39 results on '"Yang, Dianhai"'
Search Results
2. Evaluating the feasibility of ratio control strategy for achieving partial nitritation in a continuous floccular sludge reactor: Experimental demonstration.
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Liu, Wenru and Yang, Dianhai
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SEWAGE purification , *SLUDGE management , *WASTE management , *NITROSO compounds , *NITROGEN compounds - Abstract
To investigate the applicability of ratio control strategy to other systems, a continuous floccular sludge reactor was used in this study. It was found that nitrite accumulation was barely detected throughout 70 days’ investigation, being the average concentration in the effluent of 0.7 ± 0.4 mg/L. Batch experiments indicated that low dissolved oxygen (DO < 0.3 mg·L −1 ) greatly repressed the ammonium oxidizing bacteria (AOB) but only slightly inhibited the nitrite oxidizing bacteria (NOB). However, high-throughput sequencing revealed that the ratio of abundance between Nitrospira and Nitrosomonas , being the dominant NOB and AOB respectively, was considerably low (1.2%/18.7%). The weak oxygen gradients in floccular sludge and the selectively enriched K-strategist NOB Nitrospira under oxygen-limited conditions were both contributed to the failure of achieving partial nitritation; therefore, the rapid start-up of partial nitritation process based on proposed ratio control strategy is not feasible for continuous floccular sludge systems treating low-strength wastewater. [ABSTRACT FROM AUTHOR]
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- 2017
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3. The effect of pH on anaerobic fermentation of primary sludge at room temperature
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Wu, Haiyan, Yang, Dianhai, Zhou, Qi, and Song, Zhoubing
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FERMENTATION , *SEWAGE sludge , *PH effect , *ANAEROBIC bacteria , *TEMPERATURE effect , *IONIC liquids , *CHEMICAL oxygen demand , *CARBOHYDRATES , *BIOLOGICAL nutrient removal , *HYDROLYSIS - Abstract
Abstract: The effect of pH in the range of 3.0–11.0 on anaerobic fermentation of primary sludge (PS) was investigated at room temperature. The experimental results showed that the concentrations of soluble chemical oxygen demands (SCOD), soluble protein and carbohydrate and short-chain fatty acids (SCFAs) under alkaline conditions were significantly higher than those under other pHs. At fermentation time of 5 days, the average SCFAs concentration increased from 968 to 3511mg COD/L with the increase of pH from 3.0 to 10.0. However, further increasing pH to 11.0 resulted in the decrease of SCFAs. At pH 10.0, acetic, propionic and iso-valeric acids were the three main products, and the volatile suspended solids (VSS) reduction reached 38%. It was also observed that at any pH value investigated, there were obvious ammonia and phosphorus releases during fermentation. According to this study it is obvious that alkaline pH benefited the soluble organic carbon production from PS. [Copyright &y& Elsevier]
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- 2009
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4. Sludge age impacted the distribution, occurrence state and structure of organic compounds in activated sludge and affected the anaerobic degradability.
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Chen, Sisi, Yang, Dianhai, Dong, Bin, Li, Ning, and Dai, Xiaohu
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AGE distribution , *ORGANIC compounds , *SEWAGE disposal plants , *SEWAGE sludge digestion , *ANAEROBIC digestion , *WASTEWATER treatment , *PROTEIN structure - Abstract
• VS reduction showed exponential decrease as sludge age extended from 5 to 40 d. • Decline in protein degradation accounted for 80.4% of the decrease of VS conversion. • Changed amount and components of EPS correlated little to degradability of sludge. • Increased molecular weight of EPS strongly correlated to the declined degradability. • More stable secondary structure of protein in EPS determined decreased degradation. Long sludge age (10 ~ 30 d) is prevalent in the operation of wastewater treatment plants of China, leading to big challenge to subsequent anaerobic digestion of sewage sludge because of low degradability and poor methane production. In order to overcome the low sludge degradability and promote the directional enhancement, the effects of sludge age on anaerobic digestion performance, especially the corresponding influencing mechanism in terms of distribution, occurrence state and structure of organic compounds in sludge driven by different sludge age were investigated. It was found that when the sludge age during wastewater treatment extended from 5 d to 40 d, the VS reduction of sludge showed an "exponential" decrease, and the degradability of protein, polysaccharides and lipids in sludge all declined. Among them, the degradation of protein was the most affected (down-regulated by 35.8%), and the decrease in degradation of protein accounted for 80.4% of the decrease of VS conversion. Sludge age during wastewater treatment impact the distribution, occurrence state and structure of organic compounds in activated sludge. And it was clarified that instead of the changed amount and components of EPS, the increased molecular weight of EPS and more stable secondary structure of protein driven by α-helix and β-turn in EPS were mainly responsible for the declined degradability of protein and sludge. [ABSTRACT FROM AUTHOR]
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- 2020
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5. Effects of sludge age on anaerobic acidification of waste activated sludge: Volatile fatty acids production and phosphorus release.
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Chen, Sisi, Dai, Xiaohu, Yang, Dianhai, and Dong, Bin
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FATTY acids , *ACIDIFICATION , *SEWAGE , *PROTEOLYSIS , *BATCH reactors , *BUTYRATES - Abstract
Effects of sludge age on volatile fatty acids (VFAs) production and Phosphorus (P) release during anaerobic acidification of waste activated sludge (WAS) were investigated. Sequencing batch reactors (SBR) fed with simulating domestic sewage were applied to produce WAS of different sludge ages, and batch tests were used for anaerobic acidification. The maximum dissolved total organic carbon, release of PO 4 3 + − P , and accumulation of acetate (C2), propionate (C3), butyrate (C4), and valerate (C5) decreased by 56.2%, 55.8%, 52.6%, 43.7%, 82.4% and 84.8%, respectively, as the sludge age of WAS increased from 5 to 40 days. Limited degradation of protein played a dominating role in decreasing DTOC and VFAs production. Moreover, the increase in molecular weight of organics and organic nitrogen content in the supernatant after acidification suggested that the refractory protein in WAS increased as sludge age extended. Although the production of C2, C3, C4, and C5 from WAS decreased as the sludge age increased, the proportions of C2 and C3 in VFAs increased, which might be due to the declined production of C5 from protein and the faded genus Dechlorobacter. Keeping sludge age of WAS at a relatively low level (<10 days) is more appropriate for anaerobic acidification of WAS as internal carbon sources and P resource. [Display omitted] [ABSTRACT FROM AUTHOR]
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- 2021
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6. Functional and compositional characteristics of nitrifiers reveal the failure of achieving mainstream nitritation under limited oxygen or ammonia conditions.
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Liu, Wenru, Chen, Wenjing, Yang, Dianhai, and Shen, Yaoliang
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OXYGEN compounds , *PHOTOSYNTHETIC oxygen evolution , *BIOCHEMISTRY , *NITROGEN compounds , *HABER-Bosch process - Abstract
Graphical abstract Highlights • Oxygen or ammonia limited condition was adverse to achieve nitrite accumulation. • Different AOB with similar oxygen sensitivity were enriched in the two reactors. • Nitrospira defluvii dominated both reactors but had different oxygen affinity. • Ammonia and nitrite levels were the key factors for selection of the nitrifiers. Abstract For understanding the potential of achieving nitritation under different oxygen and ammonia levels, two activated sludge reactors with high (R H) and low (R L) dissolved oxygen (DO) were parallelly operated. During over two months continuous operation, rare nitrite accumulation was observed in both reactors. K -strategists Nitrosomonas oligotropha and r -strategists Nitrosomonas europaea were enriched in the R H and R L , respectively, yet their response to DO variations was almost identical. Although K -strategists Nitrospira defluvii dominated both reactors, species cultured with low-DO exhibited higher oxygen affinity. Instead of DO, ammonia and nitrite availability should be the key factor for the selective enrichment of these nitrifiers. Taken together, the limiting ammonia for ammonia oxidizing bacteria and the better oxygen-uptake capacity of nitrite oxidizing bacteria was respectively responsible for the failure of nitrite accumulation in the R H and R L. This study supported that high DO coupled with excess ammonia would favor the achievement of mainstream nitritation. [ABSTRACT FROM AUTHOR]
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- 2019
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7. Achieving robust nitritation in a modified continuous-flow reactor: From micro-granule cultivation to nitrite-oxidizing bacteria elimination.
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Liu, Wenru, Song, Jiajun, Wang, Jianfang, Ji, Xiaoming, Shen, Yaoliang, and Yang, Dianhai
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CONTINUOUS flow reactors , *AMMONIA-oxidizing bacteria , *BACTERIA , *GRANULATION , *FLAVOBACTERIUM - Abstract
l Fast formation of micro-granules realized in a modified continuous-flow reactor. l Nitritation could be achieved within 6 days using the micro-granule (ca. 100 µm). l Maintaining ammonia in-excess was the key for NOB repression with micro-granules. l The micro-granules possessed ammonium oxidation potential of 59.3 ± 1.9 mg/g VSS/h. In this study, a modified continuous-flow nitrifying reactor was successfully operated for rapid cultivation of micro-granules and achieving robust nitritation. Results showed that sludge granulation with mean size of ca. 100 µm was achieved within three weeks by gradually increasing settling velocity-based selection pressure from 0.48 to 0.9 m/hr. Though Nitrospira like nitrite-oxidizing bacteria (NOB) were enriched in the micro-granules with a ratio between ammonia-oxidizing bacteria (AOB) and NOB of 5.7%/6.5% on day 21, fast nitritation was achieved within one-week by gradually increasing of influent ammonium concentration (from 50 to 200 mg/L). Maintaining ammonium in-excess was the key for repressing NOB in the micro-granules. Interestingly, when the influent ammonium concentration switched back to 50 mg/L still with the residual ammonium of 15–25 mg/L, the nitrite accumulation efficiency increased from 90% to 98%. Experimental results suggested that the NOB repression was intensified by both oxygen and nitrite unavailability in the inner layers of micro-granules. Unexpectedly, continuous operation with ammonium in excess resulted in overproduction of extracellular polysaccharides and overgrowth of some bacteria (e.g., Nitrosomonas, Arenimonas , and Flavobacterium), which deteriorated the micro-granule stability and drove the micro-granules aggregation into larger ones with irregular morphology. However, efficient nitritation was stably maintained with extremely high ammonium oxidation potential (> 50 mg/g VSS/hr) and nearly complete washout of NOB was obtained. This suggested that smooth and spherical granule was not a prerequisite for achieving NOB wash-out and maintaining effective nitritation in the granular reactor. Overall, the micro-granules exhibited a great practical potential for high-rate nitritation. Graphical Abstract [Display omitted]. [ABSTRACT FROM AUTHOR]
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- 2023
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8. Magnetic porous microspheres enhancing the anaerobic digestion of sewage sludge: Synergistic free and attached methanogenic consortia.
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Geng, Hui, Xu, Ying, Liu, Rui, Yang, Dianhai, and Dai, Xiaohu
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ANAEROBIC digestion , *MAGNETIC structure , *MICROSPHERES , *SEWAGE sludge digestion , *UPFLOW anaerobic sludge blanket reactors , *CHARGE exchange , *MAGNETIC materials - Abstract
• Magnetic porous microspheres (MPMs) with high controllability were synthesized. • MPMs have stable macroporous hybrid structure of magnetic core and polymeric shell. • MPMs have high solid–liquid interfacial electron transfer ability. • MPMs enhanced methane production and proportion of methane in biogas. • MPMs promoted synergistic metabolism of free and attached methanogenic consortia. The addition of exogenous materials is a commonly reported method for promoting the anaerobic digestion (AD) of sludge. However, most exogenous materials are nano-sized and their use encounters problems relating to a need for continuous replenishment, uncontrollability and non-recyclability. Here, magnetic porous microspheres (MPMs), which can be controlled by magnetic forces, were prepared and used to enhance the methanogenesis of sludge. It was observed that the MPMs were spherical particles with diameters of approximately 100 µm and had a stable macroporous hybrid structure of magnetic cores and polymeric shells. Furthermore, the MPMs had good magnetic properties and a strong solid–liquid interfacial electron transfer ability, suggesting that MPMs are excellent carriers for methanogenic consortia. Experimental results showed that the addition of MPMs increased methane production and the proportion of methane in biogas from AD by 100.0 % and 21.2 %, respectively, indicating the MPMs notably enhanced the methanogenesis of sludge. Analyses of variations in key enzyme activities and electron transfer in sludge samples with and without MPMs in AD revealed that the MPMs significantly enhanced the activities of key enzymes involved in hydrolysis, acidification and methanation. This was achieved mainly by enhancing the extracellular electron transfer to strengthen the proton motive force on the cell membrane, which provides more energy generation for methanogenic metabolism. A careful examination of the variations in the morphology, pore structure and magnetism of the MPMs before and after AD revealed that the MPMs increased the prevalence of many highly active anaerobes, and that this did not weaken the magnetic performance. The microbial community structure and metatranscriptomic analysis further indicated that the acetotrophic methanogens (i.e., Methanosaeta) were mainly in a free state and that CO 2 -reducing methanogens (i.e., Methanolinea and Methanobacterium) mainly adhered to the MPMs. The above synergistic metabolism led to efficient methanogenesis, which indicates that the MPMs optimised the spatial ecological niche of methanogenic consortia. These findings provide an important reference for the development of magnetic porous materials promoting AD. [Display omitted] [ABSTRACT FROM AUTHOR]
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- 2024
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9. Abiotic and biotic roles of metals in the anaerobic digestion of sewage sludge: A review.
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Geng, Hui, Xu, Ying, Dai, Xiaohu, and Yang, Dianhai
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- 2024
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10. Seasonal variations in spatial distribution, mobilization kinetic and toxicity risk of arsenic in sediments of Lake Taihu, China.
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Wang, Shuhang, Ding, Shiming, Zhao, Hanbin, Chen, Musong, Yang, Dianhai, and Li, Cai
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LAKE sediments , *ARSENIC poisoning , *ARSENIC , *SPATIAL variation , *SEASONS , *SEDIMENTS , *LEMNA minor - Abstract
This study investigated seasonal variations in spatial distribution, mobilization kinetic and toxicity risk of arsenic (As) in sediments of three representative ecological lakes in Lake Taihu. Results suggested that the bioavailability and mobility of As in sediments depended on the lake ecological types and seasonal changes. At the algal-type zones and macrophyte-type zones, elevated As concentrations were observed in April and July, while these occurred at the transition areas in July and October. The diffusion flux of soluble As ranged from 0.03 to 3.03 ng/cm2/d, indicating sediments acted as a source of As. Reductive dissolution of As-bearing iron/manganese-oxides was the key driver of sediment As remobilization. However, labile S(-II) caused by the degradations of algae and macrophytes buffered sediment As release at the algal-type and macrophyte-type zones. Furthermore, the resupply ratio was less than 1 at three ecological lakes, indicating the resupply As capacity of sediment solid phase was partially sustained case. The risk quotient values were higher than 1 at the algal-type zones and transition areas in July, thereby, the adverse effects of As should not be ignored. This suggested that it is urgently need to be specifically monitored and managed for As contamination in sediments across multi-ecological lakes. [Display omitted] • As distribution in sediments are dependent on the lake types and seasonal changes. • Seasonal warming and low DO concentrations lead to increases in As mobility. • Increases in labile S(-II) in sediments can buffer the mobility and release of As. • High As ecotoxicological risk occurs at algal-type lake zones and transition areas. [ABSTRACT FROM AUTHOR]
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- 2024
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11. Biodegradation and metabolites of 2-methylquinoline by acclimated activated sludge under aerobic and denitrifying conditions
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Wang, Lin, Li, Yongmei, and Yang, Dianhai
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ACTIVATED sludge process , *BIODEGRADATION , *DENITRIFICATION , *WASTEWATER treatment , *QUINOLINE , *METABOLITES , *CARBON - Abstract
Abstract: 2-Methylquinoline is a common organic contaminant in environment. Its degradation in wastewater treatment system has not been fully explored. In this study, batch experiments were conducted to investigate the biodegradation of 2-methylquinoline by activated sludge under both aerobic and denitrifying conditions. The results showed that 2-methylquinoline was degraded under both conditions, but the degradation under aerobic condition was significantly faster than that under denitrifying condition. Total organic carbon (TOC) residues were detected in the final effluent under both conditions, indicating the formation of recalcitrant metabolites. Further analysis identified 1,2,3,4-tetrahydro-2-methylquinoline, N,N-diethyl-benzenamine, and 4-ethyl-benzenamine as common metabolites under both conditions. 4-Butyl-benzenamine and 2,6-diethyl-benzenamine were additional metabolites under the aerobic condition, whereas 2-methyl-4-quinolinol was exclusive to the denitrifying condition. Most of these metabolites were further degraded during the treatment process. 1,2,3,4-Tetrahydro-2-methylquinoline, however, remained in the final effluent under both conditions, implying its persistence in the environment. It can be concluded that 2-methylquinoline undergoes the similar degradation pathway under both treatment conditions. [Copyright &y& Elsevier]
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- 2010
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12. Alkaline fermentation of primary sludge for short-chain fatty acids accumulation and mechanism
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Wu, Haiyan, Gao, Junyan, Yang, Dianhai, Zhou, Qi, and Liu, Wei
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FERMENTATION , *SEWAGE sludge , *FATTY acids , *ANAEROBIC digestion , *PH effect , *HYDROLYSIS , *ORGANIC compounds , *METHANE - Abstract
Abstract: Short-chain fatty acids (SCFAs) are the intermediate products of anaerobic digestion. The alkaline fermentation of primary sludge (PS) for ambient accumulation of SCFAs and mechanism were investigated in the present study. The results showed that the maximum SCFAs yields from PS fermentation was 312.9mg COD/g VSS at pH 10.0–11.0 after 5 days reaction time, which was 1.8 times of that at neutral and acid pHs. The composition and distribution of SCFAs generated from PS anaerobic fermentation were studied, the maximum ratio of acetic, propionic, iso-butyric, n-butytic, iso-valetic and n-valetic acids was determined as 49.4%, 34.4%, 14.6%, 12.2%, 17.9% and 6.3%, respectively. In addition, the accumulation of SCFAs related with soluble organic compounds fermentation and methane production during PS fermentation was also investigated. The concentration of SCFAs generated from PS fermentation was found to be positive with the concentration of soluble organic compounds but negative with the production of methane. The accumulation of SCFAs at alkaline pHs can be attributed to the enhanced hydrolysis of PS at alkaline pHs which lead to more soluble protein and carbohydrate generation. At the same time, the activity of methanogens could be inhibited at alkaline pHs which resulting in less SCFAs consumption. [Copyright &y& Elsevier]
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- 2010
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13. Toxicity evaluation and prediction of toxic chemicals on activated sludge system
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Cai, Bijing, Xie, Li, Yang, Dianhai, and Arcangeli, Jean-Pierre
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TOXICITY testing , *ORGANIC compounds , *ACTIVATED sludge process , *TOXICOLOGICAL chemistry , *QSAR models , *INDUSTRIAL wastes , *LINEAR statistical models - Abstract
Abstract: The gaps of data for evaluating toxicity of new or overloaded organic chemicals on activated sludge system resulted in the requirements for methodology of toxicity estimation. In this study, 24 aromatic chemicals typically existed in the industrial wastewater were selected and classified into three groups of benzenes, phenols and anilines. Their toxicity on activated sludge was then investigated. Two indexes of IC50-M and IC50-S were determined respectively from the respiration rates of activated sludge with different toxicant concentration at mid-term (24h) and short-term (30min) time intervals. Experimental results showed that the group of benzenes was the most toxic, followed by the groups of phenols and anilines. The values of IC50-M of the tested chemicals were higher than those of IC50-S. In addition, quantitative structure–activity relationships (QSARs) models developed from IC50-M were more stable and accurate than those of IC50-S. The multiple linear models based on molecular descriptors and K ow presented better reliability than single linear models based on K ow. Among these molecular descriptors, E lumo was the most important impact factor for evaluation of mid-term toxicity. [Copyright &y& Elsevier]
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- 2010
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14. Anaerobic digestion: An alternative resource treatment option for food waste in China.
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Jin, Chenxi, Sun, Shiqiang, Yang, Dianhai, Sheng, Weijie, Ma, Yadong, He, Wenzhi, and Li, Guangming
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- 2021
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15. Cation exchange resins enhance anaerobic digestion of sewage sludge: Roles in sequential recovery of hydrogen and methane.
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Geng, Hui, Xu, Ying, Liu, Rui, Yang, Dianhai, and Dai, Xiaohu
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ION exchange resins , *SEWAGE sludge digestion , *ANAEROBIC digestion , *EXCHANGE reactions , *ACTIVATION energy , *METHANE - Abstract
• Cation exchange resin (CER) enhanced the sequential recovery of H 2 and CH 4 from sludge. • Ion exchange reactions provided a driving force for hydrogen generation. • CER enriched the hydrogen-producing bacteria and key genes encoding enzymes. • CER played an induced role in methanogenesis in the methane-production stage. • CER-induced reduces energy barriers of mass transfer and enrich functional anaerobes. The recovery of renewable bioenergy from anaerobic digestion (AD) of sludge is a promising method to alleviate the energy problem. Although methane can be effectively recovered through sludge pretreatment by cation exchange resin (CER), the simultaneous enhancement of hydrogen and methane generation from AD using CER has not been extensively investigated. Herein, the effect of CER on the sequential recovery of hydrogen and methane and the corresponding mechanisms were investigated. When CER is introduced, the maximum increases for the hydrogen and methane production are 104.7 % and 35.3 %, respectively, confirming the sequential enhancement effects of CER on the hydrogen and methane production. Analyses of the variations in the main biochemical components with and without the effect of CER demonstrate that CER promotes sludge organic solubilisation, hydrolysis, and acidification in both hydrogen- and methane-production stages. Moreover, investigations of variations in the solid–liquid interfacial thermodynamics and removal rates of main multivalent metals of sludge reveal that the ion exchange reactions between the CER and sludge in the hydrogen-production stage provide the direct driving force of effective contact between bacteria and organic particulates. Additionally, the residual effect of the CER during methane production reduces the energy barrier for mass transfer and provides a driving force for this transfer. Further analyses of the microbial community structure and metagenomics indicate that CER directly drives the enrichment of hydrogen-producing bacteria (+ 15.1 %) and key genes encoding enzymes in the hydrogen-production stage. Moreover, CER indirectly induces the enrichment of methane-producing anaerobes (e.g. Methanosaeta : + 16.7 %, Methanosarcina : + 316.5 %); enhances the bioconversion of different substrates into methyl-coenzyme M; and promotes the metabolism pathway of acetoclastic process and CO 2 reduction in the methane-production stage. This study can provide valuable insights for simultaneously enhancing the production of hydrogen and methane from AD through sequential recovery. [Display omitted] [ABSTRACT FROM AUTHOR]
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- 2024
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16. Micron-sized silica particles in wastewater influenced the distribution of organic matters in sludge and their anaerobic degradation.
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Chen, Sisi, Dong, Bin, Yang, Dianhai, Li, Ning, and Dai, Xiaohu
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ORGANIC compounds , *PROTEOLYSIS , *SEWAGE sludge , *PROTEIN structure , *SEWAGE , *UPFLOW anaerobic sludge blanket reactors , *POLYSACCHARIDES , *BIOGAS production - Abstract
• Extracellular protein and carbohydrate increased and declined by adding particles. • Secondary structure of protein and MW of EPS changed little by silica particles. • Degradation of protein and polysaccharide increased and declined as particles added. • Promotion in protein degradation mainly contributed to the increased VS conversion. • Extracellular organics amounts in unit VS mainly correlated to degradation of sludge. The influence of micron-sized silica particles on the distribution of organic matters in sludge and anaerobic degradation of macromolecular organic components (MOCs) in sludge was investigated. With the addition of micron-sized particles in the influent (VS/TS decreased gradually from 90.46 ± 0.21 % to 33.36 ± 0.17 %), the protein degradation percentage was significantly promoted while the polysaccharides degradation percentage was largely inhibited, resulting in the total MOCs degradation and methane production increasing firstly (with the promotion extent within 10 %) and then declining slightly, with the peak value at VS/TS of 56.03 ± 0.21 %. The shifted degradation percentage of protein and polysaccharides were caused by the significant changed distribution of organic matters in sludge. With the addition of micron-sized silica particles, the MW of EPS and secondary structure of protein in EPS changed little, which brought about little influence. While, the promoted extracellular protein content (so that the total protein content) and declined extracellular carbohydrates content (so that the total polysaccharides content), were found to be strongly correlated to the enhanced protein degradation and inhibited polysaccharides degradation. The results suggested that large amounts of grit in sludge might not be the main reason for lower degradability of sewage sludge in China. [ABSTRACT FROM AUTHOR]
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- 2020
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17. Granules abrasion cause deterioration of nitritation in a mainstream granular sludge reactor with high loading rate.
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Liu, Wenru, Yin, Fangfang, and Yang, Dianhai
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MECHANICAL abrasion , *SEQUENCING batch reactor process , *SHEARING force , *UPFLOW anaerobic sludge blanket reactors , *AIRDROP , *BIOMASS - Abstract
Biomass detachment generally occurred in granular sludge systems. However, little is known about the influence of biomass detachment on the granules performing nitritation. Here, a granular sludge reactor with high loading rates (6.8 ± 0.4 kg N·m−3·d−1) was achieved at mainstream conditions. Though the low ratio control strategy was maintained, the deterioration of nitritation performance was observed after the further increase of air supply rates to 3.4 ± 0.2 L min−1. In parallel with that, the loss of AOB and the proliferation of NOB was observed. Additionally, with the decrease of granules size and biomass concentration, the incomplete stratification of nitrifiers in the granules was confirmed by batch tests. All these results suggested that granules abrasion under the high shear stress conditions caused the detachment of external AOB and hence resulted in the deteriorated stratified structure of nitrifiers, which subsequently contributed to the proliferation of the internal NOB and the deterioration of nitritation. These findings highlight that the granules abrasion should be well controlled in the development of high-rate nitritation process with granular sludge. • High-rate nitritation with granular sludge was achieved at mainstream conditions. • Granules abrasion-based deterioration of nitritation was firstly observed. • Detachment of AOB resulted in incomplete stratification of nitrifiers in granules. • Granules abrasion must be well controlled in high-rate granular nitritation system. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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18. Effects of thermal hydrolysis on the metabolism of amino acids in sewage sludge in anaerobic digestion.
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Chen, Sisi, Dong, Bin, Dai, Xiaohu, Wang, Hongyang, Li, Ning, and Yang, Dianhai
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SEWAGE sludge digestion , *AMINO acid metabolism , *ANAEROBIC digestion , *ANAEROBIC sludge digesters , *GLUTAMIC acid , *SEWAGE sludge , *AMINO acids - Abstract
• Amino acids were decomposed evidently by THP at 120 °C (8.9%) and 160 °C (26.7%). • Amino acids degradation in AD was promoted largely via decomposition during THP. • Varied THP temperature changed dominating bacteria utilizing amino acids in AD. • 120 °C played little role in promoting amino acids metabolic pathways during AD. • 160 °C effectively enhanced amino acids metabolism via Stickland pathway during AD. Three semi-continuous anaerobic digesters with raw sludge (R1) or thermally hydrolyzed sludge (120 °C (R2) or 160 °C (R3)) were operated to investigate the effects of thermal hydrolysis on the metabolism of amino acids during high solid anaerobic digestion with sewage sludge. Thermal hydrolysis pretreatment (THP) decomposed protein in terms of hydrolytic amino acid in raw sludge by 8.90% and 26.69% under 120 °C and 160 °C, respectively. The decomposition of amino acids during THP was the main contributor to the final enhanced amino acids degradation in sewage sludge with THP after anaerobic digestion. The dominating bacterial genera related to amino acids degradation in R2 and R3 shifted to Fastidiosipila and Proteiniphilum / Tissierella , respectively, from Gelria in R1, influencing the utilization of amino acids, especially glutamic acid, glycine and proline. Different from 120 °C, THP at 160 °C played an important role in promoting amino acid metabolism during AD through the Stickland pathway by the bacteria belonged to order Clostridiales. [ABSTRACT FROM AUTHOR]
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- 2019
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19. Free-conditioning dewatering of sewage sludge through in situ propane hydrate formation.
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Wu, Boran, Horvat, Kristine, Mahajan, Devinder, Chai, Xiaoli, Yang, Dianhai, and Dai, Xiaohu
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SLUDGE management , *HYDRATES , *PROPANE , *CHEMICAL oxygen demand , *ELECTROOSMOTIC dewatering - Abstract
Abstract The propane hydrate formation was proposed to have potentials in realizing free-conditioning dewatering of sewage sludge with implications to simultaneous clean water extraction and highly efficient volume reduction. Primarily, the investigation on phase equilibrium of propane hydrates found that the organic components of sewage sludge promoted the propane hydrate formation in terms of decreasing equilibrium pressure by up to 19.2%, compared with that in pure water. Further, the feasibility of hydrate-based dewatering was verified through the observation of propane hydrate formation in sewage sludge and also the quality analysis of water generated from decomposition of up-floated formed hydrates. The formation of up-floated propane hydrates extracted water molecules from sewage sludge into homogeneous crystal phase, which actually excluded sludge particles from hydrate phase and realized the reduction of water in sludge phase. The efficiency of water conversion into hydrates was determined by monitoring propane pressure, which indicated that 14 batch runs decreased the water content of sludge from 98.81wt.% to 44.3wt.% under free-conditioning conditions. The chemical oxygen demand, total nitrogen and total phosphorus of hydrate-extracted water were measured to be 21 ± 1 mg/L, 10.5 ± 0.2 mg/L and 0.4 ± 0 mg/L, respectively, which reflected the excellent separation performance and also indicated that the hydrate-extracted water can be directly discharged without further treatments. Finally, the unit energy consumption of hydrate-based dewatering process based on a continuous operation mode was calculated to be 2673.96 kW h/t dry solid of sewage sludge, which was nearly half of that in thermal drying process. Therefore, the propane hydrate-based process is believed to maximize the green operation of enhanced sludge dewatering while minimizing the energy and additional material consumption. Graphical abstract Image 1 Highlights • Formation of propane hydrates in sludge was verified to be feasible and reproducible. • Free-conditioning sludge dewatering can be achieved by in situ hydrate formation. • Clean water extraction and low energy consumption facilitate green sludge disposal. [ABSTRACT FROM AUTHOR]
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- 2018
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20. Microbial community response to influent shift and lowering temperature in a two-stage mainstream deammonification process.
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Liu, Wenru, Ji, Xiaoming, Wang, Jianfang, Yang, Dianhai, Shen, Yaoliang, Chen, Chongjun, Qian, Feiyue, and Wu, Peng
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MICROBIAL communities , *WASTEWATER treatment , *NITRIFICATION , *MICROBIAL diversity , *HETEROTROPHIC bacteria - Abstract
The effects of influent shift from synthetic wastewater to anaerobically pretreated actual sewage coupling with lowering temperature on microbial community of a two-stage partial nitritation (PN)-anammox process were evaluated through high-throughput sequencing. Venn diagrams and Hill numbers showed the significantly increased bacterial diversity both in the PN and anammox reactor. However, taxonomic analysis indicated that outstanding enrichment of heterotrophic bacteria and reduction of autotrophic species mainly occurred in the PN reactor, while nearly all of the dominant bacteria in the anammox reactor only slightly decreased in abundance. Moreover, immigrant bacteria from the PN reactor to the following anammox reactor had no negative effect on the anammox function. These results implied the positive role of the first-stage PN in maintaining the stability of the following anammox community. Nitrosomonas europaea (17.9–52.9%) and one cluster (19.2–27.7%) within Candidatus Brocadia remained as the dominant functional species in the PN and anammox reactor, respectively. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
21. Cold temperature drives the re-granulation of disintegrated partial nitritation granules in a continuous-flow reactor.
- Author
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Liu, Wenru, Wang, Caixia, Chen, Jie, Jiang, Kuansheng, Zhang, Liangwei, Wang, Jianfang, Wu, Peng, Ji, Xiaoming, Shen, Yaoliang, Yang, Dianhai, and Shen, Yijun
- Subjects
- *
COLD (Temperature) , *CONTINUOUS flow reactors , *LOW temperatures , *TEMPERATURE effect , *SEQUENCING batch reactor process , *UPFLOW anaerobic sludge blanket reactors , *WASTEWATER treatment - Abstract
To investigate the effect of temperature on the recovery of aerobic granule stability, two continuous-flow reactors inoculated with disintegrated partial nitritation granules were operated at different temperatures for organic-free wastewater treatment. Granules disintegration and partial nitritation deterioration further occurred in the reactor (R1) operating at 25–28 °C. However, successful sludge re-granulation with a decrease of sludge volume index (SVI5) from 73 mL/g to 35 mL/g was observed in the reactor (R2) operated with the decreasing temperature from 20 °C to 12 °C. The reduced temperatures decreased the activity and growth rate of nitrifiers (from 47.2 mg/g VSS/h to 21.3 mg/g VSS/h), and selected the extracellular polymeric substance (EPS) producing bacteria (e.g., Flavobacterium and Rhodobacteraceae sp.). Correspondingly, an enhanced secretion of tightly-bound EPS (200.3–224.6 mg/g VSS in R2 vs 166.8–152.5 mg/g VSS in R1), particularly proteins, and an increased expression of quorum sensing-related enzyme genes (2.98% in R2 vs 2.75% in R1) were obtained. All of this contributed to the cold temperature-driven sludge re-granulation. The recovery of granular structure promoted the stable maintenance of efficient partial nitritation at low temperatures. Overall, this study gives insights into the positive role of cold temperatures on the stability of partial nitritation granules. [Display omitted] • Temperature effects on nitrifying granules were studied in continuous-flow reactors. • Granule disintegrated at 25–28 °C, but regranulation occurred at low temperatures. • Cold temperature enriched extracellular polymeric substance-producing microbes. • The mechanism of cold temperature-driven sludge regranulation was proposed. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
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22. A new concept of waste iron recycling for the enhancement of the anammox process.
- Author
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Liu, Wenru, Li, Tianhao, Wang, Jianfang, Shen, Yaoliang, Ji, Xiaoming, and Yang, Dianhai
- Subjects
- *
NITRITE reductase , *NITRATE reductase , *WASTE treatment , *PROTEIN expression , *WASTE recycling , *IRON - Abstract
As a by-product of industry, waste iron scraps (WIS) are low-cost and widely available, which was potential for the development of iron-assisted anammox. In this study, the feasibility of adding WIS to enhance the nitrogen removal of the anammox process (also called WIS-assisted anammox) was demonstrated. Results indicated that the WIS-assisted anammox reactors performed a 15–35% higher nitrogen removal efficiency than that of the control. Compared to the sludge from the control, the sludge from the WIS-assisted anammox reactors had a higher iron content (78–113 g kg−1 SS) and a better specific anammox activity (10.8–15.5 mg N g−1 VSS h−1). The enhanced growth of the anammox bacteria (related to Ca. Kuenenia stuttgartiensis with 99% similarity) in the WIS-assisted anammox reactors was also confirmed by high-throughput sequencing and qPCR. Furthermore, the functional genes predicted by PICRUSt2 revealed a higher level of hydroxylamine oxidoreductase (hao)-like proteins expression of the biomass from the WIS-assisted anammox reactors, implying that the hydroxylamine-related anammox pathway was promoted. Additionally, the observation of cytoplasmic nitrate reductase (narG), copper-containing nitrite reductase (nirK), and nitric oxide reductase (norB) suggested that the introduction of WIS might promote the denitrification ability. This was correlated to the lower ΔNO 3 -/ΔNH 4 + ratio observed in these WIS-assisted anammox reactors. Overall, the WIS-assisted anammox offers a sustainable nitrogen removal process for wastewater treatment with waste iron recycling. [Display omitted] • The feasibility of the WIS-assisted anammox process was demonstrated. • WIS enhanced the nitrogen removal of the anammox process by 15–35%. • WIS promoted the activity and growth of the anammox bacteria. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
23. Rapid initiation of a single-stage partial nitritation-anammox process treating low-strength ammonia wastewater: Novel insights into biofilm development on porous polyurethane hydrogel carrier.
- Author
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Liu, Wenru, Zhou, Han, Zhao, Wei, Wang, Caixia, Wang, Qian, Wang, Jianfang, Wu, Peng, Shen, Yaoliang, Ji, Xiaoming, and Yang, Dianhai
- Subjects
- *
POLYURETHANES , *BIOFILMS , *FLUORESCENCE in situ hybridization , *HYDROGELS , *SEWAGE , *AMMONIA - Abstract
[Display omitted] • A single stage PN/A process treating low strength wastewater was started rapidly. • The biofilm growth process on porous polyurethane hydrogel carrier was studied. • Biomass entrapment by interconnected micropores dominated the initial colonization. • AOB was surface-attached growth, anammox colonies proliferated as embedded growth. Media-supported biofilm is a powerful strategy for growth and enrichment of slow-growing microorganisms. In this study, a single-stage nitritation-anammox process treating low-strength wastewater was successfully started to investigate the biofilm development on porous polyurethane hydrogel carrier. Suspended biomass migration into the carrier and being entrapment by its internal interconnected micropores dominated the fast initial colonization stage. Both surface-attached growth and embedded growth of microbes occurred during the following accumulation stage. Fluorescence in situ hybridization analysis of mature biofilm indicated that ammonium-oxidizing bacteria located at the outer layers featured a surface-attached growth, while anammox microcolonies housed in the inner layers proliferated as an embedded-like growth. In this way, the growth rate of anammox bacteria (predominated by Candidatus Kuenenia) could be 0.079 d-1. The anammox potential of the biofilm reactor reached 1.65 ± 0.3 kg/m3/d within two months. This study provides novel insights into nitritation-anammox biofilm formation on the porous polyurethane hydrogel carrier. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
24. Response of nitritation granules to anaerobically pre-treated municipal wastewater at low temperatures in a continuous-flow reactor.
- Author
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Liu, Wenru, Wang, Jianfang, Shen, Yaoliang, Ji, Xiaoming, and Yang, Dianhai
- Subjects
- *
CONTINUOUS flow reactors , *LOW temperatures , *SEWAGE , *FILAMENTOUS bacteria , *STRUCTURAL stability , *SEQUENCING batch reactor process , *SLUDGE management - Abstract
Achieving mainstream nitritation with aerobic granules is attractive based on increasing evidence but generally treating artificial low-ammonium wastewater. Real municipal wastewater is much more complex in composition, the behavior of the nitritation granules would be different when treating real municipal wastewater. Herein, the response of nitritation granules to influent shift from artificial low-ammonium (35–40 mg/L) wastewater to anaerobically pre-treated municipal wastewater (MWW pre-treated) was investigated at low temperatures. Results showed that MWW pre-treated caused the outgrowth of filamentous bacteria on the granule surface and developed into finger-like structures, which in turn resulted in the decrease of the overall granular sludge settleability. Batch-tests and microbial analysis indicated the functional and microbial differentiation between the newly formed fluffy exterior and the original compact granule. The fluffy exterior was dominated by genus Flavobacterium (66.6%) and primarily functioned as COD removal, whereas the nitrifiers (mainly Nitrosomonas) were still located in the compact core and performed nitritation. Moreover, the heterotrophs-dominated fluffy exterior hindered the oxygen transfer towards nitrifiers located in the compact granule and thereby facilitated the stable NOB repression in the granule particularly at low temperatures (<10 °C). Finally, gradual recovery of the granular sludge morphology and settleability occurred after the influent reverted to synthetic low-ammonium wastewater. Overall, this work demonstrated that the feeding of MWW pre-treated only caused morphological changes of the nitritation granules, but its structural and functional stability could be maintained stably. [Display omitted] • Granule-based nitritation was maintained treating anaerobically pretreated sewage. • COD removal occurred primarily in external flocs, while nitritation in compact core. • External flocs promoted NOB repression by increasing oxygen transfer resistance. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
25. Effects of biopolymer discharge from MBR mixture on sludge characteristics and membrane fouling
- Author
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Wang, Zhiwei, Mei, Xiaojie, Wu, Zhichao, Ye, Shaofan, and Yang, Dianhai
- Subjects
- *
BIOPOLYMERS , *BIOREACTORS , *ARTIFICIAL membranes , *SEWAGE sludge , *FOULING , *MICROBIAL products , *PARTICLE size distribution , *SURFACES (Technology) - Abstract
Abstract: A new pathway was explored in order to gain insights into the role of biopolymers in sludge characteristics and membrane fouling. The biopolymers were discharged from a membrane bioreactor (MBR) using a unique design (called as dual-MBR in this study). The variations of soluble microbial products (SMP), extracellular polymeric substances (EPS), sludge surface charge, particle size and dewaterability were analyzed in the dual-MBR after the discharging of biopolymers from the system. It was found that carbohydrates in SMP, proteins in SMP and humics in SMP were decreased in the dual-MBR compared to the control-MBR. Gel filtration chromatography (GFC) analysis showed that the substances with macromolecular weight in SMP were reduced in the dual-MBR. Three-dimensional excitation–emission matrix (EEM) fluorescence spectra demonstrated that the aromatic protein-like substances in SMP were also lowered in the dual-MBR. The neutral hydrophilic (HPI-N) fraction in SMP, which was found to have larger molecular weight distribution and stronger fouling potential compared to the rest fractions, was significantly reduced in the dual-MBR. The exclusion of biopolymers from the dual-MBR also resulted in the decrease of the bound EPS and the reduction of proteins in bound EPS, which consequently caused the decrease of sludge surface charge, the increase of sludge flocs and the improvement of sludge dewaterability. The above changes induced by the exclusion of biopolymers can explain why the trans-membrane pressure in the dual-MBR exhibited a slower increase rate compared to the control-MBR. This study offered an evaluation of the contribution of biopolymers to sludge characteristics and membrane fouling through a different angle from previous publications. [Copyright &y& Elsevier]
- Published
- 2012
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26. Effects of dissolved oxygen on extracellular enzymes activities and transformation of carbon sources from plant biomass: Implications for denitrification in constructed wetlands
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Chen, Yi, Wen, Yue, Cheng, Jing, Xue, ChongHua, Yang, Dianhai, and Zhou, Qi
- Subjects
- *
DISSOLVED oxygen in water , *EXTRACELLULAR enzymes , *ENZYME activation , *PLANT biomass , *DENITRIFICATION , *WETLANDS , *BIODEGRADATION , *PLANT litter , *CARBON compounds - Abstract
Abstract: Dissolved oxygen (DO) concentrations have often been shown to be important to decomposition rates of plant litter and thus may be a key factor in determining the supply of dissolved organic carbon (DOC) and carbon-dependent denitrification in wetlands. During the 2months operation, DOC accumulation in anaerobic condition was superior to aerobic condition due to higher activities of hydrolase enzymes and lower hydrolysates converted to gaseous C. Also, much higher denitrification rates were observed in wetland when using anaerobic litter leachate as the carbon source, and the available carbon source (ACS) could be used as a good predictor of denitrification rate in wetland. According to the results of this study, extracellular enzymes activities (EEAs) in wetland would change as a short-term consequence of DO. This may alter balance of litter carbon flux and the characteristics of DOC, which may, in turn, have multiple effects on denitrification in wetlands. [ABSTRACT FROM AUTHOR]
- Published
- 2011
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27. Membrane fouling properties under different filtration modes in a submerged membrane bioreactor
- Author
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Wu, Zhichao, Wang, Qiaoying, Wang, Zhiwei, Ma, Yanqiang, Zhou, Qi, and Yang, Dianhai
- Subjects
- *
BIOREACTORS , *FLUORESCENCE , *MACROMOLECULES , *FILTERS & filtration , *WASTEWATER treatment , *FULVIC acids - Abstract
Abstract: Four flat-sheet membrane modules, which were operated under four different filtration modes but with the same treatment capacity, were used to treat synthetic wastewater in a submerged membrane bioreactor (MBR). Particle size distribution (PSD), gel filtration chromatography (GFC), capillary suction time (CST), and three-dimensional excitation–emission matrix (EEM) fluorescence spectroscopy were used to characterize membrane fouling properties. The high instantaneous flux induced faster fouling rate and continuous filtration mode was the most applicable filtration mode in this study. The average particle size of all foulants was smaller than that of bulk sludge; and the higher the instantaneous flux was adopted, the larger the average particle size of foulants would be. Only macromolecule substances were detected in all the foulants. The macromolecule substances in the influent were degraded by microorganism and retained by membrane, and small molecular substances could pass through membrane pores to enter the effluent. The membrane foulants had poorer dewaterability compared to the mixed liquor confirmed by CST measurement. Although there were several peaks associated with protein-like fluorophores, fulvic acid-like substances and humic acid-like organics in soluble microbial products (SMP) and extracellular polymeric substances (EPS) sample, it was found that the dominant fluorescence substances in membrane foulants were protein-like substances. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
- View/download PDF
28. Effects of plant biomass on nitrate removal and transformation of carbon sources in subsurface-flow constructed wetlands
- Author
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Wen, Yue, Chen, Yi, Zheng, Nan, Yang, Dianhai, and Zhou, Qi
- Subjects
- *
CONSTRUCTED wetlands , *CARBON content of plant biomass , *DENITRIFICATION , *PLANT litter , *SEWAGE disposal plants , *BIODEGRADATION of organic compounds , *NITROGEN removal (Sewage purification) , *TYPHA - Abstract
Abstract: Denitrification is strongly dependent on carbon quantity and quality in most constructed wetlands (CWs). In this study, four batch CWs were designed, and were fed with nitrate-dominated water to investigate nitrate removal affected by plant and external cattail litter with or without alkali pretreatment. The results showed that the unit with plant and alkali-pretreated litter was more efficient in the initial stage whereas unit with plant and unpretreated litter was superior to other units in the middle and terminal stages. Plant accounted for less than 37% of the nitrate removal in biomass-up added CWs. The different nitrate removal rates were found to be greatly affected by the composition of the plant biomass as well as the quantity and quality of the available organic matters. It was also observed that plant biomass degradation over the period of this study resulted in various N species and concentrations in effluent. [Copyright &y& Elsevier]
- Published
- 2010
- Full Text
- View/download PDF
29. Effect of hypochlorite cleaning on the physiochemical characteristics of polyvinylidene fluoride membranes
- Author
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Wang, Pan, Wang, Zhiwei, Wu, Zhichao, Zhou, Qi, and Yang, Dianhai
- Subjects
- *
SODIUM hypochlorite , *WASTEWATER treatment , *FLUORIDES , *MEMBRANE reactors , *FOULING , *SOLUTION (Chemistry) , *ARTIFICIAL membranes , *FOURIER transform infrared spectroscopy - Abstract
Abstract: Traditionally, the chemical cleaning is unanimously considered to be an effective means to restore membrane permeability. However, the chemical solutions can also be responsible for changes in membrane properties and thus affect the life-span of membranes. The aim of this study was to gain a better understanding of the effect of sodium hypochlorite cleaning solutions on the changes of physiochemical characteristics of microfiltration (MF) flat sheet membranes made from polyvinylidene fluoride (PVDF). A pilot-scale MBR was operated for 63 d and frequent and high dose sodium hypochlorite cleaning was carried out. The properties of the original and cleaned membranes were compared by pure water flux evaluation, contact angle measurement, mechanical testing, and attenuated total reflectance Fourier transform infrared (ATR-FTIR) spectra analysis. Effective removal of the foulant from the membrane surface resulted in more severe fouling. The pure water flux decayed faster with the extension of operation time and the membrane became more and more hydrophilic. The deterioration of ultimate tensile strength and the improvement of the ultimate elongation of membranes showed that membrane became more weak and flexible after hypochlorite cleaning. The results of ATR-FTIR indicated that the sodium hypochlorite cleaning had no vital damage to the chemical structure of PVDF membrane, but exerted impacts on its surface properties. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
- View/download PDF
30. Fluorescent dissolved organic matter variations in a submerged membrane bioreactor under different sludge retention times
- Author
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Wang, Zhiwei, Tang, Shujuan, Zhu, Yufeng, Wu, Zhichao, Zhou, Qi, and Yang, Dianhai
- Subjects
- *
ORGANIC compounds , *MEMBRANE reactors , *SEWAGE sludge , *WASTEWATER treatment , *FOULING , *THREE-dimensional imaging , *FLUORESCENCE spectroscopy - Abstract
Abstract: A pilot-scale submerged membrane bioreactor (MBR) for the treatment of real municipal wastewater was operated in this study under various sludge retention time (SRT) in order to verify the correlations of fluorescent dissolved organic matter (DOM) with membrane fouling. The fluorescent DOM determined by three-dimensional excitation–emission matrix (EEM) fluorescence spectroscopy and the trans-membrane pressure (TMP) under different SRT operation were investigated, and the correlations between them were analyzed. The results showed that the variations of fluorescent DOM (Peaks B and C) in the sludge supernatants correlated well with the variations of EEM spectra signal of bound extracellular polymeric substances (EPS) even though they were different in nature, i.e., the bound EPS were found to be more non-biodegradable than DOM. The fluorescent intensity (FI) variations of Peaks A and B in the EEM spectra of DOM were closely related to the TMP increase rate (membrane fouling) in the MBR, suggesting that they might be used to monitor the DOM variations and to indicate MBR performance. Through the EEM spectra analysis, it was confirmed in this work that the DOM in the sludge supernatants was not only originated from the bound EPS but also from the influent wastewater. [Copyright &y& Elsevier]
- Published
- 2010
- Full Text
- View/download PDF
31. Effective control of membrane fouling by filamentous bacteria in a submerged membrane bioreactor
- Author
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Wang, Zhiwei, Wang, Pan, Wang, Qiaoying, Wu, Zhichao, Zhou, Qi, and Yang, Dianhai
- Subjects
- *
FOULING , *MEMBRANE reactors , *WASTEWATER treatment , *SLUDGE bulking , *HYDROPHOBIC surfaces , *FLUORESCENCE spectroscopy , *THREE-dimensional imaging - Abstract
Abstract: Two identical submerged membrane bioreactors (MBRs) for synthetic wastewater treatment were operated in parallel under different dissolved oxygen (DO) levels for over 3 months in this study. The digital biological microscopy, particle size distribution (PSD) analysis, gel filtration chromatography (GFC), three-dimensional excitation-emission matrix (EEM) fluorescence spectroscopy, and column chromatographic method, etc. were used to identify the difference between bulking sludge (BS) caused by filamentous bacteria (low DO operation, about 0.4mg/L) and normal sludge (NS) (high DO operation, about 4.0mg/L) and to obtain a comprehensive insight into the behaviours of filamentous bacteria in MBRs. Test results showed that the MBR with bulking sludge (BS-MBR) exhibited a better filtration performance and a reduced membrane fouling compared to the MBR with normal sludge (NS-MBR). It was found that the mitigation of membrane fouling by the abundant filamentous bacteria in the BS-MBR could be attributed to the larger PSD, lower hydrophobic contents in SMP, and the retention effects of a special fouling layer induced by filamentous bacteria. [Copyright &y& Elsevier]
- Published
- 2010
- Full Text
- View/download PDF
32. Characterization of membrane foulants in an anaerobic non-woven fabric membrane bioreactor for municipal wastewater treatment
- Author
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An, Ying, Wang, Zhiwei, Wu, Zhichao, Yang, Dianhai, and Zhou, Qi
- Subjects
- *
NONWOVEN textiles , *ARTIFICIAL membranes , *BIOREACTORS , *WASTEWATER treatment , *FLUORESCENCE spectroscopy , *POLYMERS , *MOLECULAR weights , *FOURIER transform infrared spectroscopy - Abstract
Abstract: Membrane foulants were systematically characterized in an anaerobic membrane bioreactor (AnMBR), in which non-woven fabric was used as the membrane material. In this study, three-dimensional excitation-emission matrix (EEM) fluorescence spectroscopy, gel filtration chromatography (GFC), Fourier transform infrared (FT-IR) spectroscopy, scanning electron microscopy (SEM) and energy-diffusive X-ray (EDX) analyzer were used to analyze the membrane foulants. The results indicated that the organic substances with fluorescence characteristics in the extracellular polymeric substances (EPS) extracted from the membrane foulants were identified as proteins and visible humic acid-like substances by EEM technology. The GFC analysis exhibited that the EPS had much broader distributions of molecular weight (MW) and a larger weight-average molecular weight (M w) compared with the influent wastewater and the effluent. Proteins and clay materials were also identified in the fouling layer by the FT-IR analysis. The examination by EDX demonstrated that Mg, Al, Ca, Si, and Fe were the major inorganic elements in the fouling cake. Furthermore, the results suggested that bridging between deposited biopolymers and inorganic compounds could enhance the compactness of fouling layer. During the operation of AnMBR, the protein-like and visible humic acid-like substances, which were main components of the organic matters with fluorescence characteristics in the influent, were partly removed. And the large MW organics (>4000Da) in the influent were partly metabolized into low MW organics by microorganisms combined with the separation function of the cake layer and the membrane pores. [Copyright &y& Elsevier]
- Published
- 2009
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33. Optimizing granular anammox retention via hydrocycloning during two-stage deammonification of high-solid sludge anaerobic digester supernatant.
- Author
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Gong, Hui, Ding, Jianning, Wang, Shunyu, Xu, Enhui, Xue, Yonggang, Yang, Dianhai, Gu, Guowei, and Dai, Xiaohu
- Published
- 2021
- Full Text
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34. Deciphering the mechanism of medium size anammox granular sludge driving better nitrogen removal performance.
- Author
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Chen, Wenjing, Hu, Fan, Li, Xueting, Yang, Wenlan, Feng, Shaoyuan, Yang, Dianhai, Pang, Weihai, and Lu, Bin
- Subjects
- *
NITROGEN , *ENERGY metabolism , *MICROBIAL communities , *CANDIDATUS - Abstract
[Display omitted] • AnGS of 1.0–1.5 mm with higher SAA might have better nitrogen removal efficiency. • The content of slime EPS and SAA achieved positively correlation with R2 of 98.11%. • PN/PS of slime EPS and SVI achieved negatively correlation with R2 of 99.13%. • Candidatus Broccadia and Denitratisoma had strong positive correlations. • AnGS of 0.5–1.0 mm with the highest SAA exhibited higher energy metabolism. In this study, an integrated investigation to the microbial activities, extracellular polymeric substance (EPS), microbial community and function of anammox granular sludge (AnGS) was performed. Results showed that AnGS at 0.5–1.0 mm had the highest average specific anammox activity (SAA) of 345.9 mg NH 4 +-N·gVSS-1·d-1, but AnGS at 1.0–1.5 mm with higher SAA might lead to better nitrogen removal efficiency. The content of slime EPS and SAA achieved positively correlation with R2 of 98.11%, while protein/polysaccharide ratio of slime EPS and sludge volume index achieved negatively correlation with R2 of 99.13%. Cadidatus Broccadia and Denitratisoma were positive correlations and most abundant in AnGS 0.5–1.0 mm of 20% and AnGS 1.0–1.5 mm of 37%, respectively. AnGS at 0.5–1.0 mm exhibited higher energy metabolism which mostly contributed to produce protein. The study provides new insights into the mechanisms of AnGS about 1 mm playing more important role in nitrogen removal performance. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
35. Enhancing the in-situ enrichment of anammox bacteria in aerobic granules to achieve high-rate CANON at low temperatures.
- Author
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Liu, Wenru, Wang, Qian, Shen, Yaoliang, and Yang, Dianhai
- Subjects
- *
AEROBIC bacteria , *LOW temperatures , *SEQUENCING batch reactor process , *WASTEWATER treatment , *RF values (Chromatography) , *UPFLOW anaerobic sludge blanket reactors - Abstract
In this study, a high-rate CANON (Complete Autotrophic Nitrogen-removal Over Nitrite) process was started up successfully by enhancing the in-situ enrichment of anammox bacteria in aerobic granules at conditions relevant for mainstream wastewater treatment. Firstly, to provide nitrite for anammox bacteria growth efficient nitrite-oxidizing bacteria (NOB) repression was rapidly achieved and stably maintained. Both low dissolved oxygen (DO) and ammonium concentrations ratio (DO/NH 4 + <0.15) and selective washing-out of NOB-preferred smaller particles at short hydraulic retention time (HRT, 25-15 min) contributed to the NOB repression. Then the stepwise down-regulating DO concentrations from 2.8 to 1.2 mg/L enhanced the enrichment of anammox bacteria in the aerobic granules. The enriched anammox species was dominated by Ca. Brocadia sapporoensis with the estimated growth rate of 0.008–0.013 d−1 at 15 °C. Chloroflexi and Chlorobi-affiliated bacteria were also significantly enriched in the granules, which may benefit the anammox bacteria activity and growth. At the end of this study, the average total nitrogen removal rate and efficiency of the granular CANON process respectively reached 1.26 kg N·m−3·d−1 and 68% treating low-strength ammonium (∼50 mg N·L−1) wastewater under such aggressive conditions (DO = 0.8–1.5 mg/L, HRT< 1.0 h, and T = 15 °C). Overall, the aerobic granules provided a habitable niche for the proliferation and almost complete retention of the anammox bacteria. This study provides a roadmap for in-situ starting up of high-rate CANON process for mainstream wastewater treatment with aerobic granules as inoculum. • A high-rate CANON process was started up at 15 °C treating low-strength wastewater. • Aerobic granules provided a habitable niche for in-situ enriching anammox bacteria. • Residual ammonium control and small granules wash-out contributed to NOB repression. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
36. Insight into how high dissolved oxygen favors the startup of nitritation with aerobic granules.
- Author
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Wang, Jianfang, Song, Jiajun, Yin, Fangfang, Shen, Yaoliang, Yang, Dianhai, and Liu, Wenru
- Subjects
- *
SEQUENCING batch reactor process , *OXYGEN , *NEW business enterprises , *CHEMICAL oxygen demand , *COMPETITIVE advantage in business - Abstract
To elucidate how high dissolved oxygen (DO) favors the startup of nitritation with aerobic granular sludge, two granular reactors were operated under low (1–2 mg O 2 ·L−1) and high DO (3–5 mg O 2 ·L−1) conditions with similar effluent ammonium concentrations (>20 mg N·L−1). The results showed that though nitritation with an average nitrite accumulation ratio of above 95% was finally achieved in both reactors, a five-fold start-up time (eleven weeks) was required for the low DO reactor compared to the high DO reactor. Moreover, the nitritation performance was positively correlated with the extent of nitrifiers stratification in granules. The faster startup of nitritation under high DO conditions mainly resulted from the faster formation of well-stratified nitrifiers, with ammonium oxidizing bacteria (AOB) dominating granule surface. High DO operation combined with sufficient ammonium supply ensured the faster growth of AOB, which should provide a competitive advantage to AOB in competing for habitable space (i.e., granule surface). Besides, the lower porosity, larger size, and more active extracellular polymeric substances (particularly proteins) production of granules was observed under the high DO condition. Overall, these findings supported the proposition that the switch from mixed to stratified distribution of nitrifiers in granule was primarily driven by their competition for habitable space rather than by oxygen-limitation. Image 1 • Faster startup of granular nitritation under higher DO concentrations. • The startup of nitritation linked with the development of stratified nitrifiers. • Habitable space competition between AOB and NOB led to stratification of nitrifiers. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
37. Inhibitory effects of Ca2+ on ammonium exchange by zeolite in the long-term exchange and NaClO–NaCl regeneration process.
- Author
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Zhou, Chuanting, An, Ying, Zhang, Wei, Yang, Dianhai, Tang, Jianguo, Ye, Jianfeng, and Zhou, Zhen
- Subjects
- *
CALCIUM ions , *CHONDROITIN sulfate proteoglycan , *FOREIGN exchange rates , *PRODUCTIVE life span , *EXCHANGE , *AMMONIUM , *ZEOLITES , *CALCIUM carbonate - Abstract
The inhibitory effects of calcium ion (Ca2+) on ammonium (NH 4 +) exchange by zeolite were investigated in the long-term exchange and sodium hypochlorite - sodium chloride (NaClO–NaCl) regeneration process, and alleviation measure was developed and validated in this study. The batch experiments indicated that NH 4 + removal efficiency, exchange kinetics and equilibrium isotherms were significantly dependent on the coexisting Ca2+. The exchange capacity decreased from 0.58 to 0.40 mg g−1 by increasing initial Ca2+ concentration from 0 to 100 mg L−1. The inhibitory effect of Ca2+ on NH 4 + exchange efficiency was fitted to the competitive inhibition Monod model with half-saturation rate constant of 134.7 mg L−1. Ca2+ addition reduced the NH 4 + removal rate and lengthened the exchange equilibrium time of zeolite. Periodic precipitation of Ca2+ in the form of calcium carbonate from the used regenerant maintained the removal efficiency of NH 4 + commendably by alleviating inhibition effect of Ca2+ and extended the working life of zeolite. The major chemical compositions of natural and regenerated zeolite were basically unchanged. Compared to Bohart-Adams model and Thomas model, the Dose-Response model could predict the breakthrough curve well, and the fitted parameter further confirmed that NaClO–NaCl regeneration with periodic Ca2+ removal is an effective method to maintain efficient NH 4 + from wastewater by zeolite. Image 1 • Ca2+ inhibition on NH 4 + exchange by zeolite with NaClO–NaCl regeneration was studied. • The exchange capacity decreased from 0.58 to 0.40 mg g−1 with Ca2+ from 0 to 100 mg L−1. • Inhibition of Ca2+ on NH 4 + exchange matched with the competitive Monod model. • Periodic Ca2+ removal as CaCO 3 from the used regenerant alleviated Ca2+ inhibtion. • Dose-Response model predicted NH 4 + breakthrough curve well and validated alleviation. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
38. Comparing nitrite-limited and ammonium-limited anammox processes treating low-strength wastewater: Functional and population heterogeneity.
- Author
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Liu, Wenru, Song, Jiajun, Wang, Jianfang, Wu, Peng, Shen, Yaoliang, and Yang, Dianhai
- Subjects
- *
SEWAGE , *MICROBIAL diversity , *FAST reactors , *HETEROGENEITY , *BIOMASS , *UPFLOW anaerobic sludge blanket reactors , *ENERGY intensity (Economics) - Abstract
Biomass segregation between granules/biofilm and flocs is widespread in anammox-based processes. The segregation of biomass allows for easy control of processes stability. The goal of this study is to understand the biomass segregation in two anoxic anammox reactors respectively operated in nitrite-limited (R NO2) and ammonium-limited (R NH4) modes treating low-strength wastewater at 20 °C. Results showed that size-based biomass segregation was developed in both reactors. But the functional and population heterogeneity was more significant in the ammonium-limited anammox reactor. The activity and abundance of anammox bacteria in large granules were significantly higher than that in flocs under the ammonium-limited conditions. The large granules played a major role in nitrogen removal in R NH4. By contrast, both large granules and small flocs contributed significantly to the nitrogen loss in the nitrite-limited anammox reactor, since a large number of anammox bacteria existed in both granules and flocs. Besides, a number of Nitrospira -like NOB were also detected in both anoxic anammox reactors, which primarily inhabited in flocs seemingly droved by the availability of oxygen. But the abundance of Nitrospira in R NH4 was much higher than that in R NO2. All these results suggested that selective flocs removal would be necessary for R NH4 to improve its anammox performance but non-essential for R NO2. The two anammox reactors shared the predominant anammox species with the closest relative to Ca. Brocadia sp. 40 (98%). Unexpectedly, the anammox species grew faster in R NH4. But the microbial diversity and evenness was much greater in R NO2 , suggesting its higher functional stability. • The ammonium-limited and nitrite-limited anammox reactors were compared. • Anammox bacteria mainly enriched in granules, NOB preferred to live in flocs. • Anammox bacteria grew faster in the ammonium-limited reactor. • The nitrite-limited reactor possessed the higher microbial diversity and evenness. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
39. Corrigendum to “Effect of hypochlorite cleaning on the physiochemical characteristics of polyvinylidene fluoride membranes” [Chem. Eng. J. 162 (2010) 1050–1056]
- Author
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Wang, Pan, Wang, Zhiwei, Wu, Zhichao, Zhou, Qi, and Yang, Dianhai
- Published
- 2010
- Full Text
- View/download PDF
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