环境与化学工程学院,上海 200090上海电力大学环境与化学工程学院,上海 200090上海电力大学环境与化学工程学院,上海 200090华东师范大学生态与环境学院,上海 200241合肥工业大学土木与水利工程学院,合肥 230009
资源环境
水凝胶磷酸化聚乙烯醇海藻酸盐厌氧氨氧化
hydrogelphosphorylationpolyvinyl alcoholsodium alginateanammox
《环境工程学报》 2026 (1)
120-128,9
上海市青年科技英才扬帆计划项目(23YF1414500)国家自然科学基金资助项目(52400050)
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