仿酶生物处理杨木心材Bio-APMP制浆废水及回用  

作　　者：周俊怡 谢益民[1,2] 张功侠 牛虎军 赵云博 周安乡 薛超 ZHOU Junyi;XIE Yimin;ZHANG Gongxia;NIU Hujun;ZHAO Yunbo;ZHOU Anxiang;XUE Chao(Research Institute of Pulp&Paper Engineering,Hubei University of Technology,Wuhan,Hubei Province,430068;Hubei Provincial Key Lab of Green Materials for Light Industry,Hubei University of Technology,Wuhan,Hubei Province,430068;Hubei Huahai Fiber Technology Co.,Ltd.,Nanzhang,Hubei Province,441500)

机构地区：[1]湖北工业大学制浆造纸研究院,湖北武汉430068 [2]湖北工业大学绿色轻工材料湖北省重点实验室,湖北武汉430068 [3]湖北华海纤维科技股份有限公司,湖北南漳441500

出　　处：《中国造纸学报》2024年第3期114-122,共9页Transactions of China Pulp and Paper

基　　金：国家自然科学基金项目(21878070);湖北省高等学校优秀中青年科技创新团队计划项目(T201205)。

摘　　要：杨木心材碱性过氧化氢机械浆(APMP)的制浆废水不仅产生水量大,且化学需氧量(COD)较高,处理难度较大;通过白腐菌Trametes sp.48424预处理杨木心材,经碱性过氧化氢制浆得到生物处理APMP (Bio-APMP),可以有效降低制浆废水中的污染物含量,提高纸浆质量。本研究首先用内循环(IC)厌氧反应器对杨木心材Bio-APMP制浆废水进行厌氧生物处理,再利用仿酶-混凝与曝气生物滤池(BAF)相结合的组合工艺进行深度处理,探究厌氧和BAF处理的最佳工艺条件,以及仿酶络合物和絮凝剂的最佳用量。同时,研究了处理后制浆废水回用对Bio-APMP制浆性能的影响。研究结果表明,采用白腐菌生物预处理技术,Bio-APMP制浆废水的COD和木质素含量均低于传统APMP,制浆废水中的COD_(Cr)降低了15.3%。在最佳厌氧生物处理条件下,COD_(Cr)去除率为89.5%。此外,工艺优化后BAF的COD_(Cr)最高去除率为81.9%。Fe-EDTA仿酶络合物用量为15 mg/L时,仿酶-混凝法处理制浆废水效果最好,此时COD_(Cr)去除率为67.7%。利用厌氧+BAF+仿酶-混凝结合的方法深度处理Bio-APMP制浆废水,制浆废水的COD_(Cr)从11952 mg/L降至80.4 mg/L;将深度处理后的废水回用于Bio-APMP制浆过程,纸浆质量有所下降,纸张物理强度有所降低。The pulping wastewater from alkaline peroxide mechanical pulp(APMP)of poplar heartwood has not only a large quantity,but also high COD,making it difficult to treat.The white rot fungus Trametes sp.48424 was used to pretreat poplar heartwood,and bioprocessed APMP(Bio-APMP)was obtained by alkaline hydrogen peroxide pulping,which could effectively reduce the content of pollutants in pulping wastewater and improve pulp quality.In this study,the anaerobic biological treatment was carried out with an internal circulation(IC)anaerobic reactor firstly,following by a combination of biological aerated filter(BAF)and biomimetic coagulation for advanced treatment of poplar heartwood Bio-APMP pulping wastewater.The optimum conditions for anaerobic and BAF treatment,as well as the optimum dosage of biomimetic complexes and flocculants were investigated.The effect of wastewater reuse on the performance of Bio-APMP pulping was also explored.The results showed that when the biotechnology of white-rot fungus pretreatment was applied,the COD and lignin content of Bio-APMP pulping wastewater were lower than that of traditional APMP,and the COD_(Cr) in the pulping wastewater was reduced by 15.3%.At the best anaerobic treatment condition,the removal rate of COD_(Cr) was 89.5%.The results also indicated that the highest removal rate of COD_(Cr) in the BAF after process optimizing was 81.9%.When the dosage of Fe-EDTA biomimetic complex was 15 mg/L,the biomimetic coagulation had the best effect on pulping wastewater treatment,and the removal rate of COD_(Cr) reached 67.7%.By using a combination of anaerobic,BAF,biomimetic treatment,and coagulation for the advanced wastewater treatment,the COD_(Cr) of Bio-APMP pulping wastewater was reduced from 11952 mg/L to 80.4 mg/L.By reusing the wastewater after advanced treatment into Bio-APMP pulping process,the quality of the pulp was decreased and the physical strength of the paper was reduced.

关 键 词：Bio-APMP 厌氧废水处理 曝气生物滤池 仿酶处理 废水回用 

分 类 号：TS7[轻工技术与工程—制浆造纸工程]