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学者姓名:戴昆
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Abstract :
The waste activated sludge (WAS) exhibits typical viscoelasticity due to the presence of viscous and gelling organics in extracellular polymeric substances (EPS). However, the positive role of reducing viscosity in WAS fermentation by degrading viscous polysaccharides has been historically overlooked. This work demonstrates the occurrence of viscous hyaluronan-like polysaccharides in the WAS for the first time. Approximately 6.8 % of bacteria, such as Zoogloea (1.0 %), were identified as the potential producers. The viscosity of hyaluronan could be significantly reduced by 99 % within 1 hour by the oriented hyaluronan-degrading consortium (HDC), and a reduction of 20 % was also observed for WAS after 24 h. This resulted in a 18 % improvement in methane production and a 35 % improvement in the maximum production rate in WAS fermentation. The conversion of viscous hyaluronan was mainly through the hyaluronan lyase (EC 4.2.2.1) dependent pathway. An unfamiliar genus of Paludibacter (9.6 %) was identified as a key bacterium, responsible for excreting five extracellular enzymes of EC 4.2.2.1, EC 3.2.1.35, EC 3.2.1.31, EC 3.2.1.52, and EC 3.2.1.180. Consequently, this study has elucidated reducing viscosity as a substantial factor in WAS fermentation by the oriented HDC, thus providing a novel paradigm to enhance methane production.
Keyword :
Hyaluronan lyase Hyaluronan lyase Methane production Methane production Viscosity reduction Viscosity reduction Viscous hyaluronan-like polysaccharides Viscous hyaluronan-like polysaccharides Waste activated sludge Waste activated sludge
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| GB/T 7714 | Hu, Yan-Lin , Dai, Kun , Wang, Qing-Ting et al. Viscosity is a nonnegligible factor in the waste activated sludge fermentation: Taking hyaluronan as an example [J]. | WATER RESEARCH , 2025 , 279 . |
| MLA | Hu, Yan-Lin et al. "Viscosity is a nonnegligible factor in the waste activated sludge fermentation: Taking hyaluronan as an example" . | WATER RESEARCH 279 (2025) . |
| APA | Hu, Yan-Lin , Dai, Kun , Wang, Qing-Ting , Zhou, Chen-Yuan , Huang, Xing-Chen , Yang, Xiao-Fei et al. Viscosity is a nonnegligible factor in the waste activated sludge fermentation: Taking hyaluronan as an example . | WATER RESEARCH , 2025 , 279 . |
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The hydrolysis of structural extracellular polymeric substances (St-EPS) is considered a major limiting step in the anaerobic fermentation of waste activated sludge (WAS). However, the degradation of heteropolysaccharides, characterized by complex monomers of uronic acids and neutral saccharides in St-EPS, has rarely been reported. In this study, microbial-produced xanthan-like heteropolysaccharides, characterized by a blue filamentary film, were identified. The xanthan-producing bacteria comprised similar to 7.2% of total genera present in WAS. An xanthandegrading consortium (XDC) was enriched in an anaerobic batch reactor. This consortium could degrade Xanthan for over 90% and disrupt the gel structure of xanthan while promoting methane production from WAS by 29%. The xanthan degradation network consisting of extracellular enzymes and bacteria was elucidated by combining high-throughput sequencing, metagenomic, and metaproteomic analyses. Five enzymes were identified as responsible for hydrolyzing xanthan to monomers, including xanthan lyase, (beta-D-glucosidase, (beta-D-glucanase, alpha-D- mannosidase, and unsaturated glucuronyl hydrolase. Seven genera, including Paenibacillus (0.2%) and Clostridium (3.1%), were identified as key bacteria excreting one to five of the aforementioned enzymes. This study thus provides insights into the complex conversions in anaerobic digestion of WAS and gives a foundation for future optimization of this process.
Keyword :
Degradation network Degradation network Heteropolysaccharides Heteropolysaccharides Methane production Methane production Xanthan-degrading consortium Xanthan-degrading consortium Xanthan lyase Xanthan lyase
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| GB/T 7714 | Zhou, Chen-Yuan , Dai, Kun , Lin, Yi-Peng et al. Elucidating the complex hydrolysis and conversion network of xanthan-like extracellular heteropolysaccharides in waste activated sludge fermentation [J]. | WATER RESEARCH X , 2025 , 27 . |
| MLA | Zhou, Chen-Yuan et al. "Elucidating the complex hydrolysis and conversion network of xanthan-like extracellular heteropolysaccharides in waste activated sludge fermentation" . | WATER RESEARCH X 27 (2025) . |
| APA | Zhou, Chen-Yuan , Dai, Kun , Lin, Yi-Peng , Huang, Xing-Chen , Hu, Yan-Lin , Chen, Xuan-Xin et al. Elucidating the complex hydrolysis and conversion network of xanthan-like extracellular heteropolysaccharides in waste activated sludge fermentation . | WATER RESEARCH X , 2025 , 27 . |
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本发明公开了一种厌氧降解生物质生产甲烷和有机酸的微生物菌群及其培养方法与应用,其中微生物菌群包括:5%‑30%Clostridium属、2%‑10%Paludibacter属、1%‑25%Thermovirga属、2%‑20%DMER64属、2%‑20%Mesotoga属、1%‑10%Methanosaeta以及1%‑10%Methanobacterium;该菌群的培养方法,包括:S1:取果胶、秸秆、落叶,烘干后用研钵将秸秆研磨至粉末状;S2:将果胶降解菌和剩余污泥混合接种于培养瓶中,加入培养基,并在培养基中加入步骤S1得到的粉末;S3:通入氮气和二氧化碳的混合气体,密封培养瓶,在温度为30~38℃的条件下连续培养30~100天,进行果胶、纤维素水解菌群富集;该微生物菌群能够快速水解转化秸秆和落叶等生物质为甲烷、乙酸、丙酸、丁酸或己酸产品;相对于碱处理、高温处理等常规预处理方式具有产量高、运行条件温和运行成本低等优势。
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| GB/T 7714 | 张放 , 曹玉尔 , 戴昆 et al. 一种厌氧降解生物质生产甲烷和有机酸的微生物菌群及其培养方法与应用 : CN202510115408.1[P]. | 2025-01-24 . |
| MLA | 张放 et al. "一种厌氧降解生物质生产甲烷和有机酸的微生物菌群及其培养方法与应用" : CN202510115408.1. | 2025-01-24 . |
| APA | 张放 , 曹玉尔 , 戴昆 , 宋梁 , 曾建雄 . 一种厌氧降解生物质生产甲烷和有机酸的微生物菌群及其培养方法与应用 : CN202510115408.1. | 2025-01-24 . |
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本发明公开了一种厌氧降解红藻加工废水的微生物菌群及其培养方法与应用,微生物菌群的培养方法,包括:将将含有海藻酸钠降解菌和剩余污泥(1:1)的混合微生物接种于培养瓶中,加入培养基,并在培养基中加入琼脂和卡拉胶粉末,通入过量的氮气,密封培养瓶,在温度为34~36℃的条件下连续培养60天(10天为1周期),进行厌氧降解红藻加工废水的微生物菌群富集。该微生物菌群能够将红藻加工废水高度降解转化为产物甲烷,相对于碱处理、高温处理等常规预处理方式具有产量高、运行条件温和运行成本低等优势。
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| GB/T 7714 | 张放 , 戴昆 , 林青松 et al. 一种厌氧降解红藻加工废水的微生物菌群及其培养方法与应用 : CN202510350655.X[P]. | 2025-03-24 . |
| MLA | 张放 et al. "一种厌氧降解红藻加工废水的微生物菌群及其培养方法与应用" : CN202510350655.X. | 2025-03-24 . |
| APA | 张放 , 戴昆 , 林青松 , 曾建雄 . 一种厌氧降解红藻加工废水的微生物菌群及其培养方法与应用 : CN202510350655.X. | 2025-03-24 . |
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The hydrogen bond confers the structural recalcitrance of insoluble exopolysaccharides, but its role in the anaerobic fermentation of waste activated sludge (WAS) is seldom reported. As a typical high-molecular-weight exopolysaccharide with poor solubility, chondroitin sulfate (CS) was used to elucidate the role of hydrogen bonds in WAS fermentation. The chondroitin sulfate-degrading consortium (CSDC) was enriched for 180 days, but the methane production was limited (similar to 18%). The methane production was significantly improved by 88.2%, and extracellular enzyme activity increased by 11.8% after the fast acidic pretreatment of CS. The disruption of the hydrogen bond was confirmed by combining 41.6% reduction of particle size, 46.7% decrease of surface height, blue shifts in the O-H vibrational spectra, and 38.1% decline of interfacial free energy. The molecular dynamics simulation further showed that the hydrogen bond number after the fast acidic pretreatment was reduced from 51.4 +/- 2.7 to 44.9 +/- 2.1. Co-occurrence network analysis identified Thermovirga as a keystone taxon to facilitate microbial cooperation. The metagenomics and metaproteomics analyses revealed that Proteiniphilum and Mariniphaga served as key producers of extracellular CS-degrading enzymes, primarily CS lyase (EC 4.2.2.5). Above all, these findings demonstrate that the hydrogen bond represents a non-negligible structural constraint on the degradability of insoluble exopolysaccharides.
Keyword :
chondroitin sulfate chondroitin sulfate co-occurrence network analysis co-occurrence network analysis hydrogen bond hydrogen bond insoluble exopolysaccharides insoluble exopolysaccharides metagenomics and metaproteomics metagenomics and metaproteomics
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| GB/T 7714 | Huang, Xing-Chen , Zheng, Si-Jie , Hu, Yan-Lin et al. Comprehensive Insights into the Role of Hydrogen Bonds in the Anaerobic Fermentation of Insoluble Exopolysaccharides in Waste Activated Sludge: Taking Chondroitin Sulfate as an Example [J]. | ENVIRONMENTAL SCIENCE & TECHNOLOGY , 2025 , 59 (48) : 26281-26291 . |
| MLA | Huang, Xing-Chen et al. "Comprehensive Insights into the Role of Hydrogen Bonds in the Anaerobic Fermentation of Insoluble Exopolysaccharides in Waste Activated Sludge: Taking Chondroitin Sulfate as an Example" . | ENVIRONMENTAL SCIENCE & TECHNOLOGY 59 . 48 (2025) : 26281-26291 . |
| APA | Huang, Xing-Chen , Zheng, Si-Jie , Hu, Yan-Lin , Cao, Yu-Er , Liu, Ying-Ying , Dai, Kun et al. Comprehensive Insights into the Role of Hydrogen Bonds in the Anaerobic Fermentation of Insoluble Exopolysaccharides in Waste Activated Sludge: Taking Chondroitin Sulfate as an Example . | ENVIRONMENTAL SCIENCE & TECHNOLOGY , 2025 , 59 (48) , 26281-26291 . |
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The degradation of organic-metal complexes in waste activated sludge (WAS) offers a new avenue to recover CH4. However, the degradability of these complexes limited by the bonding strength has been historically overlooked. This work demonstrated that the bonding strength of polygalacturonate (PGA, a typical uronic acid in WAS)-metal complexes formed with various metal ions followed Fe3+ > Ca2+ > Mg2+ > Na+ by density functional theory calculations and other chemical analyses. Fe3+ with strong bonding was revealed as the key ion to reduce the activities of both polygalacturonate lyase (EC 4.2.2.2 and EC 4.2.2.9, >48.3%) and polygalacturonase (EC 3.2.1.15, >74.1%) secreted from the enriched polygalacturonate-degrading consortium (GDC), thereby notably reducing CH4 production (64.1-86.8%) and accumulating minor VFAs (0.85-0.97 g/L) from PGA. Interestingly, the activities of polygalacturonate lyase and polygalacturonase were not reduced notably by the weakly bound Mg2+, Ca2+, Fe2+, and iron compounds (Fe2O3, Fe(OH)(3), and Fe3O4). Furthermore, the restriction of these weakly bound ions on the anaerobic digestion of PGA could be ignored, achieving CH4 production similar to that of the control group. Thus, this work revealed that the PGA-metal complex formed by weak bonding strength could be utilized when using the microbial method without any chemical pretreatments.
Keyword :
biodegradability biodegradability bonding strength bonding strength CH4 production CH4 production polygalacturonate-metalcomplex polygalacturonate-metalcomplex waste activated sludge waste activated sludge
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| GB/T 7714 | Yang, Xiao-Fei , Hong, Si-Di , Liu, Jun-Yan et al. Uncovering the Hindering Effect of Bonding Strength in Polygalacturonate-Metal Complexes on Methane Production from Waste Activated Sludge [J]. | ACS ES&T ENGINEERING , 2025 . |
| MLA | Yang, Xiao-Fei et al. "Uncovering the Hindering Effect of Bonding Strength in Polygalacturonate-Metal Complexes on Methane Production from Waste Activated Sludge" . | ACS ES&T ENGINEERING (2025) . |
| APA | Yang, Xiao-Fei , Hong, Si-Di , Liu, Jun-Yan , Li, Le-Hui , Huang, Xing-Chen , Liu, Yingying et al. Uncovering the Hindering Effect of Bonding Strength in Polygalacturonate-Metal Complexes on Methane Production from Waste Activated Sludge . | ACS ES&T ENGINEERING , 2025 . |
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Medium-chain fatty acids (MCFA) are scarcely produced when waste activated sludge (WAS) is used as the sole substrate, limiting their practical development. Production typically requires external electron donors following chemical or physical pretreatments. This study demonstrates that an enriched MCFA-producing consortium (MPC) can initiate MCFA production from WAS without any external electron donors. In the WAS group, the COD conversion ratios from WAS to SCFA (short-chain fatty acids) and MCFA were 6.0% and 0%, respectively. After dosing MPC in WAS, these ratios increased to 20.7% and 4.6%, respectively. These results were attributed to the higher hydrolytic activity in MPC compared to WAS; for instance, the relative activity of alginate lyase in WAS was only 2.8% of that in MPC. Bacteroides (33.1%) was identified as the key bacterium in MPC due to its role in secreting multihydrolases and intracellular enzymes to degrade uronic acids. Conversion of the hydrolysates to MCFA occurred predominantly via the fatty acid biosynthesis (FAB) pathway, as evidenced by the comprehensive identification of FAB-related genes and active enzymes via multiomics analysis. The initiating mechanism is thus attributed to the high activity of both multihydrolases and the FAB pathway without external electron donors. Overall, this study demonstrates the oriented microbial method, coupling the hydrolytic efficiency of FAB-related bacteria and the favorable thermodynamics of the reverse beta-oxidation (RBO) pathway in the future, to support the recovery of MCFA from WAS.
Keyword :
FAB pathway FAB pathway medium-chain fatty acids medium-chain fatty acids no externalelectron donors no externalelectron donors oriented microbialhydrolysis oriented microbialhydrolysis waste activated sludge waste activated sludge
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| GB/T 7714 | Liu, Jun-Yan , Dai, Kun , Lin, Qing-Song et al. Initiating the Caproate Production from Waste Activated Sludge without External Electron Donors by the Oriented Microbial Hydrolysis [J]. | ENVIRONMENTAL SCIENCE & TECHNOLOGY , 2025 , 59 (48) : 26303-26312 . |
| MLA | Liu, Jun-Yan et al. "Initiating the Caproate Production from Waste Activated Sludge without External Electron Donors by the Oriented Microbial Hydrolysis" . | ENVIRONMENTAL SCIENCE & TECHNOLOGY 59 . 48 (2025) : 26303-26312 . |
| APA | Liu, Jun-Yan , Dai, Kun , Lin, Qing-Song , Yang, Xiao-Fei , Huang, Xing-Chen , Lin, Jing et al. Initiating the Caproate Production from Waste Activated Sludge without External Electron Donors by the Oriented Microbial Hydrolysis . | ENVIRONMENTAL SCIENCE & TECHNOLOGY , 2025 , 59 (48) , 26303-26312 . |
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Wastewater treatment plants (WWTPs) are being challenged to operate as carbon-neutral and energy-efficient systems. The structural extracellular polymeric substances (St-EPS) in waste-activated sludge (WAS), such as alginate, were revealed to form an architectural gel matrix, hindering the psychrophilic hydrolysis and acidogenesis and its application in nitrate removal. Consequently, volatile fatty acid (VFAs) production for nitrate removal at 15 degree celsius is demonstrated by a novel, enriched psychrophilic consortium for alginate-degrading and nitrate-removing. Both alginate lyase (EC 4.2.2.3) and oligo-alginate lyase (EC 4.2.2.26) are identified for alginate utilization by the metaproteomics analysis. A high nitrate removal rate of 7.6 (WAS as the substrate) to 13.0 (alginate as the substrate) mgN/(gVSS h) was achieved. By combining high-throughput and PacBio sequencing and metagenomics analysis, two genera of Bacteroides (69.4%) and Dysgonomons (12.8%) are revealed to enhance psychrophilic WAS fermentation. The VFAs can be utilized by denitrifiers for nitrate removal in an indirect pathway. Moreover, other genera of denitrifiers (Pseudomonas, 0.11%; and Massilla, 0.003%) can excrete alginate lyase, indicating the dual merits of St-EPS degradation and nitrate removal in the direct pathway. This work extends the application of WAS for denitrifiers, providing a new carbon-neutral and energy-efficient system in WWTPs, especially under psychrophilic conditions.
Keyword :
metagenomics metagenomics metaproteomics metaproteomics nitrate removal nitrate removal psychrophilic consortium of alginate-degrading and nitrate-removing psychrophilic consortium of alginate-degrading and nitrate-removing structural extracellular polymeric substances structural extracellular polymeric substances waste-activatedsludge waste-activatedsludge
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| GB/T 7714 | Wang, Yi-Bo , Tang, Jie , Yan, Yang et al. Uncovering the Nonnegligible Mechanism of Degrading Structural Extracellular Polymeric Substances for Nitrate Removal in Psychrophilic (15 degree celsius) Waste-Activated Sludge Fermentation [J]. | ACS ES&T WATER , 2024 , 4 (5) : 2270-2280 . |
| MLA | Wang, Yi-Bo et al. "Uncovering the Nonnegligible Mechanism of Degrading Structural Extracellular Polymeric Substances for Nitrate Removal in Psychrophilic (15 degree celsius) Waste-Activated Sludge Fermentation" . | ACS ES&T WATER 4 . 5 (2024) : 2270-2280 . |
| APA | Wang, Yi-Bo , Tang, Jie , Yan, Yang , Hong, Si-Di , Zheng, Si-Jie , Huang, Xing-Chen et al. Uncovering the Nonnegligible Mechanism of Degrading Structural Extracellular Polymeric Substances for Nitrate Removal in Psychrophilic (15 degree celsius) Waste-Activated Sludge Fermentation . | ACS ES&T WATER , 2024 , 4 (5) , 2270-2280 . |
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Biodegradable flocculants are rarely used in waste activated sludge (WAS) fermentation. This study introduces an alginate-based biodegradable flocculant (ABF) to enhance both the dewatering and degradation of WAS during its fermentation. Alginate was identified in structural extracellular polymeric substances (St-EPS) of WAS, with alginate-producing bacteria comprising similar to 4.2% of the total bacterial population in WAS. Owing to its larger floc size, higher contact angle, and lower free energy resulting from the Lewis acid-base interaction, the addition of the prepared ABF with a network structure significantly improved the dewaterability of WAS and reduced capillary suction time (CST) by 72%. The utilization of ABF by an enriched alginate-degrading consortium (ADC) resulted in a 35.5% increase in the WAS methane yield owing to its higher hydrolytic activity on both ABF and St-EPS. Additionally, after a 30 day fermentation, CST decreased by 62% owing to the enhanced degradation of St-EPS (74.4%) and lower viscosity in the WAS + ABF + ADC group. The genus Bacteroides, comprising 12% of ADC, used alginate lyase (EC 4.2.2.3) and pectate lyase (EC 4.2.2.2 and EC 4.2.2.9) to degrade alginate and polygalacturonate in St-EPS, respectively. Therefore, this study introduces a new flocculant and elucidates its dual roles in enhancing both the dewaterability and degradability of WAS. These advancements improve WAS fermentation, resulting in higher methane production and lower CSTs.
Keyword :
alginate-based biodegradable flocculant alginate-based biodegradable flocculant anaerobic digestion anaerobic digestion degradability degradability dewaterability dewaterability waste activated sludge waste activated sludge
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| GB/T 7714 | Wang, Yi-Bo , Tang, Jie , Ran, Dan-Di et al. Deciphering the Dual Roles of an Alginate-Based Biodegradable Flocculant in Anaerobic Fermentation of Waste Activated Sludge: Dewaterability and Degradability [J]. | ENVIRONMENTAL SCIENCE & TECHNOLOGY , 2024 , 58 (32) : 14282-14292 . |
| MLA | Wang, Yi-Bo et al. "Deciphering the Dual Roles of an Alginate-Based Biodegradable Flocculant in Anaerobic Fermentation of Waste Activated Sludge: Dewaterability and Degradability" . | ENVIRONMENTAL SCIENCE & TECHNOLOGY 58 . 32 (2024) : 14282-14292 . |
| APA | Wang, Yi-Bo , Tang, Jie , Ran, Dan-Di , Zhu, Xiao-Mei , Zheng, Si-Jie , Hong, Si-Di et al. Deciphering the Dual Roles of an Alginate-Based Biodegradable Flocculant in Anaerobic Fermentation of Waste Activated Sludge: Dewaterability and Degradability . | ENVIRONMENTAL SCIENCE & TECHNOLOGY , 2024 , 58 (32) , 14282-14292 . |
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The structural extracellular polymeric substances (St-EPS) present in waste activated sludge (WAS) play a pivotal role in maintaining the floc structure. Thermal hydrolysis pretreatment (THP) is a well-established technology to release the organics from WAS. However, the dissolution of St-EPS by THP and their inhibition of melanoidins products (MPs) on CH4 production remain unclear. The findings demonstrated that THP damaged the WAS structure, with a notable increase in the soluble St-EPS from 0.02 to 0.26 g/L and SCOD from 0.6 to 3.8 g/L at 200 degrees C, respectively. Additionally, the particle size (D50) of WAS also decreased from 105.3 mu m (control) to 61.1 mu m. However, the dark-color MPs were produced from the typical components of St-EPS. As humic-like organics, the produced MPs above 160 degrees C reduced methane production by 19.2% (MPs160) and 55.1% (MPs200). Especially, the produced MPs under 200 degrees C inhibited the hydrolase activity of polygalacturonate lyase (14.9%), polygalacturonate hydrolase (5.4%), glucosidase (5.6%), and protease (29.7%). The produced MPs also altered the microbial structure of both hydrolytic acidogens and methanogens. In a word, although THP offers the positive effects of damaging St-EPS and releasing SCOD, further assessment is still required to optimize the treating conditions to balance the negative effects in the future.
Keyword :
Anaerobe Anaerobe Hydrolase Hydrolase Melanoidins products Melanoidins products Structural extracellular polymeric substances Structural extracellular polymeric substances Thermal hydrolysis pretreatment Thermal hydrolysis pretreatment
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| GB/T 7714 | Hong, Si-Di , Wang, Shuai , Yang, Xiao-Fei et al. Comprehensive insights into the refractory melanoidins production from structural extracellular polymeric substances via thermal hydrolysis pretreatment and the inhibition on anaerobic fermentation [J]. | CHEMICAL ENGINEERING JOURNAL , 2024 , 498 . |
| MLA | Hong, Si-Di et al. "Comprehensive insights into the refractory melanoidins production from structural extracellular polymeric substances via thermal hydrolysis pretreatment and the inhibition on anaerobic fermentation" . | CHEMICAL ENGINEERING JOURNAL 498 (2024) . |
| APA | Hong, Si-Di , Wang, Shuai , Yang, Xiao-Fei , Huang, Xing-Chen , Xiao, Jia-Xiang , Wang, Wen-Xuan et al. Comprehensive insights into the refractory melanoidins production from structural extracellular polymeric substances via thermal hydrolysis pretreatment and the inhibition on anaerobic fermentation . | CHEMICAL ENGINEERING JOURNAL , 2024 , 498 . |
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