5 results on '"Zhang, Chenyu"'
Search Results
2. Semi-interpenetrating network hydrogels-based microcapsule for quorum quenching bacteria biocontainment to enhance biofouling control in membrane bioreactor.
- Author
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Yi, Kaixin, Huang, Jinhui, Pang, Haoliang, Li, Suzhou, Liu, Zhexi, Wang, Xia, Zhang, Wei, Zhang, Chenyu, Liu, Si, and Gu, Yanling
- Subjects
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FOULING , *CHEMICAL stability , *POLYACRYLAMIDE , *POLYMER networks , *WASTEWATER treatment , *FLOCCULATION , *BACTERIA - Abstract
[Display omitted] • A core–shell QQ-encapsulated structure was prepared by a standardized method. • SIPN shell enables excellent biocontainment with physical and chemical stability. • The anti-biofouling and phosphorus removal were enhanced in QQ microcapsule MBR. • QQ microcapsule promoted the application of QQ media for anti-biofouling in MBR. Microbial quorum quenching (QQ) has been proven to be a sustainable anti-biological fouling strategy for membrane bioreactors (MBR), but the long-term stability and practical application in MBR were uncertain. We reported a novel semi-interpenetrating network (SIPN) hydrogels-based design of QQ bacteria (Rhodococcus sp. BH4) encapsulation for both biofouling control and enhancement of organic pollutants removal in MBR. The microcapsule included the alginate core, chitosan thin intermediate compartment and SIPN (sodium alginate / polyacrylamide) shell, which exhibited near-perfect biocontainment, including preventing detectable QQ bacteria escape and improving mechanical strength. The QQ-microcapsules in the MBR demonstrated its significant anti-biofouling effect for treating synthetic wastewater (i.e., membrane fouling was delayed by 233%-280% compared to the control MBR membrane). Meanwhile, the efficiency of phosphorus removal was developed in QQ-microcapsule MBR because of the enhanced phosphorus removal triggered by the flocculation of polyacrylamide (PAM) fraction in SIPN. This promising QQ media brings the broad potential for biofouling control and long-term efficient operation in actual MBR wastewater treatment. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
3. Isolation and application of Bacillus thuringiensis LZX01: Efficient membrane biofouling mitigation function and anti-toxicity potential.
- Author
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Liu, Zhexi, Pang, Haoliang, Yi, Kaixin, Wang, Xia, Zhang, Wei, Zhang, Chenyu, Liu, Si, Gu, Yanling, Huang, Jinhui, and Shi, Lixiu
- Subjects
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ACYL-homoserine lactones , *BACILLUS thuringiensis , *FOULING , *FOULING organisms , *POISONS - Abstract
[Display omitted] • A new quorum quenching strain LZX01 was isolated and produce intracellular lactonase. • LZX01 can rapidly degrade AHL and effectively mitigated membrane biofouling. • LZX01 decreased activated sludge TB-EPS and enhances its hydrophilicity. • LZX01 affected the growth of biofilm-associated bacteria but not MBR performance. • LZX01 still has high QQ activity in the environment rich in some toxic substances. Significant progress has been made in mitigating membrane biofouling by microbial quorum quenching (QQ). More efficient and survivable QQ strains need to be discovered. A new strain named Bacillus thuringiensis LZX01 was isolated in this study using a low carbon source concentration "starving" method from a membrane bioreactor (MBR). LZX01 secreted intracellular lactonase to enable QQ behavior and was capable of degrading 90 % of C8-HSL (200 ng/mL) within 30 min, which effectively delayed biofouling by inhibiting the growth of bacteria associated with biofouling and improving the hydrophilicity of bound extracellular polymeric substances. As a result, the membrane biofouling rate of MBR adding LZX01 was four times slower than that of the control MBR. Importantly, LZX01 maintains its QQ activity even in environments contaminated with typical toxic pollutants. Therefore, with high efficiency, toxicity resistance, and easy culture, LZX01 holds great potential and significant promise for biofouling control applications. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
4. Enhancing quorum quenching media with 3D robust electrospinning coating: A novel biofouling control strategy for membrane bioreactors.
- Author
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Pang, Haoliang, Huang, Jinhui, Li, Xue, Yi, Kaixin, Li, Suzhou, Liu, Zhexi, Zhang, Wei, Zhang, Chenyu, Liu, Si, and Gu, Yanling
- Subjects
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FOULING , *SURFACE coatings , *BIOREACTORS , *QUORUM sensing , *ELECTROSPINNING , *FOULING organisms , *HYDROGELS , *REVERSE osmosis - Abstract
• A novel method of electrospinning was employed to enhance quorum quenching hydrogel. • QQ-ECHB performs excellent physical stability and environmental-tolerance. • Stable and long-lasting quorum quenching can be effected at low dosage of QQ-ECHB. • MBR biofouling greatly mitigated and extended service cycle with QQ media addition. Bacterial quorum quenching (QQ) is an effective strategy for controlling biofouling in membrane bioreactor (MBR) by interfering the releasing and degradation of signal molecules during quorum sensing (QS) process. However, due to the framework feature of QQ media, the maintenance of QQ activity and the restriction of mass transfer threshold, it has been difficult to design a more stable and better performing structure in a long period of time. In this research, electrospun fiber coated hydrogel QQ beads (QQ-ECHB) were fabricated by using electrospun nanofiber coated hydrogel to strengthen layers of QQ carriers for the first time. The robust porous PVDF 3D nanofiber membrane was coated on the surface of millimeter-scale QQ hydrogel beads. Biocompatible hydrogel entrapping quorum quenching bacteria (sp.BH4) was employed as the core of the QQ-ECHB. In MBR with the addition of QQ-ECHB, the time to reach transmembrane pressure (TMP) of 40 kPa was 4 times longer than conventional MBR. The robust coating and porous microstructure of QQ-ECHB contributed to keeping a lasting QQ activity and stable physical washing effect at a very low dosage (10g beads/5L MBR). Physical stability and environmental-tolerance tests also verified that the carrier can maintain the structural strength and keep the core bacteria stable when suffering long-term cyclic compression and great fluctuations in sewage quality. [Display omitted] [ABSTRACT FROM AUTHOR]
- Published
- 2023
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- View/download PDF
5. Silica reinforced core-shell quorum quenching beads to control biofouling in an MBR.
- Author
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Li, Suzhou, Huang, Jinhui, Yi, Kaixin, Pang, Haoliang, Liu, Zhexi, Zhang, Wei, Zhang, Chenyu, Liu, Si, Li, Jiaoni, Liu, Chunhua, and Shu, Wenli
- Subjects
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FOULING , *SILICA , *ETHYLENEDIAMINETETRAACETIC acid , *EXTREME environments , *COMPRESSIVE strength - Abstract
[Display omitted] • The BH4 immobilized media were prepared using nano-silica and silica beads as core reinforcements. • The inclusion of two types of silicon in the beads ensured they were ready for prolonged use. • The application of two quorum quenching media effectively mitigated MBR biofouling. Quorum quenching (QQ) is a strategy to alleviate membrane biofouling in membrane bioreactors (MBRs). As a stable inorganic material with a large specific surface area, silica is often used to prepare of microbial immobilization composites. This study selected two different sizes of silica materials (silica beads and Nano-silica) to make the core encapsulate a QQ bacterial strain (Rhodococcus sp. BH4). The compressive strength and stability under extreme environments were characterized, and the positive effect of silica on QQ beads was verified. The results showed that both QQ beads could resist the impact of high pressure, acid, alkali, salt and EDTA buffer. It was proved that they have the potential to quench effectively continuously. Both beads were still more than 70 % QQ activity after five months of use. In the lab-scale continuous MBR experiment, the time of transmembrane pressure (TMP) reaching 50 kPa in both experimental groups was more than 3 times that in the blank group. The TMP contamination time was extended from 5 to 6 days in the blank group to 18–19 days. Among them, silica beads greatly improve the compressive strength of the beads, and also have a better performance in QQ. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
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