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Separation Science and Technology Volume 43, 2008 - Issue 7
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Original Articles

Bacterial Alginate Role in Aerobic Granular Bio‐particles Formation and Settleability Improvement

Dr. Y. M. Lin Environmental Science and Engineering College, Ocean University of China, Qingdao, China; Faculty of Life Science and Technology, Ocean University of China, ChinaCorrespondence[email protected]
,
L. Wang Environmental Science and Engineering College, Ocean University of China, Qingdao, China
,
Z. M. Chi Faculty of Life Science and Technology, Ocean University of China, China
&
X. Y. Liu Environmental Science and Engineering College, Ocean University of China, Qingdao, China
Pages 1642-1652 | Received 02 Sep 2007, Accepted 15 Jan 2008, Published online: 04 Jun 2008

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Monireh Lashkarizadeh, Qiuyan Yuan & Jan A. Oleszkiewicz. (2015) Influence of carbon source on nutrient removal performance and physical–chemical characteristics of aerobic granular sludge. Environmental Technology 36:17, pages 2161-2167.
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Hai Ling Zhang, Yue Mei Lin & Lin Wang. (2009) Biosorption of copper by calcium alginate from excess activated sludge. Environmental Technology 30:13, pages 1461-1467.
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Articles from other publishers (37)

Oscar Franchi, María Ignacia Álvarez, Juan Pablo Pavissich, Marisol Belmonte, Alba Pedrouso, Ángeles Val del Río, Anuska Mosquera-Corral & José Luis Campos. (2024) Operational variables and microbial community dynamics affect granulation stability in continuous flow aerobic granular sludge reactors. Journal of Water Process Engineering 59, pages 104951.
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David Gregory WeissbrodtDavid Gregory Weissbrodt. 2024. Engineering Granular Microbiomes. Engineering Granular Microbiomes 337 370 .
David Gregory WeissbrodtDavid Gregory Weissbrodt. 2024. Engineering Granular Microbiomes. Engineering Granular Microbiomes 37 163 .
Yufang Zhang, Weiyun Wang, Qingsi Meng, Xueshen Li, Hongjian Su, Rundong Li, Lihong Wei & Wanli Zhang. (2023) A review on comprehensive analysis and potential applications of alginate based on the extracellular polymers in sludge. Journal of Water Process Engineering 56, pages 104540.
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Run-Gen Zeng, Chen Shi, Li-Ting Hao, Ao Huang, Tian Yuan & Nan Zhang. (2023) A review of alginate-like extracellular polymers from excess sludge: Extraction, characterization, and potential application. Journal of Water Process Engineering 56, pages 104346.
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Xiaodi Hao, Hui Li, Tugui Yuan & Yuanyuan Wu. (2023) Recovering and potentially applying of alginate like extracellular polymers from anaerobic digested sludge. Science of The Total Environment 898, pages 165549.
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Xiaoping Liu, Wanying Ren, Yunbo Zhai, Yu Xie, Fashen Liang & Zhixiang Xu. (2023) Enhanced Recovery of Alginate-like Extracellular Polymers (ALE) from Waste-Activated Sludge Using Sodium Percarbonate: Performance and Characteristics. Sustainability 15:19, pages 14573.
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Shuli Liu, Miao Zhou, Glen T. Daigger, Jianping Huang & Gangfu Song. (2023) Granule formation mechanism, key influencing factors, and resource recycling in aerobic granular sludge (AGS) wastewater treatment: A review. Journal of Environmental Management 338, pages 117771.
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Longfei Chen, Yantong Liu, Pengfu Tian, Le Yu, Fang Wang, Hongshan Xu, Yifan Wang, Wei Li, Li Zheng, Fenghua Jiang, Chengjun Sun, Xuming Zhang & Yi Yang. (2023) Reconfigurable modular microbiota systems for efficient and sustainable water treatment. Chemical Engineering Journal 452, pages 139163.
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Riccardo Campo, Emiliano Carretti, Claudio Lubello & Tommaso Lotti. (2022) Recovery of structural extracellular polymeric substances (sEPS) from aerobic granular sludge: Insights on biopolymers characterization and hydrogel properties for potential applications. Journal of Environmental Management 324, pages 116247.
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Sachin Kajla, Ritu Kumari & Gurpreet Kaur Nagi. (2022) Microbial CO2 fixation and biotechnology in reducing industrial CO2 emissions. Archives of Microbiology 204:2.
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Agnieszka Cydzik-Kwiatkowska. (2021) Biopolymers in Aerobic Granular Sludge—Their Role in Wastewater Treatment and Possibilities of Re-Use in Line with Circular Economy. Energies 14:21, pages 7219.
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Ji Li, Xiaodi Hao, Wei Gan, Mark C.M. van Loosdrecht & Yuanyuan Wu. (2021) Recovery of extracellular biopolymers from conventional activated sludge: Potential, characteristics and limitation. Water Research 205, pages 117706.
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Tasso Jorge Tavares Ferreira, Silvio Luiz de Sousa Rollemberg, Amanda Nascimento de Barros, João Pedro Machado de Lima & André Bezerra dos Santos. (2021) Integrated review of resource recovery on aerobic granular sludge systems: Possibilities and challenges for the application of the biorefinery concept. Journal of Environmental Management 291, pages 112718.
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Clara de Amorim de Carvalho, Amanda Ferreira dos Santos, Tasso Jorge Tavares Ferreira, Vitor Nairo Sousa Aguiar Lira, Antônio Ricardo Mendes Barros & André Bezerra dos Santos. (2021) Resource recovery in aerobic granular sludge systems: is it feasible or still a long way to go?. Chemosphere 274, pages 129881.
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Xin Tan, Guo-Jun Xie, Wen-Bo Nie, De-Feng Xing, Bing-Feng Liu, Jie Ding & Nan-Qi Ren. (2021) High value-added biomaterials recovery from granular sludge based wastewater treatment process. Resources, Conservation and Recycling 169, pages 105481.
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Nur Shahidah Aftar Ali, Khalida Muda, Mohamad Faiz Mohd Amin, Mohamed Zuhaili Mohamed Najib, Ezerie Henry Ezechi & Mohamad S.J. Darwish. (2021) Initialization, enhancement and mechanisms of aerobic granulation in wastewater treatment. Separation and Purification Technology 260, pages 118220.
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Simon Felz, Hugo Kleikamp, Jure Zlopasa, Mark C.M. van Loosdrecht & Yuemei Lin. (2020) Impact of metal ions on structural EPS hydrogels from aerobic granular sludge. Biofilm 2, pages 100011.
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Silvio Luiz de Sousa Rollemberg, Lorayne Queiroz de Oliveira, Amanda Nascimento de Barros, Paulo Igor Milen Firmino & André Bezerra dos Santos. (2020) Pilot-scale aerobic granular sludge in the treatment of municipal wastewater: Optimizations in the start-up, methodology of sludge discharge, and evaluation of resource recovery. Bioresource Technology 311, pages 123467.
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Justyna Michalska, Artur Piński, Joanna Żur & Agnieszka Mrozik. (2020) Selecting Bacteria Candidates for the Bioaugmentation of Activated Sludge to Improve the Aerobic Treatment of Landfill Leachate. Water 12:1, pages 140.
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Ji-Lin Huang, Hao-Han Wang, Fakhri Alam & You-Wei Cui. (2019) Granulation of halophilic sludge inoculated with estuarine sediments for saline wastewater treatment. Science of The Total Environment 682, pages 532-540.
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Y. Ren, F. M. Ferraz & Q. Yuan. (2017) Biological leachate treatment using anaerobic/aerobic process: suspended growth-activated sludge versus aerobic granular sludge. International Journal of Environmental Science and Technology 15:11, pages 2295-2302.
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Carlos Enrique Escárcega-González, Javier A. Garza-Cervantes, Augusto Vázquez-Rodríguez & José Rubén Morones-Ramírez. (2018) Bacterial Exopolysaccharides as Reducing and/or Stabilizing Agents during Synthesis of Metal Nanoparticles with Biomedical Applications. International Journal of Polymer Science 2018, pages 1-15.
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Bryce A. Figdore, H. David Stensel & Mari-Karoliina H. Winkler. (2018) Comparison of different aerobic granular sludge types for activated sludge nitrification bioaugmentation potential. Bioresource Technology 251, pages 189-196.
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Abbass Jafari Kang & Qiuyan Yuan. (2017) Long-term stability and nutrient removal efficiency of aerobic granules at low organic loads. Bioresource Technology 234, pages 336-342.
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Xiling Li, Jinghai Luo, Gang Guo, Hamish R. Mackey, Tianwei Hao & Guanghao Chen. (2017) Seawater-based wastewater accelerates development of aerobic granular sludge: A laboratory proof-of-concept. Water Research 115, pages 210-219.
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Catarina L. Amorim, Irina S. Moreira, Anouk F. Duque, Mark C. M. van Loosdrecht & Paula M. L. Castro. 2017. Technologies for the Treatment and Recovery of Nutrients from Industrial Wastewater. Technologies for the Treatment and Recovery of Nutrients from Industrial Wastewater 231 263 .
Saurabh Jyoti Sarma, Joo Hwa Tay & Angus Chu. (2017) Finding Knowledge Gaps in Aerobic Granulation Technology. Trends in Biotechnology 35:1, pages 66-78.
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Monireh Lashkarizadeh, Giulio Munz & Jan A. Oleszkiewicz. (2016) Impacts of variable pH on stability and nutrient removal efficiency of aerobic granular sludge. Water Science and Technology 73:1, pages 60-68.
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Yongjia Xin, Mark W. Bligh, Andrew S. Kinsela, Yuan Wang & T. David Waite. (2015) Calcium-mediated polysaccharide gel formation and breakage: Impact on membrane foulant hydraulic properties. Journal of Membrane Science 475, pages 395-405.
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Bei Long, Chang-zhu Yang, Wen-hong Pu, Jia-kuan Yang, Ya-fei Shi, Jing Wang, Jun Bai, Xuan-yue Zhou, Guo-sheng Jiang, Chun-yang Li & Fu-biao Liu. (2014) The stability of aerobic granular sludge treating municipal sludge deep dewatering filtrate in a bench scale sequencing batch reactor. Bioresource Technology 169, pages 244-250.
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Thomas Seviour, Zhiguo Yuan, Mark C.M. van Loosdrecht & Yuemei Lin. (2012) Aerobic sludge granulation: A tale of two polysaccharides?. Water Research 46:15, pages 4803-4813.
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Kuan-Yeow Show, Duu-Jong Lee & Joo-Hwa Tay. (2012) Aerobic Granulation: Advances and Challenges. Applied Biochemistry and Biotechnology 167:6, pages 1622-1640.
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Filomena Freitas, Vitor D. Alves & Maria A.M. Reis. (2011) Advances in bacterial exopolysaccharides: from production to biotechnological applications. Trends in Biotechnology 29:8, pages 388-398.
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Duu-Jong Lee, Yu-You Chen, Kuan-Yeow Show, Chris G. Whiteley & Joo-Hwa Tay. (2010) Advances in aerobic granule formation and granule stability in the course of storage and reactor operation. Biotechnology Advances 28:6, pages 919-934.
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Yuemei Lin, Merle de Kreuk, M.C.M. van Loosdrecht & Avner Adin. (2010) Characterization of alginate-like exopolysaccharides isolated from aerobic granular sludge in pilot-plant. Water Research 44:11, pages 3355-3364.
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Sunil S. Adav, Duu-Jong Lee & Juin-Yih Lai. (2009) Treating chemical industries influent using aerobic granular sludge: Recent development. Journal of the Taiwan Institute of Chemical Engineers 40:3, pages 333-336.
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