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现代化工  2022, Vol. 42 Issue (12): 54-59    DOI: 10.16606/j.cnki.issn0253-4320.2022.12.011
  技术进展 本期目录 | 过刊浏览 | 高级检索 |
黄丝藻处理废水与生物质高值化利用研究进展
王飞飞1,2,3, 李苑虹1, 郭昱昊1, 祝振洲1, 张成武3
1. 武汉轻工大学硒科学与工程现代产业学院, 湖北 武汉 430048;
2. 南京师范大学食品与制药工程学院, 江苏 南京 210023;
3. 暨南大学热带亚热带水生态工程教育部工程研究中心, 广东 广州 510632
Treatment of wastewater by Tribonema and its high-value utilization in biomass
WANG Fei-fei1,2,3, LI Yuan-hong1, GUO Yu-hao1, ZHU Zhen-zhou1, ZHANG Cheng-wu3
1. School of Modern Industry for Selenium Science and Engineering, Wuhan Polytechnic University, Wuhan 430048, China;
2. School of Food Science and Pharmaceutical Engineering, Nanjing Normal University, Nanjing 210023, China;
3. Engineering Research Center for Tropical and Subtropical Aquatic Ecological Engineering of the Ministry of Education, Jinan University, Guangzhou 510632, China
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摘要 基于黄丝藻在二氧化碳减排、废水生物修复及生物炼制方面的优势,重点介绍了该藻对不同废水的净化效果及过程强化技术,系统阐述了影响油脂积累的因素及生物质综合利用的研究进展,归纳总结了黄丝藻处理废水的优势和挑战,在生物炼制背景下展望了黄丝藻资源化处理食品废水耦合高附加值产品生产的发展方向。
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王飞飞
李苑虹
郭昱昊
祝振洲
张成武
关键词:  黄丝藻  废水处理  生物技术  生物炼制  低碳循环    
Abstract: Based on the advantages of Tribonema in carbon dioxide emission reduction,bioremediation of wastewater and biomass biorefining,this paper focuses on the purification effect of Tribonema on different wastewater and the process enhancement technology,and systematically elaborates the factors influencing lipid accumulation and the research progress of comprehensive utilization of biomass.The advantages and challenges of Tribonema in treating with wastewater are summarized,and further prospects are given on the development direction of Tribonema in treating with food processing wastewater coupled with the production of high value-added products by Tribonema in a biorefinery concept.
Key words:  Tribonema    wastewater treatment    biotechnology    biorefining    low-carbon cycle
收稿日期:  2021-11-21      修回日期:  2022-10-11           出版日期:  2022-12-20
ZTFLH:  TH3  
基金资助: 湖北省自然科学基金项目(2021CFB224);江苏省自然科学基金项目(BK20200734);湖北省高校优秀中青年科技创新团队项目(T2020012);暨南大学热带亚热带水生态工程教育部工程研究中心开放课题(2021A0401);武汉轻工大学科研项目(2021Y06);武汉轻工大学引进(培养)人才科研启动项目(2021RZ053)
通讯作者:  祝振洲(1983-),男,博士,教授,研究方向为农副产品精深加工,通讯联系人,zhuzhenzhou@163.com。    E-mail:  zhuzhenzhou@163.com
作者简介:  王飞飞(1989-),男,博士,讲师,研究方向为微藻生物技术,twangff@whpu.edu.cn
引用本文:    
王飞飞, 李苑虹, 郭昱昊, 祝振洲, 张成武. 黄丝藻处理废水与生物质高值化利用研究进展[J]. 现代化工, 2022, 42(12): 54-59.
WANG Fei-fei, LI Yuan-hong, GUO Yu-hao, ZHU Zhen-zhou, ZHANG Cheng-wu. Treatment of wastewater by Tribonema and its high-value utilization in biomass. Modern Chemical Industry, 2022, 42(12): 54-59.
链接本文:  
https://www.xdhg.com.cn/CN/10.16606/j.cnki.issn0253-4320.2022.12.011  或          https://www.xdhg.com.cn/CN/Y2022/V42/I12/54
[1] Mahan K M,Polle J E W,Krisberg Z M,et al .Annotated genome sequence of the high-biomass-producing yellow-green alga Tribonema minus [J].Microbiology,2021,10(24):00327.
[2] 谢树莲,凌元洁.山西省的黄藻门植物[J].山西大学学报,2006,26(2):166-168.
[3] Zhou W J,Cheng W T,Wang H,et al .Strategy study on enhancing lipid productivity of filamentous oleaginous microalgae Tribonema [J].Bioresource Technology,2016,218:161-166.
[4] Wang H,Ji C L,Bi S L,et al .Joint production of biodiesel and bioethanol from filamentous oleaginous microalgae Tribonema sp.[J].Bioresource Technology,2014,172:169-173.
[5] Wang H,Zhang Y,Zhou W J,et al .Mechanism and enhancement of lipid accumulation in filamentous oleaginous microalgae Tribonema minus under heterotrophic condition[J].Biotechnology for Biofuel,2018,11(1):1-14.
[6] Zhan Y,Ji C L,Zhou W J,et al .Studies on the attached cultivation of filamentous oleaginous microalga Tribonema minus [J].Journal of Ocean University of China,2020,19(3):691-699.
[7] Chen X L,Song L,Wang H,et al .Partial characterization,the immune modulation and anticancer activities of sulfated polysaccharides from filamentous microalgae Tribonema sp.[J].Molecules,2019,24(2):322.
[8] Wang F F,Gao B Y,Dai C M,et al .Comprehensive utilization of the filamentous oleaginous microalga Tribonema utriculosum for the production of lipids and chrysolaminarin in a biorefinery concept[J].Algal Research,2020,50:101973.
[9] Zhou W J,Wang H,Chen L,et al .Heterotrophy of filamentous oleaginous microalgae Tribonema minus for potential production of lipid and palmitoleic acid[J].Bioresource Technology,2017,239:250-257.
[10] Davis A K,Andeso R S,Spierling R,et al .Characterization of a novel strain of Tribonema minus demonstrating high biomass productivity in outdoor raceway ponds[J].Bioresource Technology,2021,331:125007.
[11] Chen D J,Huo S H,Chen P F,et al .Treatment and nutrient recovery from acetophenone based wastewater by an integrated catalytic intense pulsed light and Tribonema sp.cultivation[J].Chemical Engineering and Processing-Process Intensification,2021,160:108276.
[12] Cheng P F,Chen J J,Cobb K,et al .Tribonema sp.and Chlorella zofingiensis co-culture to treat swine wastewater diluted with fishery wastewater to facilitate harvest[J].Bioresource Technology,2020,297:122516.
[13] Chen T Y,Zhang W,Zhang W L,et al .An oleaginous filamentous microalgae Tribonema minus exhibits high removing potential of industrial phenol contaminants[J].Bioresource Technology,2017,238:749-754.
[14] Huo S H,Chen J,Chen X,et al .Advanced treatment of the low concentration petrochemical wastewater by Tribonema sp.microalgae grown in the open photobioreactors coupled with the traditional Anaerobic/Oxic process[J].Bioresource Technology,2018,270:476-481.
[15] Wang F F,Chen J M,Zhang C W,et al .Resourceful treatment of cane sugar industry wastewater by Tribonema minus towards the production of valuable biomass[J].Bioresource Technology,2020,316:123902.
[16] Chen W J,Luo L,Han D X,et al .Effect of dietary supplementation with filamentous microalga Tribonema ultriculosum on growth performance,fillet quality and immunity of rainbow trout Oncorhynchus mykiss [J].Aquaculture Nutrition,2021,27(4):1232-1243.
[17] Zhao W,Fang H H,Gao B Y,et al .Dietary Tribonema sp.supplementation increased growth performance,antioxidant capacity,immunity and improved hepatic health in golden pompano (Trachinotus ovatus )[J].Aquaculture,2020,529:735667.
[18] Wang F F,Gao B Y,Su M,et al .Integrated biorefinery strategy for tofu wastewater biotransformation and biomass valorization with the filamentous microalga Tribonema minus [J].Bioresource Technology,2019,292:121938.
[19] Huo S H,Chen X,Zhu F F,et al .Magnetic field intervention on growth of the filamentous microalgae Tribonema sp.in starch wastewater for algal biomass production and nutrients removal:Influence of ambient temperature and operational strategy[J].Bioresource Technology,2020,303:122884.
[20] Huo S H,Chen J,Zhu F F,et al .Filamentous microalgae Tribonema sp.cultivation in the anaerobic/oxic effluents of petrochemical wastewater for evaluating the efficiency of recycling and treatment[J].Biochemical Engineering Journal,2019,145:27-32.
[21] Cheng P F,Chen D J,Liu W,et al .Auto-flocculation microalgae species Tribonema sp.and Synechocystis sp.with T-IPL pretreatment to improve swine wastewater nutrient removal[J].Science of The Total Environment,2020,725:138263.
[22] Huo S H,Liu J Z,Basheer S J,et al .Post treatment of swine anaerobic effluent by weak electric field following intermittent vacuum assisted adjustment of N:P ratio for oil-rich filamentous microalgae production[J].Bioresource Technology,2020,314:123718.
[23] Huo S H,Basheer S J,Liu F,et al .Bacterial intervention on the growth,nutrient removal and lipid production of filamentous oleaginous microalgae Tribonema sp.[J].Algal Research,2020,52:102088.
[24] Wang H,Ji B,Wang J F,et al .Growth and biochemical composition of filamentous microalgae Tribonema sp.as potential biofuel feedstock[J].Bioprocess and Biosystems Engineering,2014,37(12):2607-2613.
[25] 冯倩,王琳,蔡忠贞,等.碳氮源和盐度对异养黄丝藻脂肪酸产量的影响[J].安徽农业学科,2019,47(12):98-103.
[26] 张婷,何青,徐梓钧,等.不同营养盐及浓度对黄丝藻Tribonema sp.FACHB-1786生长及脂质积累的影响[J].生物工程学报,2020,36(11):2478-2493.
[27] 徐梓钧,胡强,刘国祥,等.囊状黄丝藻在不同初始氮浓度条件下特殊的油脂积累规律[J].植物科学学报,2018.36(3):411-419.
[28] Guo F J,Wang H,Wang J F,et al .Special biochemical responses to nitrogen deprivation of filamentous oleaginous microalgae Tribonema sp.[J].Bioresource Technology,2014,158:19-24.
[29] Wang H,Gao L L,Chen L,et al .Integration process of biodiesel production from filamentous oleaginous microalgae Tribonema minus [J].Bioresource Technology,2013,142:39-44.
[30] Wang F F,Cao Y,Zhu Z Z,et al .Physicochemical characteristics of cellulose nanocrystals derived from the residue of filamentous microalga Tribonema utriculosum [J].Applied Biochemistry and Biotechnology,2021,193:2430-2442.
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