张庆华,男,教授,博士,硕士生导师,yl23455永利官方“未来之星”,江西省高层次高技能领军人才,江西省杰出青年人才资助计划入选者,yl23455永利副经理,国家自然科学基金通讯评审专家,江西省科技成果奖评审专家,江西自然科学基金重大项目评审专家,留美归国人员。主持国家自然科学基金4项、省部级项目8项,江西省教育厅科技项目2项,企业横向课题5项。现为Bioresource Technology、Journal of Hazardous Materials等国内外期刊的特邀审稿人,近年来先后在Bioresource Technology、Journal of Hazardous Materials、Journal of cleaner production、环境科学学报等国内外主流刊物上发表论文60余篇,其中第一及通讯作者SCI论文31篇(JCR一区论文20篇),累积总影响因子达199,申请/授权发明专利4项,以第一完成人身份荣获江西省自然科学奖三等奖1项。E -mail:zqh_net@163.com
主要研究方向:
环境微生物的作用机制、废弃物的生物降解与高效转化、生物质能源、微生物发酵技术
教育经历:
2009/9–2012/11, 江南大学,发酵工程,博士
2003/9–2006/6, 湖北工业大学,发酵工程,硕士
1998/9–2002/6, 湖北工学院,生物工程,学士
主讲课程:
硕士研究生:生物工艺学、发酵工艺与生物制药、生化工程研究进展
本科生:生物工艺学、发酵工程设备、发酵工程、生物工程专业实验一
获奖情况:
张庆华,毛忠贵,朱向东,唐蕾. 木薯染料乙醇“零污染、低能耗”制造关键技术及其相关机理研究,2019年度江西省自然科学奖三等奖。
主持科研项目情况:
1、国家自然科学基金《嗜热厌氧芽孢杆菌的偶氮染料降解分子机制及代谢途径解析》,2019-2022年,48万,主持。
2、国家自然科学基金《多组学整合精准解析复合菌群高效降解硫氰酸盐的作用机制》,2022-2025年,40.8万,主持。
3、国家自然科学基金《嗜热微好氧偶氮染料降解复合菌系的高效降解机制解析》,2017-2020年,46.8万,主持。
4、国家自然科学基金《一组高效纤维素降解复合菌系的关键降解因子及其作用机制研究》,2013-2016年,50万,主持。
5、江西省高层次高技能领军人才,2023-2025年,20万,主持。
6、江西省杰出青年人才资助计划项目,2017-2019年,15万,主持。
7、江西省自然科学基金重点项目《多组学整合精准解析硫氰酸盐高效降解复合菌群的作用机制》,2021-2024年,20万,主持。
8、江西省重点研发专项项目《农业废弃物生物转化腐殖土育苗基质高值化关键技术》,2019-2021年,10万,主持。
9、江西省自然科学基金《嗜热偶氮染料高效降解复合菌系的微生物学机制研究》,2015-2017年,5万,主持。
10、江西省科技支撑计划项目《农业废弃物协同高效生物处置与沼气资源化关键技术研究》,2015-2017年,15万,主持。
11、江西省自然科学基金《一组高效纤维素降解复合菌系的关键降解因子研究》,2012-2013年,2.5万,主持。
12、江西省教育厅重点项目《农业废弃物高效转化生物有机肥关键技术研究,2019-2021年,5万,主持。
13、江西省教育厅科技项目《嗜热偶氮染料降解复合菌系的关键功能菌及降解工艺研究》,2014-2016年,2.5万,主持。
14、江西省教育厅教改重点项目《生物工程专业多层次递进式实验教学模式的创新与探索——以yl23455永利官方为例》,2017-2019年,2.0万,主持。
15、江西省教育厅教改项目《新工科背景下农林院校生物工程专业课程思政的实施路径探究》,2022-2024年,0.5万,主持。
16、横向课题:焦化废水活性污泥菌株优化,2018-2019年,10万,主持。
17、横向课题:焦化废水生物脱色工艺研究,2019-2021年,15万,主持。
18、横向课题:焦化废水处理菌剂的开发及规模化生产研究,2021-2023年,15万元,主持。
19、横向课题:焦化废水COD降解菌剂的制备、大规模生产与生物强化研究,2021-2023年,20万元,主持。
20、横向课题:焦化废水硫代硫酸盐降解菌剂的制备与生物强化研究,2022-2023,3万元,主持。
代表性研究成果:
1. Molecular response of Anoxybacillus sp. PDR2 under azo dye stress: An integrated analysis of proteomics and metabolomics. Journal of hazardous materials, 2022, 438: 129500. (SCI, IF=14.224, 通讯作者)
2. Novel thermo-alkali-stable cellulase-producing Serratia sp. AXJ-M cooperates with Arthrobacter sp. AXJ-M1 to improve degradation of cellulose in papermaking black liquor. Journal of hazardous materials, 2022, 421: 126811. (SCI, IF=14.224,通讯作者)
3. Effect of bioaugmentation on lignocellulose degradation and antibiotic resistance genes removal during biogas residues composting. Bioresource Technology. 2021, 340: 125742. (SCI, IF=11.889,通讯作者)
4. Evaluation of bioremediation and detoxification potentiality for papermaking black liquor by a new isolated thermophilic and alkali-tolerant Serratia sp. AXJ-M. Journal of hazardous materials, 2021, 406: 124285. (SCI, IF=14.224, 通讯作者)
5. Effect of bioaugmentation on lignocellulose degradation and antibiotic resistance genes removal during biogas residues composting. Bioresource Technology. 2021, 340: 125742. (SCI, IF=11.889,通讯作者)
6. Cellulolytic bacterium characterization and genome functional analysis: an attempt to lay the foundation for waste management. Bioresource Technology, 2021, 321: 124462. (SCI, IF=11.889,通讯作者)
7. Deep eutectic solvent assists Bacillus australimaris to transform alkali lignin waste into small aromatic compounds. Journal of cleaner production, 2021, 320: 128719. (SCI, IF=11.072,通讯作者)
8. A newly developed consortium with a highly efficient thiocyanate degradation capacity: A comprehensive investigation of the degradation and detoxification potential, Environmental Pollution, 2023, 318: 120878. (SCI, IF=9.988,通讯作者)
9. Detoxification of azo dye Direct Black G by thermophilic Anoxybacillus sp. PDR2 and its application potential in bioremediation. Ecotoxicology and Environmental Safety, 2021, 214: 112084. (SCI, IF=7.129,通讯作者)
10. Anaerobic co-digestion of rice straw and pig manure pretreated with a cellulolytic microflora: methane yield evaluation and kinetics analysis. Frontiers in Bioengineering and Biotechnology, 2021, 8: 579405. (SCI, IF=6.064, 通讯作者)
11. Effect of organic loading rate on anaerobic co-digestion of rice straw and pig manure with or without biological pretreatment. Bioresource Technology. 2018, 250:155–162. (SCI, IF=6.669,通讯作者)
12. Biodegradation and detoxification of Direct Black G textile dye by a newly isolated thermophilic microflora. Bioresource Technology. 2018, 250: 650–657. (SCI, IF=6.669,通讯作者)
13. Insight into the Characteristics and New Mechanism of Nicosulfuron Biodegradation by a Pseudomonas sp. LAM1902. Journal of Agricultural and Food Chemistry. 2020, 68:826−837 (SCI, IF=5.279,通讯作者)
14. Integrated metagenomic and metaproteomic analyses reveal potential degradation mechanism of azo dye-Direct Black G by thermophilic microflora. Ecotoxicology and Environmental Safety. 2020, 196C:110557 (SCI, IF=6.291,通讯作者)
15. Genome and transcriptome analysis of a newly isolated azo dye degrading thermophilic strain Anoxybacillus sp. Ecotoxicology and Environmental Safety. 2020, 203C:111047 (SCI, IF=6.291,通讯作者)
16. Comparative assessment of the methanogenic steps of single and two-stage processes without or with a previous hydrolysis of cassava distillage. Bioresource Technology. 2013, 147: 1–6. (SCI, IF=5.039,第一作者和通讯作者)
17. Exploration of the key microbes involved in the cellulolytic activity of a microbial consortium by serial dilution. Bioresource Technology. 2013, 132: 395–400. (SCI, IF=5.039,第一作者和通讯作者)
18. Recent advances in the treatment of lignin in papermaking wastewater. World Journal of Microbiology and Biotechnology, 2022, 38:116. (SCI, IF=4.253,通讯作者)
19. Optimization of thermal-dilute sulfuric acid pretreatment for enhancement of methane production from cassava residues. Bioresource Technology. 2011, 102: 3958–3965. (SCI, IF=4.980,第一作者)
20. Enhancement of methane production from cassava residues by biological pretreatment using a constructed microbial consortium. Bioresource Technology. 2011, 102: 8899–8906. (SCI, IF=4.980,第一作者)
21. A novel full recycling process through two-stage anaerobic treatment of distillery wastewater for bioethanol production from cassava. Journal of Hazardous Materials. 2010, 179: 635–641. (SCI, IF=3.723,第一作者)
22. Establishment and assessment of a novel bioethanol and efficient biogas coupling fermentation system integrated with the pretreatment of a cellulolytic microbial consortium. Journal of cleaner production, 2014, 83:142-150. (SCI, IF=3.844,第一作者和通讯作者)
23. Enhanced butanol production by solvent tolerance Clostridium acetobutylicum SE25 from cassava flour in a fibrous bed bioreactor. Bioresource Technology, 2016, 221:412-418. (SCI, IF=5.651,通讯作者)
24. Enhancement of butanol production in Clostridium acetobutylicum SE25 through accelerating phase shift by different phases pH regulation from cassava flour. Bioresource Technology,2016, 201:148-155. (SCI, IF=5.651,通讯作者)
25. Exploration of the key functional proteins from an efficient cellulolytic microbial consortium using dilution-to-extinction approach. Journal of Environmental Sciences. 2016, 43: 199-207. (SCI, IF=2.865,第一作者和通讯作者)
26. Exploration of the key functional strains from an azo dye degradation microbial community by DGGE and high-throughput sequencing technology. Environmental Science and Pollution Research, 2019, 26: 24658- 24671 (SCI, IF=2.9,通讯作者)
27. Cellulolytic Microflora Pretreatment Increases the Efficiency of Anaerobic Co-digestion of Rice Straw and Pig Manure. BioEnergy Research, 2019, 12:703–713 (SCI, IF=2.5,通讯作者)
28. Treatment of thiocyanate‑containing wastewater: a critical review of thiocyanate destruction in industrial effluents. World Journal of Microbiology and Biotechnology, 2023, 39:35. (SCI, IF=4.253,通讯作者)
29. Effect of moisture content on the evolution of bacterial communities and organic matter degradation during bioaugmented biogas residues composting. World Journal of Microbiology and Biotechnology, 2023, 39:1. (SCI, IF=4.253,通讯作者)