废弃物资源化技术

课题组成员：

张记市、薛嵘、姬丹丹、马云倩、董维芳、周茂娟、郭艳、于斐、吴昊、郭双桢、李炟、宋晓哲、臧立华

研究领域：

1．轻工行业生产过程废弃物控制与循环利用技术；固体废弃物资源化理论与技术；恶臭气体治理技术；轻工产业生态与绿色发展评估；

2．工业废水厌氧产氢、产甲烷及厌氧氨氧厌氧发酵化理论及技术；

3．工业废水高级氧化及环境催化材料技术；

4．环境污染物生物-化学检测技术与应用；

5．环境修复材料、环境功能材料制备； 等。

主要研究成就：

课题组研发的工业高浓度恶臭VOCs治理技术及装备目前在我国生物发酵行业广泛应用，该技术被工信部以示范技术向全国推广（工信部节[2010]104号），形成显著的社会效益和环境效益。

承担国家重点研究计划项目、国家发改委国家重大产业化技术研发项目、国家工信部绿色制造示范项目、省重点研发项目和企业课题等，每年平均经费约500万元以上。

授权发明专利：32件；获省部级科学技术奖励一、二等奖6项。

近三年（2019.01-2022.05）发表SCI论文43篇（其中I区论文13篇）。

代表论文：

PBDES was synthesized and applied to the field of plant biomass refining/conversion for the first time, and wheat straw components can be efficiently separated under near-neutral conditions. Applying PBDES changes the traditional biomass treatment methods of strong acid, strong alkali and strong oxidation, paving a new way forward in biomass refining. Using DFT, the reason why boric acid can promote the depolymerization of lignin was explained for the first time. (Yu-hui Ci, Fei Yu, Cheng-xuan Zhou, Hao-e Mo, Zu-yu Li, Yun-qian Ma* and Li-hua Zang*. Green Chemistry, 2020, 22(24): 8713-8720)

Two various materials, Al- and Cu-doped cobalt ferrite nanoparticles (NPs) were synthesized to reveal their positive effects on the efficiency of dark fermentation (DF) for hydrogen (H2) production and the DF system stability. CoCu0.2Fe1.8O4were mainly distributed on extracellular polymer substance while CoAl0.2Fe1.8O4 was concentrated on the cell membrane, both in a manner that facilitated electron transfer. （Wenqing Li, Jishi Zhang*, Junwei Yang, Junchu Zhang, Zhenmin Li, Yunjun Yang, Lihua Zang. Comparison of copper and aluminum doped cobalt ferrate nanoparticles for improving biohydrogen production. Bioresource Technology 2022, 343: 126078）

Low hydrogen (H2) yield via dark fermentation (DF) can be found, being mainly due to H2 generation pathway shift. To solve this bottleneck, lanthanum-iron oxide nanoparticles (LaFeO3 NPs) was prepared to investigate the main roles in bioH2 evolution via DF system, where the butyrate fermentation pathway and gene copy number of hydrogenase were improved byLaFeO3 NPs.（Junwei Yang, Huiwen Zhang, Hui Liu, Jishi Zhang*, Yong Pei, Lihua Zang. Unraveling the roles of lanthanum-iron oxide nanoparticles in biohydrogen production. Bioresource Technology 2022, 351: 127027）

we developed a lateral flow (LF) strip biosensor based on streptavidin-coated gold nanoparticles (StreptAv–AuNPs) combined with recombinase polymerase amplification (RPA) for the quantitative point-of-care testing of Salmonella enterica serotype Enteritidis (S. Enteritidis). The entire process was completed in less than 40 min, and a limit of detection of 5.5 × 10−13 M and 91.4 CFU/mL was achieved for synthetic S. Enteritidis DNA and cultured S. Enteritidis samples, respectively. This method has the advantages of low cost, high precision and rapid quantification, which is of great significance for the rapid detection of Salmonella, especially for developing countries.（Fu, Qiang, Lin Yuan, Fengrong Cao, Lihua Zang, and Dandan Ji*，Microchemical Journal，2019）

N-G promoted anammox average nitrogen removal efficiency by 17.57%, increased anammox biomass from 18.10% to 28.30%, improved anammox microbial function in terms of “Metabolism”, enriched the genes involved in nitrogen removal to varing degree, and upregulated the genes controlling extracellular polymeric substance secretion.（Baoyong Zhang , Hao Sun , Na Wang , Yan Sun , Lihua Zang , Rong Xue*, Bioresource Technology 351 (2022) 126998）

In this work, a novel nano-flower MIL-125(Mo)-In2Se3 (M-In) adsorbent photocatalyst was firstly prepared by one-step solvothermal method. Benefiting from the 3D nano-flower structure, tightness 2D/2D heterojunction interface, highly exposed active site of MIL-125(Mo) and the spontaneous polarization of lamellar In2Se3, M-In exhibited an excellent adsorption and photodegradation performance in removal of tetracycline (TC) pollutants. The degradation rate of TC reached 94.14% within 120 min under visible light exposure in the presence of optimum ratio M-In-1. (Zuyu Li，Huifang Ma, Lihua Zang, Da Li, Shuangzhen Guo*, Linglong Shi. Separation and Purification Technology 276 (2021) 119355)

In the present study, a dark fermentation system inoculated with mixed culture bacteria (MCB) was developed with prepared alkali-based magnetic nanosheets (AMNSs) to facilitate biohydrogen (BioH2) production. The highest BioH2 yields of 232.79 ± 8.48 and 150.30 ± 4.75 mL/g glucose were observed at 100 (mesophilic condition) and 400 (thermophilic condition) mg/L AMNSs groups, which were 65.35% and 43.36%, respectively, above the 0 mg/L AMNSs group. (Xianyuan Cao , Lei Zhao，Weifang Dong，Haoe Mo, Teer Ba，Tianpeng Li，Dan Guan，Wenqian Zhao，Na Wang，Zhongmin Ma , Lihua Zang*，Bioresource Technology 343 (2022) 126141）