Your search keyword '"Wang, Tianfeng"' showing total 15 results

1. Prevention of urinary tract infection using a silver alloy hydrogel-coated catheter in critically ill patients: A single-center prospective randomized controlled study

Author

Zhao, Menglong, Geng, Shike, Zhang, Lei, Fan, Xiaoqin, Tong, Fei, Meng, Xianlin, Wang, Tianfeng, Fang, Xiaowei, Mei, Qing, and Pan, Aijun

Published

2024

2. Self-supervised heterogeneous graph learning with iterative similarity distillation

Author

Wang, Tianfeng, Pan, Zhisong, Hu, Guyu, Xu, Kun, and Zhang, Yao

Published

2023

3. Gated Region-Refine pose transformer for human pose estimation

Author

Wang, Tianfeng and Zhang, Xiaoxu

Published

2023

4. RNA2Immune: A Database of Experimentally Supported Data Linking Non-coding RNA Regulation to The Immune System

Author

Wang, Jianjian, Li, Shuang, Wang, Tianfeng, Xu, Si, Wang, Xu, Kong, Xiaotong, Lu, Xiaoyu, Zhang, Huixue, Li, Lifang, Feng, Meng, Ning, Shangwei, and Wang, Lihua

Published

2023

5. Simplified-attention Enhanced Graph Convolutional Network for 3D human pose estimation

Author

Wang, Tianfeng and Zhang, Xiaoxu

Published

2022

6. Risk of ipsilateral breast tumor recurrence and contralateral breast cancer in patients with and without TP53 variant in a large series of breast cancer patients.

Author

Guo, Yonghai, Wan, Qiting, Ouyang, Tao, Li, Jinfeng, Wang, Tianfeng, Fan, Zhaoqing, and Xie, Yuntao

Subjects

BREAST cancer, CANCER patients, DISEASE relapse, BREAST tumors, CANCER relapse, CANCER hospitals

Abstract

The association between breast cancer patients with a TP53 pathogenic variant and risk of local recurrence and contralateral breast cancer remains largely unknown. The study population of 11093 patients was derived from two cohorts at the Breast Center of Peking University Cancer Hospital in China from November 2003, to March 2018. TP53 germline variants were determined for all patients. In the study, forty-one (0.37%) carried a TP53 germline pathogenic variant, and 11052 were non-carriers (99.63%). Nineteen TP53 carriers (46.3%) and 4173 non-carriers (37.8%) were treated with breast-conserving therapy (BCT), while the remaining were treated with mastectomy. After a median follow-up of 6.7 years, the rate of ipsilateral breast tumor recurrence (IBTR) in TP53 carriers was significantly higher than that in non-carriers when treated with BCT (21.1% vs 3.8%, P = 0.006). No difference in the rate of IBTR was found between TP53 carriers and non-carriers when treated with mastectomy (0.0% vs 2.6%, P = 1.0). Furthermore, the rate of IBTR in TP53 carriers treated with BCT was significantly higher than that in those treated with mastectomy (21.1% vs 0.0%, P = 0.038). The 10-year cumulative risk of contralateral breast cancer in TP53 carriers was significantly higher than that in non-carriers (17.9% vs 3.6%, hazard ratio (HR) = 7.0, 95% CI: 3.3–14.9, P < 0.001). Patients with TP53 variants have a high risk of IBTR when treated with BCT, and exhibit a very high risk of contralateral breast cancer. TP53 carriers may not be suitable for BCT and prophylactic contralateral mastectomy might be considered. • Patients with a TP53 variant have a high risk of IBTR when treated with BCT. • TP53 carriers exhibit a very high risk of contralateral breast cancer. • TP53 carriers may not be suitable for BCT. • Prophylactic contralateral mastectomy may be considered for TP53 carriers. [ABSTRACT FROM AUTHOR]

Published

2022

7. Synchronous improvement of methane production and digestate dewaterability in sludge anaerobic digestion by nanobubble.

Author

Wang, Tianfeng, Wang, Jie, Niu, Jiazi, Guo, Peilin, Peng, Cheng, He, Rixing, Hui, Zhou, Gao, Wenqi, and Zhang, Qingfang

Subjects

*ANAEROBIC digestion, *SEWAGE sludge digestion, *SEWAGE disposal plants, *METHANE, *ZETA potential, *CARBON dioxide

Abstract

[Display omitted] • Four different NBWs were added to the sludge anaerobic digestion. • The hydrolysis of sludge anaerobic digestion can be enhanced by the addition of NBW. • Addition of NBW increased methane production by 9.0–27.8% compared with control. • Addition of NBW (Air, CO 2 , He, and N 2) improved the dewaterability of digestate. • Air-NBW was the most cost-effective additive for sludge anaerobic digestion. The subsequence anaerobic digestion (AD) of dewatered sludge (DWS) from wastewater treatment plants necessitates an emphasis on enhancing methane production and dewaterability. The effect of different nanobubble water (NBW) on AD of DWS was investigated under mesophilic conditions. Cumulative methane production was improved by 9.0–27.8% with the addition of different NBW (Air, CO 2 , He, and N 2). NBW improved methanogenic performance by significantly enhancing the hydrolysis of sludge AD. Results from the digestate, the capillary suction time, specific resistance to filtration, and moisture content could be decreased by 14.6–18.2%, 18.8–29.6%, and 13.6–19.5%, respectively. The addition of NBW can improve the dewaterability of digestate by reducing the digestate particle size and increasing the zeta potential of digestate. The addition of NBW significantly increased methane production and improved dewaterability in AD; Air-NBW showed the best improvement. [ABSTRACT FROM AUTHOR]

Published

2024

8. Enhanced hydrolysis and methane yield of temperature-phased dewatered sludge anaerobic digestion by microbial electrolysis cell.

Author

Peng, Cheng, Wang, Tianfeng, Feng, Yutong, Fan, Xin, Niu, Jiazi, Wang, Jie, Gao, Wenqi, Zhou, Youfei, Hu, Weijie, and Zhang, Qingfang

Subjects

*SEWAGE sludge digestion, *MICROBIAL cells, *ANAEROBIC digestion, *HYDROLYSIS, *METHANE, *ELECTROLYSIS

Abstract

[Display omitted] • Microbial electrolysis cell was integrated in different phases of different TPAD. • Thermophilic conditions enhanced hydrolysis more than microbial electrolysis cell. • TPAD integrated microbial electrolysis cell improved the methane yield. • Microbial electrolysis cell was more effective in mesophilic-mesophilic TPAD. Temperature-phased anaerobic digestion (TPAD) and microbial electrolysis cell (MEC) are both able to improve hydrolysis and methane yield during anaerobic digestion (AD) of dewatered sludge. However, the effect of TPAD and MEC integration at different temperatures and different phases is unclear. This study investigated the effect of the integration of intermittent energization MEC in different phases of TPAD on the digestion of dewatered sludge. Thermophilic and MEC hydrolysis could release higher total ammonia nitrogen of 186.0% and 10.3% than control, mesophilic methanogenesis phase integrated with MEC relieved the ammonia inhibition and accelerated the acid utilization leading to the relief of acid accumulation. The ultimate methane yield of the TPAD integrated with MEC was increased by 118.9%, in which the relative abundance of Methanothermobacteria and Methanosarcina was increased. Therefore, intermittent energization MEC integrated TPAD synchronously improved the hydrolysis and methane yield. [ABSTRACT FROM AUTHOR]

Published

2024

9. Quartic Hermite polynomial model-based translation method for extreme wind load estimation.

Author

Zhao, Yan-Gang, Wang, Tianfeng, Ji, Xiaowen, and Huang, Guoqing

Subjects

*WIND pressure, *HERMITE polynomials, *EXTREME value theory, *GAUSSIAN processes

Abstract

Determining the extreme values of wind loads is crucial for wind-resistant design of structures. The Hermite polynomial model (HPM)- based translation method, which uses the first four moments of wind load, is the most recognized and widely used method for extreme wind load estimations. In this study, a quartic HPM-based translation method for estimating extreme wind loads is proposed. A strategy for solving the shape coefficients is suggested for better practical use. The monotonic increasing condition required for the translation between non-Gaussian wind load and standard Gaussian process is discussed, based on which the constraint of shape coefficients governing the applicability of the quartic HPM is derived. From the validation study, it is found that the applicability of the quartic HPM is satisfactory. Compared with the cubic and improved HPMs, the quartic HPM stands out for yielding more accurate estimates of extreme wind loads. Comparative analysis with the XIMIS, an observed-maxima method, reveals the quartic HPM's consistency in estimating extreme wind loads from data with shorter periods, while the performance of XIMIS deteriorates with decreasing periods. Furthermore, the quartic HPM exhibits robustness in addressing strong non-Gaussian wind loads, outperforming the other methods under such conditions. • A quartic HPM-based translation method for estimating extreme values of wind loads is proposed. • Constraint of shape coefficients in quartic HPM that governs requirement of monotonic increasing condition is derived. • Intensity of non-Gaussianity is quantitatively defined and successfully associated to tail characteristic of parent distribution of wind loads. • Quartic HPM outperforms cubic and improved HPMs, as well as XIMIS, in estimating extreme values of wind loads with strong non-Gaussianity. [ABSTRACT FROM AUTHOR]

Published

2024

10. Intermittent energization improves anaerobic digestion of microbial electrolysis cell-assisted nitrogen-rich sludge under mesophilic and thermophilic conditions.

Author

Zhang, Qingfang, Peng, Cheng, Pu, Jiajia, Feng, Yutong, Zhu, Hong, Yang, Miaozhi, Xu, Ziying, Zhang, Yuqian, Yang, Linhai, Luo, Dan, and Wang, Tianfeng

Abstract

Anaerobic digestion of nitrogen-rich sludge is limited by hydrolysis and threatened by high ammonia nitrogen. Anaerobic digestion of microbial electrolysis cell-assisted (AD-MEC) can effectively improve hydrolysis and system stability. However, prolonged energisation can exacerbate energy consumption and lead to a reduction in economic benefits. The effects of AD-MEC on the anaerobic digestion performance of nitrogen-rich sludge under mesophilic and thermophilic conditions with different energization times (0 h, 3 h, 6 h, 12 h and 24 h per day) were investigated. AD-MEC enhances the concentration of anaerobically digested soluble chemical oxygen demand and volatile fatty acids. The AD-MEC digester in 12 h-ON/12 h-OFF energization mode under mesophilic conditions had a methane yield of 133.3 ± 6.1 mL g−1-VS added , which was enhanced by 23.7% compared with the control. The AD-MEC digester in 12 h-ON/12 h-OFF energized mode under thermophilic conditions promoted the recovery of the destabilized digester with a methane yield of 43.9 ± 2.1 mL g−1-VS added , which was 14.5% higher compared with the control. Microbial communities showed that mesophilic AD-MEC enriched hydrogenotrophic methanogens dominated by Methanosarcina , and thermophilic AD-MEC enriched Coprothermobacterota phylum bacteria and hydrogenotrophic methanogens promoted recovery of the destabilized digester. Therefore intermittent energization of the AD-MEC using the 12 h-ON/12 h-OFF mode can enhance methane yield and save energy. [Display omitted] • AD-MEC promotes hydrolysis of dewatered sludge. • 12 h-ON/OFF intermittent energisation promoted methane yield. • AD-MEC restored methane yield from destabilised thermophilic digesters. [ABSTRACT FROM AUTHOR]

Published

2024

11. Enhanced lignocellulose degradation and composts fertility of cattle manure and wheat straw composting by Bacillus inoculation.

Author

Wang, Lingying, Wang, Tianfeng, Xing, Zhijie, Zhang, Qingfang, Niu, Xiaohui, Yu, Yinshui, Teng, Zhijun, and Chen, Jixiang

Subjects

COMPOSTING, CATTLE fertility, WHEAT straw, BACILLUS (Bacteria), LIGNOCELLULOSE, CATTLE manure, THERMOPHILIC bacteria

Abstract

Few studies on Bacillus inoculation have been reported for lignocellulose degradation and composts fertility during composting. This research explored the enhanced lignocellulose degradation and composts fertility of cattle manure and wheat straw composting by Bacillus inoculation. Bacillus methylotrophicus F-6, Bacillus velezensis T-B, and Bacillus haynesii R-1 were used in this research. The results indicated that Bacillus inoculation (1) prolonged the thermophilic phase by 1–2 days, (2) decreased the NH+ 4 -N/NO- 3 -N value, E4/E6, and respiration activity for four days (RA 4) of final composts, (3) increased the cellulose, hemicellulose, and lignin degradation rate by 17.1%− 46.4%, 16.9%− 34.5%, and 30.6%− 69.4%, and (4) increased biomass of plant growth by 8.6%− 42.5% (based on final dry matter) and 16.4%− 42.4% (based on final organic matter). Pearson correlation analysis indicated that total nitrogen, total phosphorous, total potassium, and relative abundance of Atopostipes , Proteiniphilum and Thermobifida of final compost were positively correlated to the plant growth. Bacillus is a genus of thermophilic bacteria that can improve microbial biodiversity and population, further altering the physical and chemical properties of compost. The results showed Bacillus inoculation is beneficial to improve compost maturity, promote lignocellulose degradation, and improve composts fertility. [Display omitted] • Bacillus inoculation improved maturity of cattle manure and wheat straw composting. • Bacillus inoculation increased lignocellulose degradation rate by 18.1%− 42.1%. • Atopostipes , Proteiniphilum , and Thermobifida promoted plant growth. • The aboveground biomass and chlorophyll increased by 8.4%− 54.4% and 47.0%− 55.6%. [ABSTRACT FROM AUTHOR]

Published

2023

12. Anaerobic co-digestion of Chinese cabbage waste and cow manure at mesophilic and thermophilic temperatures: Digestion performance, microbial community, and biogas slurry fertility.

Author

Liu, Yi, Wang, Tianfeng, Xing, Zhijie, Ma, Yaopeng, Nan, Fuxiong, Pan, Lei, and Chen, Jixiang

Subjects

*CATTLE manure, *BIOGAS production, *CHINESE cabbage, *BIOGAS, *MICROBIAL communities, *SLURRY, *DIGESTION, *PLANT growth

Abstract

[Display omitted] • Methane yield of thermophilic digester is greater than that of mesophilic digester. • Bacterial and archaeal diversity of mesophilic digesters is more abundant. • Plant growth promotion of mesophilic biogas slurry is more prominent. • Potassium in biogas slurry is the key factor to promote plant growth. The objective of this study was to investigate the effects of mixing ratios of Chinese cabbage waste (CCW) and cow manure (CM) on methane yields, microbial community, and biogas slurry fertility during anaerobic co-digestion. Batch experiments were conducted at mesophilic and thermophilic temperatures with five different CCW/CM mixing ratios. Methane yields at mesophilic and thermophilic temperatures were 4.2–184.4 mL g−1 Volatile solids added (mL g−1 VS added) and 11.8–321.7 mL g−1 VS added , respectively. The richness and diversity of bacteria and archaea at mesophilic temperatures were higher than those at thermophilic temperatures. Compared with the unfertilized control, the dry weight of corn seedlings with the follow-up application of mesophilic or thermophilic biogas slurry increased by 12.3 %-73.4 % or 16.8 %-43.3 %, respectively. This study demonstrates that thermophilic temperatures are conducive to increasing methane yields, but mesophilic temperatures are conducive to improving the biogas slurry fertility. [ABSTRACT FROM AUTHOR]

Published

2022

13. Enhanced sludge thermophilic anaerobic digestion performance by single-chambered microbial electrolysis cells under ammonia inhibition.

Author

Zhang, Qingfang, Zhao, Minmin, Wang, Tianfeng, Zeng, Liyuan, Bai, Chengxiang, Wu, Ruoyu, Xing, Zhijie, Xiao, Guoguang, and Shi, Xiaofeng

Subjects

ANAEROBIC digestion, MICROBIAL cells, ELECTROLYSIS, BACTERIAL diversity, BIOGAS production, AMMONIA, HIGH voltages, VOLTAGE

Abstract

Enrichment of the microbial mass is critical to enhance the performance of anaerobic digestion, especially under adverse conditions. In this study, microbial electrolysis cells combined with anaerobic digesters were used for anaerobic digestion of ammonia rich synthetic substrates and sludge. For the synthetic substrate, with the increasing of applied voltage, the methane yield presented earlier increase and later decrease trend. The methane yield was the highest at an applied voltage of 0.7 V. For the sludge, the amounts of ammonia nitrogen and free ammonia nitrogen at an applied voltage of 0.7 V were higher than that at 0 V, and the maximum methane yield at voltages of 0 V and 0.7 V were 52.6 and 97.8 mL g−1-VSS added , respectively. Methanosarcina and Methanothermobacter were the predominant archaea. Archaea species at an applied voltage of 0.7 V were more diverse than those at an applied voltage of 0 V. The results indicated that microbial electrolysis cells could increase the number and mass of microbial species in the thermophilic anaerobic digesters under ammonia inhibition. This study might provide a feasible method to operate sludge thermophilic anaerobic digestion at higher organic loading rates. [Display omitted] • The performance of thermophilic AD-MEC were affected by applied voltage. • AD-MEC (0.7 V) improved the sludge hydrolysis and biofilm biomass. • AD-MEC (0.7 V) enriched the diversity bacteria and archaea. • AD-MEC (0.7 V) enhanced the methane yield at higher ammonia and FAN. [ABSTRACT FROM AUTHOR]

Published

2022

14. Effects of chitosan and rice husk powder on thermal hydrolysis-anaerobic digested sludge conditioning: Dewaterability and biogas slurry fertility.

Author

Zhang, Qingfang, Shi, Hailong, Zhao, Yanbin, Pu, Jiajia, Peng, Cheng, Wu, Ruoyu, Zhang, Yuqian, Xu, Ziying, and Wang, Tianfeng

Subjects

*SLUDGE conditioning, *BIOGAS, *SLURRY, *PEARSON correlation (Statistics), *CHITOSAN, *CORN seedlings, *POWDERS, *RICE hulls

Abstract

To enhance the dewaterability of anaerobic digested sludge and to make full use of the biogas slurry. This study set up five sludge conditioning methods: polymeric ferric sulfate, polymeric aluminum chloride, cationic polyacrylamide, chitosan, and chitosan combined with rice husk powder. Their effects on the dewaterability of thermal hydrolysis-anaerobic digested sludge, bacterial community, and biogas slurry fertility were studied to find a non-toxic and non-risk dewatering technology for the environment and biogas slurry. Compared with that of the control group, moisture content, normalization capillary suction time, and specific resistance to filtration were reduced by 12.8%, 97.7%, and 82.9%, respectively. Chitosan enlarges the sludge flocs and forms complexes with proteins, disrupting the structure of the extracellular polymeric substances, thereby exposing more hydrophobic groups and reducing the hydrophilicity of the sludge. The subsequent addition of rice husk powder enhances the adsorption of hydrophilic substances and provides a stronger drainage channel for the sludge. In addition, the biogas slurry obtained by this conditioning method used as a fertilizer increased the dry weight and fresh weight of corn seedlings by 59.3% and 91.0%, respectively. And the total chlorophyll content increased by 84.6%. Pearson's correlation analysis showed that chitosan and rice husk meal had no toxic effect on the biogas slurry compared to the other three flocculants. The results showed that the combined treatment of chitosan and rice husk powder resulted in the best dewaterability. Overall, chitosan combined with rice husk powder is a green dewatering technology with great potential for anaerobic digested sludge dewatering and biogas slurry recycling. [Display omitted] • Compared with control, CS+RHP reduced SRF and NCST of sludge by 82.9% and 97.7%. • Compared with PFS, PAC, and CPAM, CS is better for plant growth promotion. • Compared with control, dry weight of corn seedling in CS+RHP increased by 59.3%. • Compared with control, total chlorophyll of seedling in CS+RHP increased by 84.6%. [ABSTRACT FROM AUTHOR]

Published

2024

15. Comparison of anaerobic co-digestion of pig manure and sludge at different mixing ratios at thermophilic and mesophilic temperatures.

Author

Zhang, Qingfang, Zeng, Liyuan, Fu, Xin, Pan, Feng, Shi, Xiaofeng, and Wang, Tianfeng

Subjects

*SEWAGE sludge digestion, *ANAEROBIC digestion, *WATER efficiency, *SWINE, *LAND use, *TEMPERATURE, *MANURES

Abstract

[Display omitted] • Co-digestion improved methane yield 31.3%-68.0% at thermophilic temperature. • Co-digestion improved methane yield 83.0%-136.5% at mesophilic temperature. • The highest methane yield of anaerobic co-digestion obtained at P/S = 2:1. • NCST and TS of sediment increased with increasing initial TS of substrate. • NCST has a strong negative correlation with the water removal efficiency. The objective of this study is to assess the effects of the mixing ratio on the methane production and digestate dewaterability of co-digestion of pig manure (P) and sludge (S). Batch experiments were carried out at five different P/S mixing ratios at mesophilic and thermophilic temperatures. Compared to sludge anaerobic digestion, co-digestion of pig manure with sludge increased methane yield 83.0%-136.5% at mesophilic temperature and 31.3%-68.0% at thermophilic temperature. The normalized capillary suction time (NCST) and total solids (TS) of sediment (centrifugal dewatering) increased when pig manure proportion of substrate increased. The NCST at thermophilic temperatures (4.87–17.58 s g−1-TSS) was higher than that at mesophilic temperatures (1.89–10.95 s g−1-TSS). However, the TS of sediment was close at thermophilic and mesophilic temperatures. The results indicated that anaerobic co-digestion of pig manure and sludge at a proper mixing ratio (P/S = 2:1) provides a good choice for energy recovery and land utilization. [ABSTRACT FROM AUTHOR]

Published

2021