Your search keyword '"Wang, Yunhe"' showing total 39 results

1. Evolving pathway activation from cancer gene expression data using nature-inspired ensemble optimization.

Author

Wang, Xubin, Wang, Yunhe, Ma, Zhiqiang, Wong, Ka-Chun, and Li, Xiangtao

Subjects

*CANCER genes, *GENE expression, *FEATURE selection, *MACHINE learning, *BIOLOGICALLY inspired computing, *TASK analysis, *ANT algorithms

Abstract

Class-imbalanced biological datasets pose significant challenges in machine learning and data analysis tasks. Prior methods to handle imbalance rely on data oversampling, which increases computational costs and overfitting. While feature selection and ensemble learning are promising techniques, current applications in imbalanced contexts are limited. To address these challenges, we present a novel framework called Hybrid Sampling Nature-Inspired Optimization Ensemble (HSNOE) to enhance the identification of hidden responders in imbalanced biological datasets. Our contributions are three-fold: 1) A hybrid undersampling and oversampling technique to mitigate class-imbalance; 2) Integrate an ant colony optimization-based feature selection that identifies informative feature subsets; 3) An ensemble classifier integrating diverse models trained on optimized features to improve performance. The experiments conducted on the five biological datasets demonstrate that HSNOE exhibits more stable comprehensive performance across six evaluation metrics compared to ten benchmark methods. We also conducted a biological analysis specifically on the Pan-cancer dataset. Moreover, the HSNOE method has been made publicly available on GitHub. 1 1 https://github.com/wangxb96/HSNOE. • HSNOE can mitigate the effects of data skew when training the model. • A nature-inspired feature selection method is used to identify informative features. • HSNOE combines a nature-inspired optimization method to realize ensemble. • A case study was conducted to show the generalization capabilities of HSNOE. [ABSTRACT FROM AUTHOR]

Published

2024

2. Exploring high-throughput biomolecular data with multiobjective robust continuous clustering.

Author

Wang, Yunhe, Wong, Ka-Chun, and Li, Xiangtao

Subjects

*RNA sequencing, *ALGORITHMS

Abstract

Clustering of cell types from a large number of high-dimensional heterogeneous cells is a vital step in analyzing single-cell RNA-seq data. Although several computational methods have been proposed to evolve such data, most of them suffer from some limitations such as high-level noise, high dimensionality, and low generalization. To address these challenges, a multiobjective robust continuous clustering algorithm (MORCC) is presented to discriminate the different cell types in a single-cell RNA-seq dataset. Stepwise, first a dimensionality reduction method is applied to map the high-dimensional heterogeneous cells into a desired low-dimensional space while preserving the features of the original space. Then, to overcome the instability of trial-and-error connectivity weights in the robust continuous clustering, MORCC proposes applying evolutionary operators to optimize the connectivity weights dynamically, and to select the suitable parameters with two cluster validity indices. To demonstrate the effectiveness of MORCC, we compare it to several state-of-the-art methods on six single-cell RNA-seq datasets, revealing its superior clustering ability from several perspectives. In addition, we carry out a parameter analysis, a case study, and visualization and biological interpretability analyses to validate MORCC's cell identification capability on single-cell RNA-seq data. [ABSTRACT FROM AUTHOR]

Published

2022

3. Lateral load response of L-shaped steel–concrete composite shear walls using multi-partition steel tube.

Author

Wang, Yunhe, Guo, Lanhui, Li, Hongda, Shafaei, Soheil, and Yu, Yue

Subjects

*STEEL-concrete composites, *SHEAR walls, *IRON & steel plates, *STEEL tubes, *COMPOSITE columns, *AXIAL loads, *STRESS concentration, *LATERAL loads

Abstract

• A novel L-shaped composite shear wall composed of a series of columns was proposed. • An experimental investigation of L-shaped composite shear walls under cyclic lateral and axial loads was conducted. • A 3D finite element model, considering improved confinement, plastic hardening, and damage accumulation, can simulate seismic behavior well. • Plastic stress distributed methods were proposed to predict the lateral load strength of an L-shaped steel composite shear wall. Behavior of L-shaped multi-partition steel–concrete composite shear walls (MP-SC-CSWs) subjected to the cyclic lateral load is experimentally and numerically evaluated. Such composite shear walls possess proper capacity, stiffness, and ductility, as the steel tube strengthened by inner steel plates considerably confines the infill concrete. Four large-scale L-shaped MP-SC-CSW specimens were designed, fabricated, and tested. The L-shaped specimens were exposed to lateral hysteretic loading and axial compression loading. The experimental parameters were axial load ratios and height-to-depth ratios (wall aspect ratios). The experimental results indicated that the L-shaped MP-SC-CSWs had high lateral capacities, energy dissipations, and good ductility. Based on the experimental observations, specimens failed in flexure mode. Increasing the axial load ratio enhances the capacity to dissipate energy but decreases the ductility. The tested specimens could meet the drift requirement of the specification even when subjected to a high design axial load ratio of 0.76. Additionally, the wall aspect ratios had little influence on the ductility. 3D nonlinear finite element models of tested specimens were established and verified with test results to conduct further numerical studies. A simplified method based on the plastic stress distribution was developed and confirmed by the experimental and finite element analysis to calculate the flexural capacities of MP-SC-CSWs. [ABSTRACT FROM AUTHOR]

Published

2023

4. Emerging roles of phase separation in plant transcription and chromatin organization.

Author

Wang, Yunhe, He, Shengbo, and Fang, Xiaofeng

Subjects

*PHASE separation, *PLANT chromatin, *NUCLEIC acid separation, *GENETIC transcription regulation, *GENE expression, *NUCLEIC acids

Abstract

Transcription is a core step in gene expression. Regulation of transcription is achieved at the level of transcription machinery, local chromatin environment as well as higher-order chromatin organization. Our understanding of transcriptional regulation was advanced by recent introduction of transcription and chromatin-associated condensates, which typically arise via phase separation of proteins and nucleic acids. While studies from mammalian cells are unveiling the mechanisms of phase separation in transcription regulation, those in plants further broaden and deepen our understanding of this process. In this review, we discuss recent progress in plants how phase separation operates in RNA-mediated chromatin silencing, transcription activity, and chromatin compartmentalization. [ABSTRACT FROM AUTHOR]

Published

2023

5. Nature-inspired multiobjective patient stratification from cancer gene expression data.

Author

Wang, Yunhe, Ma, Zhiqiang, Wong, Ka-Chun, and Li, Xiangtao

Subjects

*CANCER genes, *GENE expression, *FACIAL expression, *COMPLEXITY (Philosophy)

Abstract

Stratifying personalized treatment for patients has been one of the main challenges for modern medicine. To solve this problem, various clustering algorithms have been proposed for patient stratification in both quantification and biological ways meaningfully. However, most of the existing clustering algorithms still suffer from many realistic algorithm limitations such as low diagnostic ability and bad generalization. Therefore, to address those restrictions, we propose a novel multiobjective spectral clustering algorithm based on decomposition. A population that consists of distance weight and two other indispensable parameters of the spectral clustering is optimized by the proposed algorithm. Two cluster validity indices are proposed to capture the characteristics of different datasets. To validate the effectiveness and efficiency of the proposed algorithm, we benchmark it on thirty-five real patient stratification datasets and six real-world medical datasets across thousands of comparisons with fifteen algorithms, including ten effective clustering methods and five state-of-the-art multiobjective algorithms. The experimental results indicate that the proposed algorithm performs better than other compared algorithms with high clustering ability for patient stratification. Moreover, extensive analysis of time complexity and parameters are performed to prove the robustness of the proposed algorithm from different perspectives. [ABSTRACT FROM AUTHOR]

Published

2020

6. Solution processed hybrid Graphene-MoO3 hole transport layers for improved performance of organic solar cells.

Author

Dang, Yang, Wang, Yunhe, Shen, Si, Huang, Shuai, Qu, Xiangwei, Pang, Yu, Silva, S. Ravi P., Kang, Bonan, and Lu, Geyu

Subjects

*SOLAR cells, *MOLECULAR orbitals, *BUTYRIC acid, *HOLE mobility, *CHARGE carrier mobility

Abstract

Abstract A facile hydrothermal process is used to prepare hybrid graphene-MoO 3 particles to be used as hole transport layers (HTLs) in organic solar cells (OSCs). The OSCs with active layer donor/acceptor combinations of Poly[N-9″-hepta-decanyl-2,7-carbazolealt-5,5-(4′,7′-di-2-thienyl-2′,1′,3′-benzothiadiazole)] (PCDTBT) and fullerene derivative [6,6]-phenyl-C71-butyric acid methylester (PC 71 BM) exhibit an enhanced power conversion efficiency (PCE) of 7.07%, an increase by 19% with the hybrid HTL compared to those devices with only MoO 3 HTLs. Through investigating the optical and electrical properties of the devices, we found that the superior PCE originates from an enhanced hole transport property resulting from the extraction capabilities of G-MoO 3. Comparing with thermal evaporated MoO 3 , the G-MoO 3 exhibits a higher optical transmittance, improved electrical conductivity and enhanced hole mobility. Moreover, the work function of the hybrid G-MoO 3 was close to the highest occupied molecular orbital (HOMO) level of PCDTBT, which reduced the energy barrier for the carriers and was suited for hole transport. Graphical abstract Image 1028359 Highlights • Hybrid graphene-MoO 3 (G-MoO 3) particles were synthesized via a simple hydrothermal method. • The G-MoO 3 was introduced into organic solar cells as hole transportion layers. • The organic solar cells with G-MoO 3 hole transportion layers exhibited higher conductivity and hole mobility. [ABSTRACT FROM AUTHOR]

Published

2019

7. Experimental study of rectangular multi-partition steel-concrete composite shear walls.

Author

Guo, Lanhui, Wang, Yunhe, and Zhang, Sumei

Subjects

*DUCTILITY, *ENERGY dissipation, *STAINLESS steel, *CONCRETE, *SHEAR walls

Abstract

Multi-partition composite shear walls have the strong points, such as high load-carrying capacity, good ductility, excellent energy dissipation capacity and fast construction speed. Even if they were used in the buildings, there was a little research work on this kind of composite shear walls. To study the axial behavior and cyclic behavior of multi-partition composite shear walls, six axially loaded specimens were tested, and two specimens were tested under horizontal cyclic load. Through testing of specimens, the damage progression, failure mechanism, stiffness and energy dissipation of composite shear walls were investigated. The experimental results showed that this kind shear walls under axial load had high load-carrying capacity and good ductility. The steel section could confine the core concrete, whose capacity was higher than that the summation capacity of steel section and core concrete. The shear walls exhibited excellent energy dissipation ability under high axial load ratio. Because of the confinement of steel section, the specimen showed higher energy dissipation capacity with the increasing of axial load ratio. However, the ductility of the specimen under cyclic load decreased with the increasing of axial load ratio. The experimental results were compared with the calculated results calculated by EC4, AISC and CECS. The results showed that all design codes underestimated the axial compressive capacity of the specimens. For specimens subjected to cyclic load, the results based on EC4 were the nearest to the experimental results. [ABSTRACT FROM AUTHOR]

Published

2018

8. Convex combination multiple populations competitive swarm optimization for moving target search using UAVs.

Author

Ma, Tianxi, Wang, Yunhe, and Li, Xiangtao

Subjects

*PARTICLE swarm optimization, *OPTIMIZATION algorithms, *DRONE aircraft, *SEARCH algorithms, *PERFORMANCES

Abstract

Unmanned aerial vehicles (UAVs) searching for a moving target is a complex search optimization problem that aims to find a path with maximum probability of observing the target. However, as the area where the target may be located increases in size, existing methods tend to cause easy entrapment into local optima, resulting in poor performance. Hence, we propose a Convex Combination Multiple Populations Competitive Swarm Optimization algorithm (CDCSO) in this paper. First, we suggest applying the multiple population strategy to enhance the search ability of the algorithm. The population of interest is divided into two subgroups that each conduct the CSO. Second, we propose a novel convex combination update strategy to coordinate the two subgroups to search jointly for the global optimal solution. At each iteration, this strategy allows the two subgroups to compete and learn from each other, which prevents the population from falling into the local optimum. We then designed new scenarios containing 3 to 6 probability areas to investigate the performance of our proposed algorithm in multiple and complex scenarios. Results: To demonstrate the effectiveness and stability of the proposed algorithm, we compared it with several swarm optimization algorithms from different perspectives. Experimental results showed that the proposed algorithm has superior performance in following and intercepting a high-probability area. To further demonstrate the generality of the convex combination update strategy, we evaluated the strategy in several developed particle swarm optimization algorithms. The results demonstrated that the convex combination update strategy can be integrated into other algorithms to better address the moving target search problem. [ABSTRACT FROM AUTHOR]

Published

2023

9. Eccentric behavior of l-shaped Multi-partition Steel-Concrete composite shear walls.

Author

Wang, Yunhe, Guo, Lanhui, Chen, Jie, and Zhao, Hui

Subjects

*SHEAR walls, *STEEL-concrete composites, *CONCRETE-filled tubes, *ECCENTRIC loads, *FINITE element method, *STEEL tubes, *COMPOSITE columns

Abstract

• A new type of l -shaped steel–concrete composite shear wall using multi-partition steel tube was proposed. • The behavior under the eccentric load was investigated by the means of experiments and finite element analysis. • The proposed model using improved constitutional relationship of concrete simulated the eccentric behavior reasonably. • Simplified formulas were proposed to predict the N - M curves, which could consider the influence of load angle and slenderness. An l -shaped composite shear wall, comprised of a multi-partition steel tube and concrete, is developed to improve the behavior of the l -shaped component. It possesses high load-resisting strength and good ductility as it makes better use of steel and concrete. Eleven samples were tested under eccentric load to determine the impacts of the depth, breadth, and load angle. The experimental results showed that the eccentric strength of the specimen under a load angle π was higher than that of the specimen under a load angle of 0. The specimens failed in out-of-plane and in-plane flexural modes when the depth-to-width ratios were different. Then, the finite element (FE) model using an improved constitutional relation of concrete was established to analyze the eccentric mechanism of the l -shaped composite shear walls. Furthermore, parametric analysis using the FE model was taken to determine the key factors of eccentric behavior. Compared to the design methods specified in EC4, AISC, and CECS, it was found that the calculated capacity for the stub was underestimated while the calculated capacity of the slender components was overestimated. The simplified formulas were presented for predicting the N - M curves based on the experimental and FE analysis and it could conservatively include the influence of the load angle and the relative slenderness. [ABSTRACT FROM AUTHOR]

Published

2023

10. Experimental research on incipient fault voltage disturbance model of power cable insulation.

Author

Li, Jinsuo, Wang, Yunhe, Wang, Xiaojing, and Yong, Jing

Subjects

*PARTIAL discharges, *TIME-domain analysis, *VOLTAGE, *HILBERT transform, *CURVE fitting, *CABLES

Abstract

• The sub-cycle voltage disturbance caused by the incipient fault is obtained through experiment. • The waveform and occurrence frequency characteristics of the voltage disturbance are analyzed. • The model and disturbance characteristics indexes of incipient fault sub-cycle disturbance are proposed. Incipient fault is the precursors of permanent cable fault. Analyzing and modeling the transient power disturbances caused by incipient fault is an important prerequisite for accurately identifying incipient cable fault. In this paper, a large number of sub-cycle voltage disturbances caused by the incipient fault are obtained by performing an applying voltage test on a 10 kV cable with local insulation defects. Then, for the voltage signal with disturbance, the time domain analysis method is used to extract the disturbance, and Hilbert transform method and curve fitting method are used to analyze the variation trend of the disturbance. Three stages of the disturbance are obtained: normal stage, fault excitation stage, disturbance attenuation stage. Then an incipient fault sub-cycle voltage disturbance model is proposed and sub-cycle disturbance characteristic indexes which are fault excitation starting time and fault excitation duration are extracted; The validity of the model is analyzed by the reproduced experimental waveform, and the disturbance propagation characteristics along the line are analyzed by PSCAD simulation. [ABSTRACT FROM AUTHOR]

Published

2023

11. UCAV Path Planning for Avoiding Obstacles using Cooperative Co-evolution Spider Monkey Optimization.

Author

Zhu, Haoran, Wang, Yunhe, and Li, Xiangtao

Subjects

*COEVOLUTION, *MONKEYS, *EVOLUTIONARY algorithms, *DRONE aircraft, *GLOBAL optimization

Abstract

The unmanned combat aerial vehicle (UCAV) path planning problem is a complex global optimization problem that aims to seek an optimal flight route that avoids the threats and constraints on the battlefield. However, as the number and degree of the path threats increases, the recent UCAV path planning algorithms all suffer from being trapped into local optima with a low convergence rate, which leads to the poor performance. Therefore, to resolve these problems, we propose a Cooperative co-Evolution (CE)-based Spider Monkey Optimization (SMO) algorithm, named CESMO to address UCAV path planning problem for avoiding obstacles. First, a cooperative co-evolution strategy is proposed to prevent the algorithms from falling into local optima easily, enhancing the coherence of the path. After that, a further division is applied to the algorithm for diversifying the search direction of each individual in the sub-groups. Finally, the spider monkey optimization-based search mechanism is designed to further strengthen the search efficiency and boost the convergence rate. Experimental results demonstrate that our proposed method is more competitive than other state-of-the-art evolutionary algorithms for UCAV path planning problem considering the quality and stability of the final paths. [ABSTRACT FROM AUTHOR]

Published

2022

12. A self-adaptive weighted differential evolution approach for large-scale feature selection.

Author

Wang, Xubin, Wang, Yunhe, Wong, Ka-Chun, and Li, Xiangtao

Subjects

*FEATURE selection, *DIFFERENTIAL evolution, *ALGORITHMS, *EVOLUTIONARY computation, *SOURCE code, *LOCAL government

Abstract

Recently, many evolutionary computation methods have been developed to solve the feature selection problem. However, the studies focused mainly on small-scale issues, resulting in stagnation issues in local optima and numerical instability when dealing with large-scale feature selection dilemmas. To address these challenges, this paper proposes a novel weighted differential evolution algorithm based on self-adaptive mechanism, named SaWDE, to solve large-scale feature selection. First, a multi-population mechanism is adopted to enhance the diversity of the population. Then, we propose a new self-adaptive mechanism that selects several strategies from a strategy pool to capture the diverse characteristics of the datasets from the historical information. Finally, a weighted model is designed to identify the important features, which enables our model to generate the most suitable feature-selection solution. We demonstrate the effectiveness of our algorithm on twelve large-scale datasets. The performance of SaWDE is superior compared to six non-EC algorithms and six other EC algorithms, on both training and test datasets and on subset size, indicating that our algorithm is a favorable tool to solve the large-scale feature selection problem. Moreover, we have experimented SaWDE with six EC algorithms on twelve higher-dimensional data, which demonstrates that SaWDE is more robust and efficient compared to those state-of-the-art methods. SaWDE source code is available on Github at https://github.com/wangxb96/SaWDE. [ABSTRACT FROM AUTHOR]

Published

2022

13. L-shaped steel-concrete composite columns under axial load: Experiment, simulations and design method.

Author

Wang, Yunhe, Guo, Lanhui, and Li, Hongda

Subjects

*COMPOSITE columns, *STEEL-concrete composites, *AXIAL loads, *FINITE element method, *STEEL tubes, *FAILURE mode & effects analysis, *CONCRETE columns

Abstract

The research has analyzed the axial behavior of an innovative L-shaped composite column. The L-shaped composite columns could work as series rectangular composite columns, which could take advantage of the steel tubes and the inner concrete. Seven specimens have been tested to analyze the failure progress, load-carrying capacity and failure mode. Main parameters were the length-to-width ratio and length-to-depth ratio. The shear failure mode accompanied by local buckling appeared for the tested specimens. The results showed that such columns possessed high strength and good ductility. A finite element model was established and verified by the experimental results. Results showed that the finite element model could simulate the axial behavior of the L-shaped composite columns well. Parametric analysis was conducted to analyze the influence on the axial behavior of composite columns. Furthermore, a theoretical model was proposed to calculate the axial strength of such component and was in good agreement with the experimental results. A simplified formula has been proposed for determining the axial strength according to the results of parametric analysis of FEA and the theoretical model. In addition, the calculated results based on design methods specified in EC4, CECS and AISC have been compared with the experimental results, the results of theoretical model and the results of simplified formula. Among them, the results of EC4 were the closest to the experimental results. [Display omitted] • An innovative multi-partition steel-concrete composite column is proposed. • The axial experiments and finite element analysis have been done to study the axial behavior. • A simplified method has been proposed for the design of the axial strength. • An improved stability factor is added in the simplified formula. [ABSTRACT FROM AUTHOR]

Published

2021

14. Air-assisted liquid-liquid microextraction based on the solidification of floating deep eutectic solvents for the simultaneous determination of bisphenols and polycyclic aromatic hydrocarbons in tea infusions via HPLC.

Author

Zhang, Kaige, Wang, Yunhe, Li, Shuangying, and Zhu, Guifen

Subjects

*POLYCYCLIC aromatic hydrocarbons, *BISPHENOLS, *HIGH performance liquid chromatography, *LIQUID-liquid extraction, *RESPONSE surfaces (Statistics), *EXTRACTION techniques, *MELTING points

Abstract

• DESs with low viscosity, density and melting point near room temperature were designed and used. • A centrifugation-free AA-LLME-SFDES method was developed. • Placket-burman design and central composite design were used for the method optimization. • This method was used for simultaneous analysis of bisphenols and PAHs in 15 tea infusions samples. • This method may be developed as a fully automated AA-LLME method. Deep eutectic solvents (DESs) are a new class of green "designer solvent"; its physicochemical properties can be easily tuned by adjusting DES′ constituents, chemical ratio and water content. In this study, three hydrophobic DESs with low viscosity, low density, and melting points close to room temperature were designed and synthesized. Based on these DESs, an air-assisted liquid–liquid microextraction technique was developed based on the solidification of floating DESs for the simultaneous determination of bisphenols and polycyclic aromatic hydrocarbons (PAHs) via HPLC. The microextraction parameters were optimized via the Plackett-Burman design and response surface methodologies. The method shows satisfactory linearity (R2 ≥ 0.9928), a low limit of detection (0.16–0.75 μg L−1) and satisfactory precision (≤2.3%), and was successfully applied for the simultaneous determination of bisphenols and PAHs from tea infusions with satisfactory recoveries (82.0–116.6%). This method is simple, rapid, economical, environmentally compatible, dispersive solvent-frees and centrifugation-free, and has promising applications in food safety. [ABSTRACT FROM AUTHOR]

Published

2021

15. Generalized predictive control application scheme for nonlinear hydro-turbine regulation system: Based on a precise novel control structure.

Author

Chen, Jinbao, Liu, Shaohua, Wang, Yunhe, Hu, Wenqing, Zou, Yidong, Zheng, Yang, and Xiao, Zhihuai

Subjects

*HYDRAULIC turbines, *FRANCIS turbines, *HYDRAULIC models, *TRANSFER functions, *DYNAMIC simulation, *WATER diversion, *REACTIVE power

Abstract

Generalized predictive control (GPC), which has excellent control performance and robustness, is only applicable to the control object that can be expressed in the transfer function and is difficult to be directly applied to the hydraulic turbine regulation system (HTRS) that contain extremely complex nonlinearity. Therefore, considering the practical application of GPC in a hydropower station containing the Francis turbine, the double models, real-time feedback linearization module, and a nonlinear characteristic compensator are designed, and a generalized predictive control strategy combining these modules (GPC-DM-RFLM-NCC) is proposed. Firstly, the salp swarm algorithm (SSA) is improved based on the chaotic mapping and Levy flight, an accurate nonlinear hydraulic turbine model is constructed based on the backpropagation neural network (BPNN) and improved SSA (ISSA), and an HTRS simulation platform with nonlinear characteristics is built by combining modules such as water diversion system, servo system, and generator. Then, the irrationality of the commonly used linear hydraulic turbine models in HTRS dynamic process simulation is verified through quantitative calculation. Furthermore, by combining the real-time feedback linearization method and ISSA-based nonlinear characteristic compensator, the GPC-DM-RFLM-NCC is proposed. Finally, the HTRS simulation platform, which consists of GPC, double models, real-time feedback linearization module, and nonlinear characteristic compensator, is built, and the applicability, reliability, and excellent robustness of the proposed GPC-DM-RFLM-NCC are verified by the real data of a hydropower station. • The salp swarm algorithm is optimized based on the chaotic mapping and Levy flight. • A refined model of the hydraulic turbine regulation system containing the precise hydro-turbine model is established. • The irrationality of the popular linear hydraulic turbine model is revealed through quantitative calculation. • A generalized predictive control strategy is proposed considering the nonlinearity of the hydraulic turbine. • Model mismatch caused by feedback linearization is estimated and corrected. [ABSTRACT FROM AUTHOR]

Published

2024

16. Terpenes based hydrophobic deep eutectic solvents for dispersive liquid-liquid microextraction of aliphatic aldehydes in drinking water and alcoholic beverages.

Author

Zhang, Kaige, Guo, Rong, Wang, Yunhe, Wang, Jing, Nie, Qiujun, and Zhu, Guifen

Subjects

*SOLVENT extraction, *ALDEHYDES, *DRINKING water, *TERPENES, *POISONS, *CHEMICAL reagents, *RESPONSE surfaces (Statistics), *ALCOHOLIC beverages

Abstract

Aliphatic aldehydes are a class of organic compounds containing aldehyde groups, which are widespread, and closely related to people's daily life and health. In this work, a series of terpenes based hydrophobic deep eutectic solvents were designed and synthesized using hexafluoroisopropanol as hydrogen bond donor and menthol/thymol as hydrogen bond acceptor. Then they are used as extraction solvent in dispersive liquid-liquid microextraction for extracting and determining seven aliphatic aldehydes from drinking water and alcoholic beverage combined with high performance liquid chromatography-ultraviolet. Due to the fact that these hydrophobic deep eutectic solvents are liquid at the room temperature, a density greater than that of water, a lower viscosity (≤26.10 mPa s, 25 °C), after extraction and centrifugation, the microvolume DES-rich phase in the bottom is convenient for collection and direct analysis without further dissolution or dilution with organic solvents. Some factors affecting the extraction recovery were optimized by one-variable-at-a-time and response surface methodology. Under the optimal conditions, the enrichment factors for the seven aliphatic aldehydes were 48–56. The method had good performance: linear ranges of 1.0–200, 0.5–200, 0.2–200, 0.4–400, 1.0–400, 0.4–400 and 0.4–400 μg L−1 for seven aliphatic aldehydes (r 2 ≥ 0.9949), limits of detection of 0.1–0.5 μg L−1, intra-day and inter-day precisions <4.9%. The recoveries of seven aliphatic aldehydes ranged from 76.0 to 119.0%. The proposed dispersive liquid-liquid microextraction method is simple, rapid, highly efficient, and green, which effectively reduces the amount of toxic chemical reagents used and their impact on the environment. Rapid and efficient detection of aliphatic aldehydes helps ensure a healthy diet and has great application prospects in food safety analysis. [Display omitted] • Terpenes based HDESs with low viscosity and high density were designed and prepared. • A terpenes HDESs based DLLME was established for enrichment of aliphatic aldehydes. • The DES-rich phase in the bottom is easy to be collected and directly analyzed by HPLC. • The method is simple, rapid, effective and green for detecting aliphatic aldehydes. • The green profile of the method was assessed by AES and AGREE. [ABSTRACT FROM AUTHOR]

Published

2024

17. Production of PS-PMMA Janus particles with special morphology based on phase separation for the preparation of Pickering emulsions.

Author

Gao, Junwen, Zhan, Yang, Wang, Yunhe, Hong, Bo, Zhao, Shujie, and Han, Zhongming

Subjects

*JANUS particles, *PHASE separation, *EMULSIONS, *METHYL methacrylate, *DISTILLED water, *MORPHOLOGY

Abstract

[Display omitted] • Amphiphilic PS-PMMA Janus particles with a distinct morphology were synthesized. • Stabilized Pickering emulsions were prepared using Janus particles. • PS-PMMA is easy to synthesize, inexpensive, and ideal for large-scale production. In this study, two kinds of Polystyrene - Poly(methyl methacrylate) (PS-PMMA) Janus particles with different particle sizes were synthesized via emulsion phase separation using a rotary evaporator. These Janus particles exhibit a distinctive morphology; one side is smooth and crater-like while the other is concave and sprouting. An interplay between device rotation, system stabilization, material hydrophilicity, and strength variation produces this unique morphology. These particles are cost-effective and easy to synthesize, making them ideal for versatile applications in advanced materials. They can form stable Pickering emulsions with liquid paraffin and distilled water, showing remarkable stability and suitability for large-scale production. [ABSTRACT FROM AUTHOR]

Published

2024

18. Experimental study on the desorption law and diffusion kinetic characteristics of gas in raw coal and tectonic coal.

Author

Guo, Haijun, Yu, Yingjie, Wang, Yunhe, Wang, Kai, Yuan, Liang, Xu, Chao, and Ren, Bo

Subjects

*COAL gas, *COAL, *LEGAL education, *COAL combustion, *DIFFUSION, *GAS well drilling, *COALBED methane

Abstract

To better reveal the nature of gas flow in raw coal and tectonic coal composite seams during gas extraction, experiments on the gas desorption and diffusion kinetic characteristics of raw coal and tectonic coal under different gas adsorption equilibrium pressures were carried out. Meanwhile, the applicability of Airey empirical formula was analysed, and the unipore model and bidisperse model were used to fit the experimental results and calculate the diffusion coefficient. The results show that the initial gas desorption rate and gas desorption volume of raw coal are much smaller than those of tectonic coal at the initial stage of gas desorption; at the later stage, the gas desorption rate of tectonic coal decays rapidly and the ultimate gas desorption volume tends to a stable value, however, the gas desorption rate of raw coal decays slowly and the ultimate gas desorption volume continues to increase. Airey empirical formula has some limitations in characterizing the gas desorption law in coal and is more suitable for fracture-rich "block" coal, but for the tectonic coal, the fitted ultimate gas desorption volume has a significant error from the actual one. The unipore model is suitable for describing some specific periods in the initial stage of the gas desorption process of raw coal, and the bidisperse model makes up for the defects of the unipore model and can accurately describe the gas diffusion law of tectonic coal. The study provides a theoretical basis for the scientific planning of coal and coalbed methane mining. • Compare the differences in gas desorption law of raw coal and tectonic coal. • Airey empirical formula better fits gas desorption in fracture-rich "block" coal. • The limit for using the unipore model and the bidisperse model is studied. [ABSTRACT FROM AUTHOR]

Published

2024

19. Nickel oxide and polytetrafluoroethylene stacked structure as an interfacial layer for efficient polymer solar cells.

Author

Huang, Shuai, Yu, Ancan, Wang, Yunhe, Tang, Yuting, Shen, Si, Kang, Bonan, Silva, S. Ravi P., and Lu, Geyu

Subjects

*POLYTEF, *SOLAR cells, *NICKEL oxides, *POLYMERS

Abstract

Abstract An efficient polymer solar cell (PSC) has been demonstrated by incorporating an ultrathin interfacial insulating organic layer of polytetrafluoroethylene (PTFE) between a photoactive layer and hole-collecting buffer layer (NiO x). The photoactive layer is made with bulk heterojunction composites of poly[N-9"-hepta-decanyl-2,7-carbazolealt-5,5-(4′,7′-di-2-thienyl- 2′,1′,3′-ben-zothiadiazole)]:[6,6]-phenyl-C71-butyric acid methyl ester (PCDTBT:PC 71 BM). The PTFE layer not only improves the energy level alignment by forming an interfacial dipole at the interface but also reduces the inherent incompatibility between the hydrophobic active layer and hydrophilic NiO x layer, thereby benefiting to the charge extraction and transport in the solar cells. As a result, with the NiO x /PTFE stacked structure, all the photovoltaic performance parameters are significantly improved, leading to a higher power conversion efficiency (PCE) of up to 7.11% compared to the control device without PTFE layer (PCE 5.50%). The PTFE layer provides a superior alternative to interfacial engineering of the metal oxide/organic semiconductor interface in polymer solar cells and other organic electronic devices. [ABSTRACT FROM AUTHOR]

Published

2019

20. Design of intelligent nonlinear robust controller for hydro-turbine governing system based on state-dynamic-measurement hybrid feedback linearization method.

Author

Zou, Yidong, Hu, Wenqing, Xiao, Zhihuai, Wang, Yunhe, Chen, Jinbao, Zheng, Yang, Qian, Jing, and Zeng, Yun

Subjects

*PSYCHOLOGICAL feedback, *RENEWABLE energy sources, *PID controllers, *ELECTRIC power distribution grids, *GRIDS (Cartography), *SEARCH algorithms

Abstract

Due to the stochastic grid loads and intermittent renewable energy sources in today's power grid, hydro-generator and grid system stability is increasingly dependent on the hydro-turbine governing system (HTGS). For the HTGS with external disturbances and system uncertainties, an intelligent nonlinear robust controller (INRC) based on state-dynamic-measurement feedback linearization (SDMFL) is proposed to enhance the HTGS's control performance in this paper. This strategy establishes a dynamic output function including actuator displacement, generator rotor angle, and turbine parameters. The relationship between dynamic output and control input is derived based on this function to establish the corresponding linear state-space model. Then, the mixed H 2 / H ∞ robust controller based on the linear model is designed to suppress the effects of external disturbances and system uncertainties on the system performance. In addition, the controller performance is optimized by levy flight and chaos theory-based gravitational search algorithm (LCGSA), resulting in the INRC. Simulations are performed in MATLAB, and the results are compared with the nonlinear robust controller (NRC) and PID controller. The results show that the proposed controller INRC improves the control performance of nonlinear HTGS with smaller overshoot and shorter adjustment time in all cases. • Design of nonlinear robust controller based on SDMFL method for HTGS. • Application of LCGSA algorithm for optimal tuning of NRC parameters. • Damping the speed oscillations against large fluctuations in grid power. • Excellent damping efficiency, especially, low overshoot, steady-state error, and settling time. • Study of robustness of HTGS against variations of system parameters. [ABSTRACT FROM AUTHOR]

Published

2023

21. Temperature-controlled air-assisted liquid–liquid microextraction based on the solidification of floating deep eutectic solvents for the determination of triclosan and alkylphenols in water samples via HPLC.

Author

Zhang, Kaige, Guo, Rong, Wang, Yunhe, Wang, Jing, Nie, Qiujun, Li, Bin, and Zhu, Guifen

Subjects

*LIQUID-liquid extraction, *SOLVENT extraction, *ALKYLPHENOLS, *TRICLOSAN, *WATER sampling, *MELTING points, *SOLVENTS

Abstract

[Display omitted] • A novel, green and environmental benign TC-AALLME-SFDES technique was developed. • Solid DES was used as extraction solvent. • The method was applied for the determination of TCS and APs from water samples. • The green profile of the method was assessed by analytical Eco-Scale and ComplexGAPI. • The method opened up the application of solid DESs in LLME technique. A novel and green microextraction technique, temperature-controlled air-assisted liquid–liquid microextraction based on the solidification of floating deep eutectic solvents (DESs), was developed and applied for the extraction of triclosan and alkylphenols in different environmental waters. Hydrophobic DESs composed of menthol and myristic acid with melting points slightly higher than room temperature (25 ± 2 °C) were prepared and used as extraction solvent. First, the solid DES was transformed into liquid DES while the aqueous sample was heated in a water bath. Then, fine droplets were formed by withdrawing and injecting the mixture of aqueous sample and DES with a 1 mL pipette several times. After extraction, the solidified DES phase was obtained in an ice water bath. And then the analyses were performed by HPLC-UV. The microextraction parameters were investigated by the Plackett-Burman design and central composite design. The analytical parameters of this method were investigated and good linear ranges (0.5/1.0–400 μg/L, R2 ≥ 0.9950), limits of detection (0.1–0.5 μg/L) and precision (≤5.9 %) were obtained. This method was successfully applied for the determination of triclosan and alkylphenols from five water samples with satisfactory recoveries (80.0–104.3 %). Subsequently, the green profile of the method was assessed by analytical Eco-Scale and Complementary Green Analytical Procedure Index. This method has the advantages of simplicity, rapidity, low cost, high sensitivity and green, which expands the application of solid solvents in liquid–liquid microextraction and has a wide application prospect. [ABSTRACT FROM AUTHOR]

Published

2022

22. One-step derivatization and temperature-controlled vortex-assisted liquid-liquid microextraction based on the solidification of floating deep eutectic solvents coupled to UV–Vis spectrophotometry for the rapid determination of total iron in water and food samples

Author

Zhang, Kaige, Guo, Rong, Wang, Yunhe, Nie, Qiujun, and Zhu, Guifen

Subjects

*EUTECTICS, *IRON, *DERIVATIZATION, *MELTING points, *SPECTROPHOTOMETRY, *SOLIDIFICATION

Abstract

• One-step derivatization and TC-VA-LLME-SFDES method was developed. • Hydrophobic DESs were used as both reducing agent and extraction solvent. • Only 2 min was needed for derivatization and extraction process. • The method was applied for analysis of total Fe in water and food samples. • The method opened up the application of solid DESs in LLME technique. In our work, hydrophobic thymol-based deep eutectic solvents (DESs) with strong reducibility, a lower density than water, and a slightly higher melting point than room temperature were synthesized. Based on these solid DESs, one-step derivatization and temperature-controlled vortex-assisted liquid-liquid microextraction based on the solidification of a floating DES (TC-VA-LLME-SFDES) via UV–Vis spectrophotometry for the rapid determination of total iron was developed. The derivatization and TC-VA-LLME were carried out simultaneously by the addition of DES as both the reducing agent and extraction solvent. After optimization, the calibration curve (5–250 μg L−1, R2 = 0.9982), limit of detection (1.5 μg L−1), limit of quantitation (5.0 μg L−1), precision (≤4.0%) and enrichment factor (92) was obtained. This method was applied for the determination of total iron in water and food samples with satisfactory recoveries (85.4–106.2%). One-step derivatization and TC-VA-LLME only required 2 min. Furthermore, this method opened up the application of solid DESs in liquid–liquid microextraction. [ABSTRACT FROM AUTHOR]

Published

2022

23. Solution of wide and micro background bias in contrastive action representation learning.

Author

Liu, Shuai, Luo, Zhe, Li, Yating, Wang, Yunhe, Fu, Weina, and Ding, Weiping

Subjects

*ACTIVE learning, *VISUAL fields, *COMPUTER vision, *PIXELS, *SPACE frame structures

Abstract

In recent years, contrastive learning has made great progress in the field of computer vision, which shows great potential in action representation learning. Current contrastive learning methods usually employ contrastive loss function to learn video motion representation, which attend to capturing the similar background appearance but ignore similar motion information. This problem is called background bias, which restricts the model from exploring motion patterns. The background bias can be divided into wide background bias and micro background bias. The wide background bias refers to the statistically significant background bias, while the micro background bias refers to the background bias directly interacting with the moving object. To tackle these problems, this paper first proposes a semi-negative pair merging foreground–background, which mainly decouples the dynamic factor with obvious motion and the static factor with stable invariants in the video frame sequence. Then the dynamic factor of the original video is fused with other static factors to obtain a random background image where the foreground is more similar than the background to solve the wide background bias. Secondly, a pixel-level motion aware representation decomposition module calculates the pixel-level intensity variations from the feature space of adjacent frames, and these variations are further accumulated to obtain the salient map that focuses on the boundaries of moving objects, so the model attends to the motion pattern rather than the background to solve the micro background bias. Furthermore, a new dual loss function is proposed based on joint wide and micro background bias to better capture both static and dynamic features. The heat map shows that the proposed method effectively can solve background bias and achieve better performance in public datasets compared with other existing methods. [ABSTRACT FROM AUTHOR]

Published

2024

24. Axial compressive behavior of T-shaped welded multi-partition composite members.

Author

Li, Hongda, Guo, Lanhui, Gao, Shan, and Wang, Yunhe

Subjects

*CONCRETE-filled tubes, *DIHEDRAL angles, *SHEAR walls, *STRENGTH of materials, *NUMERICAL analysis, *DUCTILITY

Abstract

T-shaped welded multi-partition composite members, which are made of several rectangular concrete-filled steel tubes, are proposed to speed up the fabrication procedure. Seven half-scale T-shaped specimens were tested by considering the section height-to-width ratio and slenderness ratio. In the test, a slight torsion angle was measured when the instability failure along the asymmetric axis occurred, indicating the specimens had good torsion resistance. When the relative slenderness ratio of the specimen was larger than 0.44, the specimens failed due to the instability along the asymmetric axis. Parametric numerical analysis is conducted by considering the slenderness ratio, cross-section dimension, steel ratio, and material strength. The results show that the strength of concrete negatively impacts the ductility of the specimens, leading to a decrease of 43%, while the strength of the material positively influences the stability of the specimens. The formulas from different traditional codes are verified by the parametric numerical analysis results, indicating most codes can conservatively predict the sectional bearing capacity, but overestimate the stability coefficient of the specimens by neglecting the reduction effect of the excessive height-to-depth ratio. Recommendations are provided for calculating the stability coefficient under axial compression applicable to T-shaped welded multi-partition composite members. • Axial compression of T-shaped welded multi-partition composite members was studied through experiments and FE analysis. • The measured torsion angle confirms the good torsional capacity of T-shaped composite members. • Both sectional bearing capacity and stability bearing capacity have been discussed. • A suggestion for calculating stability coefficients is proposed, which is suitable for T-shaped columns and shear walls. [ABSTRACT FROM AUTHOR]

Published

2024

25. Association of longitudinal trajectories of general and abdominal adiposity during middle age with mental health and well-being in late life: A prospective analysis.

Author

Qin, Huibo, Hu, Gang, Liang, Zhengting, Jin, Xin, Chen, Xiaodong, Su, Binbin, Bao, Yanping, Ouyang, Jing, and Wang, Yunhe

Subjects

*MENTAL age, *MENTAL health, *MIDDLE age, *OBESITY, *REGULATION of body weight, *COMPULSIVE eating

Abstract

Single measures of adiposity markers, such as body mass index (BMI) and waist circumference (WC), are associated with adverse mental health outcomes; however, long-term patterns of adiposity and their health effects remain unclear. The current study assessed adiposity trajectories during a 14-year span beyond middle age and their relevance to mental well-being in late life, and the contribution of genetic and lifestyle factors to the trajectories. Based on a nationally representative sample with longitudinal anthropometric measures, adiposity trajectories were identified by latent mixture modeling, and logistic regression model was used to estimate their associations with mental well-being, with adjustment for confounders. Of the 3491 eligible participants included (mean [SD] age, 69.5 [8.9] years), five discrete BMI and four WC trajectory patterns were identified over 14 years. Compared with the low-stable BMI group (range, 22.8 to 22.9 kg/m²; representing stable healthy body weight), the high-stable group (range, 34.3 to 35.4 kg/m²; stable obese) was associated with increased risk of depression (odds ratio [OR], 1.63; 95 % CI, 1.28–2.07) and low subjective well-being (OR, 1.35; 95 % CI, 1.02–1.79). Compared with the low-stable WC group (range, 75 to 79 cm healthy WC), the high-increasing group (range, 114 to 121 cm) was associated with increased risk of depression (odds ratio [OR], 1.64; 95 % CI, 1.19–2.25) and low well-being (OR, 1.48; 95 % CI, 1.01–2.16). The adiposity trajectories, especially the high-stable/increasing groups, were driven by genetic factors in a dose-response manner, whereas the high/moderate-increasing groups were also behaviorally related. This longitudinal cohort study reveals that stably high trajectory patterns of central and general adiposity during middle age were associated with higher risk of depression and low well-being in late life. The findings indicate the importance of weight management beyond middle age, such as adherence to a healthy lifestyle, in promoting mental health and well-being. [ABSTRACT FROM AUTHOR]

Published

2024

26. Neural architecture tuning with policy adaptation.

Author

Li, Yanxi, Dong, Minjing, Xu, Yixing, Wang, Yunhe, and Xu, Chang

Subjects

*REINFORCEMENT learning

Abstract

Neural architecture search (NAS) is to automatically design task-specific neural architectures, whose performance has already surpassed those of many manually designed neural networks. Existing NAS techniques focus on searching for the neural architecture and training the optimal network weights from the scratch. Nevertheless, it could be essential to study how to tune a given neural architecture instead of producing a completely new neural architecture in some scenarios, which may lead to a more optimal solution by combining human experience and the advantages of the machine's automatic searching. This paper proposes to learn to tune the architectures at hand to achieve better performance. The proposed Neural Architecture Tuning (NAT) algorithm trains a deep Q-network to tune neural architectures given a random architecture so that we can achieve better performance on a reduced space. We then apply adversarial autoencoder to make the learned policy be generalized to a different searching space in real-world applications. The proposed algorithm is evaluated on the NAS-Bench-101 dataset. The results indicate that our NAT framework can achieve state-of-the-art performance on the NAS-Bench-101 benchmark, and the learned policy can be adapted to a different search space while maintaining the performance. [ABSTRACT FROM AUTHOR]

Published

2022

27. Effect of the oxygen concentration on the combustion of asphalt binder.

Author

Zhu, Kai, Qin, Xuewei, Wang, Yunhe, Lin, Chenghang, Wang, Qiang, and Wu, Ke

Subjects

*COMBUSTION, *ASPHALT, *CONDENSED matter, *HEAT release rates, *INFRARED spectroscopy, *SCANNING electron microscopy, *OXYGEN

Abstract

The combustion mechanism and gaseous products of asphalt binder at five different oxygen concentrations (21%, 18%, 15%, 12%, and 10%) were studied by thermogravimetry-Fourier transform infrared spectroscopy (TG-FTIR). The evolution of the functional groups and microscopic morphology of condensed phase were also analyzed by infrared spectroscopy (IR) and scanning electron microscopy (SEM). The semi quantitative research was realized by calculating the absorption peak area of IR, proximate and ultimate analyses. Results show that the oxygen concentration influences both the pyrolysis and combustion stages of asphalt, and the influence on the combustion of heavy components is more significant. With the decrease of oxygen concentration, the residual mass after the combustion of asphalt binder increases. Additionally, the temperature zone of combustion shifts higher, and a thermal reaction lag effect becomes more obvious. The concentration of oxygen only changes the concentration of gaseous products, instead of the types. Moreover, the concentrations of CO 2 , CO, H 2 O, SO 2 , etc. all decrease, and there is the biggest drop in CO 2. The low oxygen concentration inhibits the dehydrogenation reaction of asphalt in the aerobic pyrolysis stage, while the complete combustion of asphalt residues is inhibited in the combustion of heavy components stage. These will all provide more scientific basis for the analysis of asphalt combustion under low oxygen conditions in tunnel fires. • Combustion mechanism of asphalt binder under different oxygen concentration was discussed. • Dynamic evolution of volatiles released from asphalt binder combustion at different oxygen concentration was described. • Evolution of functional groups in the condensed phase of asphalt binder was analyzed. • Combustion mechanism of asphalt binder under low oxygen conditions was further understood. [ABSTRACT FROM AUTHOR]

Published

2021

28. Tapered RAC-filled high-strength double-skin steel tubular stub columns: Tests and numerical analysis.

Author

An, Guoqing, Wang, Rui, Zhao, Hui, Wang, Yunhe, Lam, Dennis, and Li, Tieying

Subjects

*CONCRETE-filled tubes, *COLUMNS, *STEEL tubes, *NUMERICAL analysis, *ULTIMATE strength, *AXIAL loads

Abstract

This study experimentally and numerically explores the axial-compression behaviours of tapered recycled aggregate concrete-filled high-strength double skin steel tubular (RAC-FHDST) stub column. Twelve specimens were fabricated and tested, considering the effects of tapered angle, hollow ratio and replacement level of coarse recycled aggregate (CRA). The experimental results, consisting of deformation patterns, axial load versus strain responses and confining effect from external high-strength steel tube were obtained and analyzed. Failure mode showed that all stub columns exhibited good ductile behaviour. The elastic stiffness and ultimate strength of RAC-FHDSTs decreased with rising tapered angles, while the ductile index increased. As the replacement levels of CRA varied from 0% to 100%, the elastic stiffness and ductility index obviously reduced. Larger confining effect from outer steel tube to RAC occurred close to the top section of specimens, and the occurrence of confinement was advanced with decreasing hollow ratio and increasing CRA content. Additionally, detailed numerical models were constructed and validated using experiment results. The validated finite element (FE) models were then employed to analyze the working mechanism of specimen, encompassing the load distributions and the interaction between the sandwiched RAC and steel tubes. Afterwards, a parametric study was performed to reveal the influences of essential parameters on the axial compressive performance. Finally, the existing design approaches to normal CFST and CFDST stub columns were employed to assess their applicability for estimating the ultimate strengths of tapered RAC-FHDSTs. • Axial-load tests conducted on 12 RAC-FHDST stub columns. • Effects of tapered angle, hollow ratio and CRA content on the axial response of RAC-FHDSTs. • Confinement effect from outer high-strength steel tube. • The applicability of existing design provisions to tapered RAC-FHDSTs. [ABSTRACT FROM AUTHOR]

Published

2024

29. Deriving aquatic PNECs of endocrine disruption effects for PFOS and PFOA by combining species sensitivity weighted distributions and adverse outcome pathway networks.

Author

Zhang, Jiawei, Tao, Huanyu, Shi, Jianghong, Ge, Hui, Li, Bin, Wang, Yunhe, Zhang, Mengtao, and Li, Xiaoyan

Subjects

*ENDOCRINE glands, *ECOLOGICAL risk assessment, *PERFLUOROOCTANE sulfonate, *PERFLUOROOCTANOIC acid, *ENDOCRINE disruptors, *REPRODUCTION, *FISH growth

Abstract

Perfluorooctanesulfonic acid (PFOS) and perfluorooctanoic acid (PFOA), as emerging endocrine-disrupting chemicals (EDCs), pose adverse effects on aquatic organisms. Conventional ecological risk assessment (ERA) not fully considering the mode of toxicity action of PFOS and PFOA, may result in an underestimation of risks and confuse decision-makers. In the study, we developed species sensitivity weighted distribution (SSWD) models based on adverse outcome pathway (AOP) networks for deriving predicted no-effect concentrations (PNECs). Three kinds of weighting criteria (intraspecies variation, trophic level abundance, and data quality) and weighted log-normal distribution methods were adopted. The developed models considered the inter/intraspecies variation and integrated nontraditional endpoints of endocrine-disrupting effects. The PNECs of endocrine disruption effects were derived as 2.52 μg/L (95% confidence intervals 0.667–9.85 μg/L) for PFOS and 18.7 μg/L (5.40–71.0 μg/L) for PFOA, which were more conservative than those derived from the SSD method and were comparable with the values in the literature based on the chronic toxicity data. For PFOS, the effect of growth and development was the most sensitive; however, for PFOA, the effect of reproduction was the most sensitive in the effects of growth and development, reproduction, biochemistry and genetics, and survival. The endocrine-disrupting effects of PFOS and PFOA are significant and need to be fully recognized in the ERA. This study provided an ERA framework that can improve the ecological relevance and reduce the uncertainty of PNECs of EDCs. [Display omitted] • SSWD considers the inter/intraspecies variation and data quality of toxicity. • AOP network integrates endocrine disruption effects of muti-biological levels. • PNECs of endocrine disruption effects as 2.52 (PFOS) and 18.7 (PFOA) μg/L. • SSWD-based PNECs are more conservative than those from SSD models. • AOP-SSWD improves ecological relevance and reduce uncertainty of PNEC. [ABSTRACT FROM AUTHOR]

Published

2024

30. Performance of steel–concrete composite walls with recycled aggregate concrete under low-velocity lateral impact loading.

Author

Zhao, Hui, Yang, Yaotang, Wang, Rui, Chen, Wensu, Wang, Yunhe, and Lam, Dennis

Subjects

*RECYCLED concrete aggregates, *STEEL-concrete composites, *IMPACT loads, *LATERAL loads, *IMPACT response

Abstract

• Impact-resistant behaviours of steel–concrete composite wall with recycled aggregate concrete. • Time histories of impact force and deformation, and failure mode. • Effects of CRA content, material strength, steel plate ratio, tie-bar spacing, impact energy and axial load ratio on the impact response. • Single degree of freedom approach used to predict the displacement response. This paper investigates the impact-resistant behaviours of steel–concrete (SC) composite walls experimentally and numerically, which consist of two outer steel plates and infilled recycled aggregate concrete (RAC). Totally eight SC walls were designed and fabricated with different coarse recycled aggregate (CRA) content and steel plate thicknesses. Drop-hammer impact testing was first performed to obtain the failure mode, impact force and deformation. Test results indicated that the impact resistance behaviour of SC walls enhanced considerably with a decrease in CRA content. The tie bars combined with studs were effective to avoid the separation of steel plate from the concrete core. Afterwards, the finite element (FE) models were developed and calibrated, and then used to obtain more information on the full-range motion response, development of stress and strain, and energy absorption. In addition, the influences of different parameters, including the CRA content, material strength, steel plate ratio, tie-bar spacing, impact energy and axial load ratio on the impact resistance performance were assessed. Finally, the displacement response of SC composite walls with RAC was predicted using single-degree of freedom (SDOF) approach. [ABSTRACT FROM AUTHOR]

Published

2023

31. Air-assisted liquid-liquid microextraction based on solidification of floating deep eutectic solvent for the analysis of ultraviolet filters in water samples by high performance liquid chromatography with the aid of response surface methodology.

Author

Zhang, Kaige, Li, Shuangying, Wang, Yunhe, Fan, Jing, and Zhu, Guifen

Abstract

• Novel AA-LLME based on solidification of floating DES method was developed. • DESs with low viscosity, density and melting point near room temperature were used. • Central composite design was used for the method optimization. • This method is simple, low cost, centrifugal-free, and environment friendly. For this work, a novel air-assisted liquid-liquid microextraction based on solidification of floating deep eutectic solvent (AA-LLME-SFDES), coupled with a high performance liquid chromatography (HPLC) method was developed for the detection of benzophenone and salicylate ultraviolet filters in water samples. Three types of fatty acid-based hydrophobic deep eutectic solvents (DESs) with low viscosity, low-density, and melting point close to room temperature were prepared and employed as extraction solvents. This air-assisted liquid-liquid microextraction was carried out in a glass centrifuge tube. Subsequently, the glass tube was introduced into ice-water bath and held for 3 min, during which the upper DES phase was solidified. The water phase was easily extracted using a syringe equipped with a long needle, and later, the glass tube was removed from ice-water bath. The solidified DES phase was immediately melted at room temperature and used for HPLC analysis. The response surface methodology was employed to optimize some influencing parameters such as the volume of the extraction solvent, the pH value of sample solution, the number of extraction cycles, and the addition of salt. A quadratic model, namely a central composite design, was used to replace the conventional single factor analysis. It was found that under optimal conditions, the limits of determination and quantification were 0.045–0.54 µg L−1 and 0.15–2.0 µg L−1, respectively. The relative standard deviations for inter-day (n = 5) and intra-day (n = 5) precision were ≤ 4.2%, whereas the enrichment factors for the ultraviolet filters were obtained from 41 to 50. Furthermore, this novel method was successfully employed for the detection of benzophenone and salicylate ultraviolet filters from real water samples. The recoveries ranged from 87.5% to 105.8%, whereas the RSDs were lower than 3.6%. [ABSTRACT FROM AUTHOR]

Published

2020

32. Left atrial appendage mechanical dispersion provides incremental value for thromboembolic risk stratification over CHA2DS2-VASc Score in nonvalvular atrial fibrillation.

Author

Mao, Yankai, Ma, Mingming, Yang, Yuan, Yu, Chan, Wang, Yunhe, Jiang, Ruhong, and Jiang, Chenyang

Subjects

*ATRIAL fibrillation, *VALUE at risk, *TRANSESOPHAGEAL echocardiography, *DISPERSION (Chemistry), *MULTIVARIATE analysis

Abstract

Left atrial appendage (LAA) dysfunction is associated with increased risk of thromboembolic events. However, little is known about LAA mechanical dispersion (MD) would provide additional information toward thromboembolism over the CHA2DS2-VASc score. The aim of this study was to determine the association of LAA mechanics as assessed by speckle-tracking imaging with thromboembolic events in patients with nonvalvular atrial fbrillation (AF). A total of 116 consecutive patients with AF referred for transesophageal echocardiography (TEE) were prospectively enrolled. Of these, 17(14.7%) patients had prior embolic events. Using speckle-tracking echocardiography (STE), we measured the LAA strain in each of 24 segments in mid-esophageal TEE views obtained at 0°, 45°, 90° and 135°. LAA MD was defined as the standard deviation (SD) of time to peak positive strain corrected by the R-R interval. Patients with embolism had lower LAA global longitudinal strain (GLS) (8.56 ± 2.62% vs 11.37 ± 5.54%, p = 0.002) and higher LAA MD (16.90 ± 6.67% vs 12.10 ± 3.94%; P = 0.010) than those without embolism. LAA MD >13.1% differentiated patients with embolism from controls, with an area under the curve (AUC) of 0.709(p = 0.004). LAA MD was independently associated with the presence of thromboembolism in multivariate analysis (odds ratio, 1.24; 95% confidence interval, 1.08–1.42; P = 0.002). The model based on CHA 2 DS 2 -VASc score for discrimination of patients with embolism was significantly improved by adding LAA MD (P < 0.01). LAA MD obtained from strain echocardiography was significantly associated with a prior history of embolic events and had incremental diagnostic value over CHA2DS2VASc score, suggesting that LAA MD may be useful in refining thromboembolic risk stratification in patients with AF. • Patients with embolism had higher LAA mechanical dispersion (MD) than those without embolism. • LAA MD was independently associated with the presence of thromboembolism in multivariate analysis. • LAA MD significantly improved the model based on CHA2DS2-VASc score for discrimination of patients with embolism. [ABSTRACT FROM AUTHOR]

Published

2020

33. Diagenesis and reservoir quality in tight gas bearing sandstones of a tidally influenced fan delta deposit: The Oligocene Zhuhai Formation, western Pearl River Mouth Basin, South China Sea.

Author

Wu, Dong, Li, Hua, Jiang, Long, Hu, Shenghui, Wang, Yunhe, Zhang, Yuliang, and Liu, Ying

Subjects

*SANDSTONE, *GAS-lubricated bearings, *WATERSHEDS, *DIAGENESIS, *TIDAL flats, *SCANNING electron microscopes, *QUARTZ, *GAS condensate reservoirs

Abstract

Deeply buried Oligocene Zhuhai sandstones are important gas exploration targets in the western Pearl River Mouth Basin, South China Sea. The tight sandstones are characterized by low porosity (less than 10%), low permeability (less than 1 mD) and strong microscopic heterogeneity due to diagenesis during their geologic history. Petrographic analysis is undertaken based on cores, thin sections, X-ray diffraction and scanning electron microscope, that is helpful to understand the facies, lithologic characteristics, diagenesis and their impact on reservoir quality. Six lithofacies were defined in the Zhuhai sandstones, namely bedded granule-rich coarse sandstone to granule conglomerate, cross-bedded medium-to coarse-grained sandstone, cross-bedded fine-to coarse-grained sandstone, structureless sandstone, interbedded sandstone and siltstone and claystone and shale. They were accumulated in the fan delta systems and tidal flat systems. The sandstones are dominated by feldspathic litharenite, litharenite, sublitharenite and quartz arenite. Major portion of the porosity is due to secondary pores and primary pores are relatively less dominant. Primary pores are more important to tight sandstones, well preserved with moderate compaction and weak cementation. Well-sorted, medium-to coarse-grained sandstones with rigid quartz and rock fragment grains commonly have high primary porosity. Early cements such as chlorite rims are helpful for primary porosity preservation. The dissolution of feldspars in the Zhuhai Formation helps to increase the total porosity, whereas it also decreases the permeability and spoils the tight reservoir quality. • Diagenesis and reservoir quality in tight gas sandstones of a tidally influenced fan delta is investigated. • sTwo depositional systems are recognised in the Zhuhai Formation. • Lithology characteristics, pore systems, reservoir properties and diagenetic minerals are identified. • Diagenetic mineral and diagenetic phase control the primary porosity and secondary porosity preservation. [ABSTRACT FROM AUTHOR]

Published

2019

34. Seismic behavior along the asymmetrical axis of T-shaped multi-partition steel–concrete shear walls.

Author

Guo, Lanhui, Li, Hongda, Gao, Shan, and Wang, Yunhe

Subjects

*SHEAR walls, *SHEAR (Mechanics), *STRESS concentration, *LATERAL loads, *CYCLIC loads, *COMPOSITE construction, *STEEL framing, *REINFORCED masonry

Abstract

Five specimens have been tested under cyclic lateral loads to explore the seismic behavior of T-shaped multi-partition steel–concrete shear walls along the asymmetrical axis. The loading has been applied by considering the torsion effect from non-coincidence between the lateral loads and the shear center in this study. The main parameters of the test are the axial compression ratio and section height-to-breadth ratio aiming to study the vertical load and web constraint effect. The test results indicate that the failure mode of all specimens along the asymmetric axis is bending failure with minor shear deformation measured during loading. The yield drift (1/138) and the ultimate drift (1/41) of the T-shaped multi-partition steel–concrete shear walls could meet the requirement of the corresponding code, namely 1/350 and 1/70, respectively. The increase in axial compression ratio increases the out-of-plane displacement but decreases the ductility of the specimens, whilst the increase in section height-to-breadth ratio decreases the out-of-plane displacement of the specimens. The relatively small torsion angle of less than 0.6° indicates that the T-shaped multi-partition steel–concrete shear walls have good torsion resistance. Under the cyclic lateral loads along the asymmetrical axis, the out-of-plane displacement of the T-shaped specimen will occur on the side without the web. The web elastic stress distribution model can predict the lateral resistance more accurately, whilst the full-section plastic stress distribution model overestimates the lateral resistance of T-shaped multi-partition steel–concrete shear walls. • T-shaped multi-partition steel–concrete shear walls were tested under asymmetrical loads. • The ductility of T-shaped composite shear walls meets the requirement in Chinese code. • The measured torsion angle confirms the good torsional capacity of T-shaped composite shear walls. • The flange of T-shaped walls is under additional loads due to the out-of-plane deformation. • The web elastic stress distribution model is more suitable to predict the lateral resistance of the specimens. [ABSTRACT FROM AUTHOR]

Published

2023

35. Solution-processed SnO2 nanoparticle interfacial layers for efficient electron transport in ZnO-based polymer solar cells.

Author

Huang, Shuai, Tang, Yuting, Yu, Ancan, Wang, Yunhe, Shen, Si, Kang, Bonan, Silva, S. Ravi P., and Lu, Geyu

Subjects

*SOLAR cells, *NANOPARTICLES, *ELECTRON transport, *CATHODES, *ENERGY consumption, *ENERGY conversion

Abstract

Abstract Polymer solar cells (PSCs) suffer energy loss due to a number of reasons including high thermalisation, large exciton binding energy and electron-hole recombination within the active layer of the device. Although much effort has gone into addressing the above, interface recombination between a FTO cathode and ZnO electron transport layer (ETL) has remained relatively unnoticed. In this paper, an efficient inverted PSC is demonstrated by introducing a solution-processed SnO 2 film between the ZnO ETL and FTO cathode. The use of the SnO 2 layer, improves significantly all the device performance parameters of PSCs based on P3HT:PC 61 BM and PCDTBT:PC 71 BM system, achieving higher power conversion efficiency (PCE) up to 4.25% and 7.16%, compared to that without the SnO 2 film (PCE 3.10% and 5.52%). The improved performance is attributed to the enhanced optical transmission, the reduced energy barrier and suppression of carrier recombination at the interface between the ZnO layer and cathode. Furthermore, the SnO 2 film is shown to facilitate electron injection as well as effective hole blocking from the active layer. This study provides an efficient approach to optimize the device performance of PSCs by interfacial modification at bottom conductive electrode. Graphical abstract Image Highlights • Solution-processed SnO 2 nanoparticles were introduced to improve the electron transport in ZnO-based PSCs. • The PCE of PCDTBT: PC 71 BM-based PSCs was increased to 7.16% by incorporating the SnO 2 /ZnO bilayer interlayer. • Enhanced performance could be attributed to the reduced energy barrier and suppressed carrier recombination. [ABSTRACT FROM AUTHOR]

Published

2018

36. Development of simulation approach for two-dimensional chiral molecular self-assembly driven by hydrogen bond at the liquid/solid interface.

Author

Qin, Yuan, Yao, Man, Hao, Ce, Wan, Lijun, Wang, Yunhe, Chen, Ting, Wang, Dong, Wang, Xudong, and Chen, Yonggang

Subjects

*HYDROGEN bonding, *DENSITY functional theory, *MOLECULAR dynamics, *SCANNING tunneling microscopy, *MOLECULAR force constants

Abstract

Two-dimensional (2D) chiral self-assembly system of 5-(benzyloxy)-isophthalic acid derivative/(S)-(+)-2-octanol/highly oriented pyrolytic graphite was studied. A combined density functional theory/molecular mechanics/molecular dynamics (DFT/MM/MD) approach for system of 2D chiral molecular self-assembly driven by hydrogen bond at the liquid/solid interface was thus proposed. Structural models of the chiral assembly were built on the basis of scanning tunneling microscopy (STM) images and simplified for DFT geometry optimization. Merck Molecular Force Field (MMFF) was singled out as the suitable force field by comparing the optimized configurations of MM and DFT. MM and MD simulations for hexagonal unit model which better represented the 2D assemble network were then preformed with MMFF. The adhesion energy, evolution of self-assembly process and characteristic parameters of hydrogen bond were obtained and analyzed. According to the above simulation, the stabilities of the clockwise and counterclockwise enantiomorphous networks were evaluated. The calculational results were supported by STM observations and the feasibility of the simulation method was confirmed by two other systems in the presence of chiral co-absorbers (R)-(-)−2-octanol and achiral co-absorbers 1-octanol. This theoretical simulation method assesses the stability trend of 2D enantiomorphous assemblies with atomic scale and can be applied to the similar hydrogen bond driven 2D chirality of molecular self-assembly system. [ABSTRACT FROM AUTHOR]

Published

2017

37. Study on surface properties of Ti-6Al-4V titanium alloy by ultrasonic rolling.

Author

Ren, Zhaohui, Li, Zhuhong, Zhou, Shihua, Wang, Yunhe, Zhang, Lu, and Zhang, Ziting

Subjects

*TITANIUM alloys, *SURFACE properties, *RESIDUAL stresses, *ULTRASONICS, *SURFACE roughness, *SURFACE finishing

Abstract

• Coupling the traditional mechanical rolling and high frequency ultrasonic vibration process. • Numerical analysis and research on the residual stress and surface roughness of the processed components. • Explore the influence of different process parameters on component residual stress and surface roughness. In order to improve the surface performance of the key components of Ti-6Al-4 V titanium alloy and meet its requirements for surface performance and life in complex service environments, this study combines traditional mechanical rolling with high-frequency ultrasonic vibration, and achieves high-speed impact on the surface of titanium alloy and traditional rolling at the same time. Numerical simulation of ultrasonic rolling processing of titanium alloy workpiece is carried out, the residual stress and surface roughness of the workpiece after processing are analyzed, and the influence of different process parameters on it is explored. The results show that ultrasonic rolling processing can effectively improve the surface properties of Ti-6Al-4 V titanium alloy, so that the residual stress distribution of the workpiece is more uniform and increases with the increase of static force and amplitude. When the static force is 1000 N and the amplitude is 8 μm, the surface finishing effect is the best. [ABSTRACT FROM AUTHOR]

Published

2022

38. 3D interpenetrating piezoceramic-polymer composites with high damping and piezoelectricity for impact energy-absorbing and perception.

Author

Li, Jing, Yang, Ying, Jiang, Huan, Wang, Yunhe, Chen, Yanyu, Jiang, Shenglin, Wu, Jia-Min, and Zhang, Guangzu

Subjects

*LEAD zirconate titanate, *PIEZOELECTRICITY, *PIEZOELECTRIC composites, *POLYMER networks, *ARCHITECTURAL design

Abstract

Materials and structures with enhanced energy-absorbing and impact perception capabilities are widely deployed for crash mitigation, protective packaging of sensitive elements, and personal impact protection. However, conventional lightweight structures with a monolithic constitutive material cannot simultaneously achieve exceptional energy-absorbing capacity and electromechanical sensitivity. Here we proposed a new class of architected ceramic-polymer composites with improved energy-absorbing capacity and piezoelectric performance. An interconnected porous lead zirconate titanate ([Pb(Zr 0.52 Ti 0.48)O 3 ], PZT) skeleton with uniformly distributed cellular-like pores in the transverse section and directionally aligned porous structure in the longitudinal section was fabricated using a facial camphene-templated freeze-casting method. Subsequently, the polymeric polydimethylsiloxane (PDMS) was impregnated into the skeleton to form the three-dimensional (3-D) interpenetrating-phase piezoelectric composite (IP3C). The as-fabricated interpenetrating architecture with each phase interconnected has endowed the proposed IP3C with an unprecedented combination of mechanical-damping (energy-absorption efficiency ∼ 7.71 MJ m−3) and electromechanical-conversion (piezoelectric constant d 33 ∼ 146 pC N−1) properties, which are 9 times and 7 times higher than the conventional counterpart 0–3 piezoelectric composite, respectively. As evidenced by numerical simulations, this remarkable enhancement is attributed to the high stress transfer efficiency within the IP3C, which is intrinsically controlled by the rationally designed interpenetrating architecture. The findings reported here demonstrate that multifunction, e.g., exceptional energy absorption and high sensitivity, can be achieved in one composite with architecture design, thereby driving forward and expanding the fundamental understanding in the area of multifunctional materials in hostile loading environments. • An interconnected porous lead zirconate titanate ([Pb(Zr 0.52 Ti 0.48)O 3 ], PZT) skeleton with uniformly distributed cellular-like pores in the transverse section and directionally aligned porous structure in the longitudinal section was fabricated using a facial camphene-templated freeze-casting method. • The as-fabricated interpenetrating architecture with each phase is interconnected has endowed the proposed IP3C with an unprecedented combination of mechanical-damping and electromechanical-conversion properties, which are 9 times and 7 times higher than the conventional counterpart 0–3 piezoelectric composite, respectively. • The findings reported here demonstrate that multifunction, e.g., exceptional energy absorption and high sensitivity, can be achieved in one composite with architecture design, thereby driving forward and expanding the fundamental understanding in the area of multifunctional materials in hostile loading environments. [ABSTRACT FROM AUTHOR]

Published

2022

39. Full-scale of composting process of biogas residues from corn stover anaerobic digestion: Physical-chemical, biology parameters and maturity indexes during whole process.

Author

Meng, Xingyao, Yan, Jing, Zuo, Bin, Wang, Yunhe, Yuan, Xufeng, and Cui, Zongjun

Subjects

*CORN stover, *CORN residues, *ANAEROBIC digestion, *CORN straw, *BIOGAS industry, *POISONOUS plants

Abstract

• Corn straw biogas residues is an ideal material for full-scale composting. • The biogas residues get maturity after 80 days of composting. • Temperature and NI was easily and credibly parameters to evaluate maturity. • Anaerolineaceae and Limnochordaceae were the most abundant bacteria. • Chaetomium was the most important fungal to decompose lignocellulose. Recycling of biogas residues from corn stover anaerobic digestion is crucial for the development of biogas industry. Full-scale composting process is the feasible way to convert biogas residues to fertilizer. The aim of the study was to explore the feasibility of full-scale composting process to dispose biogas residue to fertilizer, and to evaluate the quality of the compost. The results showed the biogas residues could rapidly reach the thermophilic stage and last at least 20 days, NH 4 +-N, TOC and C/N decreased along with the composting process, while TP, TK and NO 3 –-N showed an opposite trend. Germination index(GI) and seedling growth index showed that raw biogas residues was toxic for plant, but the GI and seedling growth index were increased during the composting process, except for the cooling stage sample. Anaerolineaceae and Limnochordaceae were the main bacteria involved in the composting process, and Chaetomium was the most important fungus. [ABSTRACT FROM AUTHOR]

Published

2020