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1. A novel framework for debris flow susceptibility assessment considering the uncertainty of sample selection

Author

Can Yang, Jiao Wang, and Guotao Zhang

Subjects
Debris flow susceptibility, non-debris flow sample, uncertainty analysis, probability distribution, kernel density estimation, Environmental technology. Sanitary engineering, TD1-1066, Environmental sciences, GE1-350, Risk in industry. Risk management, HD61
Abstract

The uncertainty arising from random sampling of non-debris flow samples significantly impacts the accuracy of debris flow susceptibility assessments (DFSA). This study introduces a novel uncertainty elimination method, Kernel Density Estimation (KDE), and compares it with Mean and Maximum Probability Analysis (MPA) methods. Furthermore, we investigate the responses of four commonly used machine learning models to sampling uncertainty, comparing two structurally similar models (Random Forest (RF) and Extremely Randomized Trees (ERT)) with two structurally different models (Support Vector Machine (SVM) and Multilayer Perceptron (MLP)). The results indicate that the application of these uncertainty elimination methods can significantly enhance AUC values and zoning accuracy, with the KDE method outperforming the others. Specifically, the AUC values based on KDE for RF, ERT, SVM, and MLP are 0.995, 0.999, 0.999, and 0.853, respectively. The corresponding zoning accuracy for these models is 1.00, 1.00, 1.00, and 0.78, respectively. The study further reveals that the responses to sampling uncertainty vary by model architecture: RF, ERT, and SVM typically exhibit bimodal normal distributions, while the MLP model shows a unimodal distribution. Additionally, MLP is more sensitive to variations in negative samples, whereas RF and ERT are less affected due to the ensemble structure.

Published
2024
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2. Identifying the Characteristics and Implications of Post-Earthquake Debris Flow Events Based on Multi-Source Remote Sensing Images

Author

Wen Jin, Guotao Zhang, Yi Ding, Nanjiang Liu, and Xiaowei Huo

Subjects
multi-source remote sensing images, loose materials, post-earthquake debris flow, channel evolution, accumulation fan, Science
Abstract

Strong earthquakes often bring amounts of loose material, disrupting the balance of material transportation within a watershed and severely impacting the restoration of the ecological environment and human safety downstream. Therefore, it is crucial to identify the frequency and scale of these debris flow events, as well as to explore their long-term development and impact on internal and external channels. Using multi-source remote sensing images from four perspectives, hillslope, channel, accumulation fan, and their relationship with the mainstream, we reconstructed a debris flow event dataset from 2008 to 2020, explored a method for identifying these events, and analyzed their impacts on channels and accumulation fans in Mozi Gully affected by the Wenchuan earthquake. Loose matter was predominantly found in areas proximate to the channel and at lower elevations during debris flow events. Alterations in channel width, accumulation fans downstream, and their potential to obstruct rivers proved to be vital for identifying the large scale of debris flow event. Finally, we encapsulated the evolution patterns and constraints of post-earthquake debris flows. Determination in frequency and scale could offer valuable supplementary data for scenario hypothesis parameters in post-earthquake disaster engineering prevention and control.

Published
2024
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3. Characterizing Vegetation Phenology Shifts on the Loess Plateau over Past Two Decades

Author

Tong Wu, Xiaoqian Xu, Xinsen Chen, Shixuan Lyu, Guotao Zhang, Dongdong Kong, Yongqiang Zhang, Yijuan Tang, Yun Chen, and Junlong Zhang

Subjects
phenology, Loess Plateau, changing environment, climate change, Science
Abstract

Phenology is a critical mirror reflecting vegetation growth and has a major impact on terrestrial ecosystems. The Loess Plateau (LP) is a paramount ecological zone in China that has experienced considerable vegetation changes. However, understanding the dynamics of vegetation phenology is limited by ambiguous vegetation interpretation and anthropogenic-induced forces. This study combined the multi-climatic and anthropogenic datasets to characterize the interactions between phenology shifts and environmental variables. The principal findings were as follows: (1) Phenological shifts exhibit spatial heterogeneity and an interannually increasing trend in greenness (R2 > 0.6, p < 0.05). Notably, SOS (the start of the growing season) advances while EOS (the end of the growing season) delays in both the southeastern and northwestern regions. (2) SOS and EOS, primarily in the range of 100–150 and 285–320 days, respectively. Phenological changes vary depending on vegetation types. The forest has an early SOS, within 80–112 days, and a delayed EOS, within 288–320 days. The SOS of shrub is mainly within 80–144 days. (3) EOS shows a strong response to the preseason of each climate variable. Precipitation (R = 0.76), soil moisture (R = −0.64), and temperature (R = 0.89) are the governing determinants in shaping vegetation phenology. In addition, agriculture and urbanization play a significant role in shaping the spatial variations of SOS. These findings provide a basis for a systematic understanding of the processes that affect vegetation growth, which is crucial for maintaining the health and sustainability of arid and semiarid ecosystems.

Published
2024
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4. Impact of urbanization on baseflow characteristics in the central catchment of North China Plain, China

Author

Yuhua Tan, Yi Xin, Chunling Guo, Shixuan Lyu, Guotao Zhang, Yongqing Long, Yuyu Zhai, Harry Packham, Yuyan Zhou, Haoyue Tan, Xinsen Chen, and Junlong Zhang

Subjects
Baseflow signature, Urbanization, North China Plain, Physical geography, GB3-5030, Geology, QE1-996.5
Abstract

Study area: The Dawenhe River and Xiaoqinghe River Basins (116°21′–118°41′E, 35°43′–37°15′N) in the center of the North China Plain (NCP), China. Study focus: To quantitatively assess the influence of urbanization (two indicators including Impervious Surface Percentage (ISP) and Average Night Light Index (ANLI)) on baseflow hydrological behavior (nine baseflow signatures), this study selects the typical urbanized catchment (nine sub-catchments) within the central NCP, where the baseflow was estimated from the total daily streamflow from 2006 to 2016. New hydrological insights for the region: Findings show that: (i) Baseflow signatures had a notable spatial variability, in which the magnitude baseflow signatures (Qb10, Qb25, Qb50, Qb90), Baseflow Index (BFI), Concavity Index (CI), and Slope of the baseflow duration curve (SBDC) demonstrated greater values in the north versus the south. (ii) Both ISP and ANLI exhibited an upward trend over time with some fluctuations (R2 > 0.65, p

Published
2023
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5. Research on the performance of modified blue coke in adsorbing hexavalent chromium

Author

Hua Wang, Wencheng Wang, Guotao Zhang, and Xuchun Gao

Subjects
Medicine, Science
Abstract

Abstract To solve the issue of hexavalent chromium (Cr(VI)) contamination in water bodies, blue coke powder (LC) was chemically changed using potassium hydroxide to create the modified material (GLC), which was then used to treat a Cr(VI)-containing wastewater solution. The differences between the modified and unmodified blue coke’s adsorption characteristics for Cr(VI) were studied, and the impact of pH, starting solution concentration, and adsorption period on the GLC's adsorption performance was investigated. The adsorption behavior of the GLC was analyzed using isothermal adsorption models, kinetic models, and adsorption thermodynamic analysis. The mechanism of Cr(VI) adsorption by the GLC was investigated using characterization techniques such as Fourier Transform Infrared Spectroscopy (FTIR), Field Emission Scanning Electron Microscope (FE-SEM), X-Ray Diffraction (XRD), and X-Ray Photoelectron Spectroscopy (XPS). With the biggest difference in removal rate at pH = 2, which was 2.42 times that of LC, batch adsorption experiments revealed that, under the same adsorption conditions, the GLC always performed better than LC. With a specific surface area that was three times that of LC and an average pore diameter that was 0.67 times that of LC, GLC had a more porous structure than LC. The alteration significantly increased the number of hydroxyls on the surface of GLC by altering the structural makeup of LC. The ideal pH for removing Cr(VI) was 2, and the ideal GLC adsorbent dosage was 2.0 g/L. Pseudo-second-order kinetic (PSO) model and Redlich-Peterson (RP) model can effectively describe the adsorption behavior of GLC for Cr(VI). Physical and chemical adsorption work together to remove Cr(VI) by GLC in a spontaneous, exothermic, and entropy-increasing process, with oxidation–reduction processes playing a key role. GLC is a potent adsorbent that can be used to remove Cr(VI) from aqueous solutions.

Published
2023
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6. Variation Characteristics of Temperature and Precipitation over the Southeast Xizang since 1960

Author

Chaoyue LI, Peng CUI, Jiansheng HAO, Guotao ZHANG, Jiao WANG, and Yang JIA

Subjects
linear trend rate, mann-kendall rest, wavelet analysis, extreme climate, southeast xizang, Meteorology. Climatology, QC851-999
Abstract

This study used the daily temperature and precipitation data from 27 stations in southeast Xizang during 1960-2017 to study the characteristics of climate change in China, by using the linear trend test, Mann-Kendall test, wavelet analysis, and extreme climate index methods.The results demonstrate that: (1) the annual mean, maximum and minimum temperature show obviously rising trends, with the increasing rate of 0.29~0.43 ℃·(10a)-1.The temperature increase in winter is the most obvious.The annual precipitation shows an increasing trend as a whole, with a linear trend of 6.66 mm·(10a)-1, in which it decreases in summer and autumn, and increases in winter and spring.(2) The temperature and precipitation have multi-period changes; and both have a variation period, 28 a, on a large time scale.(3) The times of the abrupt change of average temperature, maximum temperature and minimum temperature were in 1994, 2001 and 1992 respectively, and the precipitation changed from less to more in 1979.(4) The indexes of extreme high temperature, such as TXx, TNn, TNx, TXn, all increase.The frequency indexes of high temperature events, such as TX90p, TN90p, show an increasing trend, while the frequency indexes of low temperature events, such as TX10p, TN10p, show a decreasing trend.The persistence index of high temperature events (WSDI) shows an increasing trend, and the persistence index of low temperature events (CSDI) shows a decreasing trend.(5) Except that the CWD and CDD show a decreasing trend, the other extreme precipitation indexes show an increasing trend.According to the change results of mean and extreme climate, the southeastern Xizang is generally warm and humid, and it is also a sensitive area and an amplifier in Qinghai-Tibet Plateau and even China.

Published
2023
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7. Impacts of Climate Change on Snow Avalanche Activity Along a Transportation Corridor in the Tianshan Mountains

Author

Jiansheng Hao, Xueqin Zhang, Peng Cui, Lanhai Li, Yan Wang, Guotao Zhang, and Chaoyue Li

Subjects
Climate change, Continental snow climate, Risk management, Snow avalanches, Tianshan mountains, Disasters and engineering, TA495
Abstract

Abstract Snow avalanches can repeatedly occur along the same track under different snowpack and meteorological conditions during the snow season in areas of snow avalanche activity. The snowfall, air temperature, and snow cover can change dramatically in a warming climate, causing significant changes in the snow avalanche risk. But how the risk of snow avalanche activity during the snow season will change under a warming climate remains an open question. Based on the observed meteorological and snowpack data from 1968 to 2021 and the snow avalanche activity data during the 2011–2021 snow seasons along a transportation corridor in the central Tianshan Mountains that has a typical continental snow climate, we analyzed the temporal distribution of the snow avalanche activity and the impacts of climate change on it. The results indicate that the frequency of the snow avalanche activity is characterized by a Gaussian bimodal distribution, resulting from interactions between the snowfall, air temperature, and snowpack evolution. In addition, the active period of wet snow avalanches triggered by temperature surges and high solar radiation has gradually moved forward from the second half to the first half of March with climate warming. The frequency and size of snowfall-triggered snow avalanches showed only a slight and insignificant increase. These findings are important for rationally arranging snow avalanche relief resources to improve the risk management of snow avalanche disasters, and highlight the necessity to immediately design risk mitigation strategies and disaster risk policies to improve our adaptation to climate change.

Published
2023
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8. Nitric Acid-Treated Blue Coke-Based Activated Carbon’s Structural Characteristics and Its Application in Hexavalent Chromium-Containing Wastewater Treatment

Author

Wencheng Wang, Hua Wang, Yunxuan Luoyang, Guotao Zhang, Xuchun Gao, Jian Li, Xia Li, and Miao He

Subjects
adsorption, Cr (VI), blue coke, potassium hydroxide activation, nitric acid modification, Organic chemistry, QD241-441
Abstract

This study primarily focused on the efficient transformation of low-priced blue coke powder into a high-capacity adsorbent and aimed to address the pollution issue of hexavalent chromium (Cr (VI))-laden wastewater and to facilitate the effective utilization of blue coke powder. A two-step method was utilized to fabricate a blue coke-based nitric acid-modified material (LCN), and the impact of nitric acid modification on the material’s structure and its efficacy in treating Cr (VI)-contaminated wastewater was evaluated. Our experimental results illustrated that, under identical conditions, LCN exhibited superior performance for Cr (VI) treatment compared to the method employing only potassium hydroxide (LCK). The specific surface area and pore volume of LCN were 1.39 and 1.36 times greater than those of LCK, respectively. Further chemical composition analysis revealed that the functional group structure on the LCN surface was more conducive to Cr (VI) adsorption. The highest amount of Cr (VI) that LCN could bind was measured at 181.962 mg/g at 318 K. This was mostly due to chemisorption, which is dominated by redox reactions. The Cr (VI) removal process by LCN was identified to be a spontaneous, exothermic, and entropy-increasing process. Several tests on recycling and reuse showed that LCN is a stable and effective chromium-containing wastewater adsorbent, showing that it could be used in many situations.

Published
2023
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9. Novel Approach to Estimating Glacial Moraine Reserves in the Parlung Tsangpo Basin

Author

Jiao Wang, Peng Cui, Hao Wang, Guotao Zhang, Qiang Zou, and Xiaoqing Chen

Subjects
Glacial moraine, Remote sensing, Estimating sediment reserves model, Debris flow, Parlung Tsangpo, Science
Abstract

The Sichuan–Tibet Railway crosses through the largest maritime glacier region in China. A large number of moraines formed after the rapid glacial retreat caused by climate warming. Moraines could induce frequent geological hazards that seriously threatened the safe construction and operation of the railway. Accordingly, moraines in this maritime glacier region have become a new challenging research topic with respect to the formation of geological hazards. Using remote-sensing image interpretations, field investigations, and dating tests, moraines and their topographic information were systematically obtained. After analyzing the geometrical distribution characteristics of the moraine accumulations, the geometrical characteristics of three typical moraine accumulation forms were generalized into corresponding mathematical models. Consequently, a method to quickly and quantitatively estimate the moraine reserves is proposed. The moraine distribution is primarily affected by the elevation, slope, river–valley morphology, and climate conditions. Old moraines that formed in the Pleistocene epoch (the Guxiang and Baiyu glacial periods) are primarily distributed below 3,500 m above sea level, while most of the new moraines that formed in the Holocene epoch (Neoglaciation and Little Ice Age) are primarily distributed above 4,000 m above sea level. Both the new and old moraines are primarily distributed within a slope range of 10–30°. Furthermore, the main river–valley morphology has a significant impact on the distribution of the old moraines, which are primarily distributed in the Zhongba–Guxiang section of the river valley where the longitudinal slope is relatively gentle. The difference in glaciation is the main reason why the new moraines distributed on the south banks in the study area are different from those on the north banks and why those distributed upstream are different from those distributed downstream. In addition, moraines are the main source of glacial debris flows. According to the presented method, the loose moraine reserves can be accurately calculated by analyzing the position, consolidation, and supply capability of the new and old moraines in each debris flow gully. It is anticipated that the presented results can be used to better understand the formation mechanisms of glacier-related hazards and improve risk assessments.

Published
2022
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10. Fused Deposition Modeling and Characterization of Heat Shape Memory Poly(lactic) Acid-Based Porous Vascular Scaffold

Author

Li Zhang, Muhammad Hanif, Jiacheng Li, Abdul Hakim Shah, Wajid Hussain, and Guotao Zhang

Subjects
shape memory polymers, solid isotropic material penalization method (SIMP), vascular scaffolds, thermodynamic properties, mechanical properties, Organic chemistry, QD241-441
Abstract

Shape memory polymers have received widespread attention from researchers because of their low density, shape variety, responsiveness to the environment, and transparency. This study deals with heat-shape memory polymers (SMPs) based on polylactic acid (PLA) for designing and fabricating a novel porous vascular scaffold to treat vascular restenosis. The solid isotropic material penalization method (SIMP) was applied to optimize the vascular scaffolds. Based on the torsional torque loading of Hyperworks Optistruct and the boundary conditions, the topological optimization model of a vascular scaffold unit was established. Forward and reverse hybrid modeling technology was applied to complete the final stent structure’s assembly. The glass transition temperature for the present SMPs is 42.15 °C. With the increase in temperature, the ultimate tensile strength of the SMPs is reduced from 29.5 MPa to 11.6 MPa. The maximum modulus at room temperature was around 34 MPa. Stress relaxation curves show that the material classification is a “thermoset” polymer. The superb mechanical properties, the transition temperature of the SMPs, and the recovery ratio made it a feasible candidate for a vascular scaffold. A circular tube based on the shape memory polymers was presented as an example for analyzing the recovery ratio in an unfolding state. A higher recovery ratio was obtained at a temperature of 65 °C with a tube thickness of 2 mm. Finally, the proposed porous vascular scaffold was successfully fabricated, assessed, and compared with the original and previously developed vascular scaffolds. The proposed scaffold structure regains its initial shape with a recovery ratio of 98% (recovery temperature of 47 °C) in 16 s. The tensile strength, Young’s modulus, and bending strength of the proposed scaffold were 29.5 MPa, 695.4 MPa, and 6.02 MPa, respectively. The results showed that the proposed scaffold could be regarded as a potential candidate for a vascular implantation.

Published
2023
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11. Channel Evolution Triggered by Large Flash Flood at an Earthquake-Affected Catchment

Author

Wen Jin, Hao Wang, Guotao Zhang, Dingzhu Liu, and Jiao Wang

Subjects
channel change, flash flood, sUAV, post-Wenchuan earthquake, Science
Abstract

Earthquakes–induced landslides generally provide abundant loose materials at hillslopes, possibly triggering morphological reshaping processes at river channels and riverbeds during the large flash flood hydrograph and bringing huge risk downstream. Therefore, in a Wenchuan earthquake-affected catchment, the collected hydro-meteorological data and high-precision small Unmanned Aerial Vehicle (sUAV) data were used to quantitatively analyze channel evolution by a large flash flood event on 25 and 26 June 2018. It was found that the stable riverbed structure formed by the armour layer appeared in the tenth year after the Wenchuan earthquake. In a confined channel, the layer can protect the channel and resist the drastic change after the flash flood event with only a small bed elevation from 0.2 m to 2 m. Without the protection of the armour, the change could reach 6 m in the unconfined channel. Meanwhile, more materials with a deposition volume of about 7450 m3 from tributaries were generally taken to the main channel, and more intense erosion with a volume of 105 m3 mostly occurred downstream of tributaries. It was noted that, in the cross-section, the increased channel width could lead to a significant change with the large volume of 35 m3. Additionally, a conceptual diagram of the generalized channel response to large flash floods was provided during multi-stage periods after the Wenchuan earthquake. It determined the rebalance processes of channel evolution in the tenth year after the earthquake. This study will contribute to understanding the post-earthquake long-term channel evolutions and could provide decision-makers of assessing the mitigation strategies for higher-magnitude flood disasters triggered by channel change in earthquake-affected watersheds.

Published
2022
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12. Long-Term Baseflow Responses to Projected Climate Change in the Weihe River Basin, Loess Plateau, China

Author

Junlong Zhang, Panpan Zhao, Yongqiang Zhang, Lei Cheng, Jinxi Song, Guobin Fu, Yetang Wang, Qiang Liu, Shixuan Lyu, Shanzhong Qi, Chenlu Huang, Mingwei Ma, and Guotao Zhang

Subjects
baseflow, Weihe River Basin, Loess Plateau, climate change, General Circulation Models, Science
Abstract

Climate change is a significant force influencing catchment hydrological processes, such as baseflow, i.e., the contribution of delayed pathways to streamflow in drought periods and is associated with catchment drought propagation. The Weihe River Basin is a typical arid and semi-arid catchment on the Loess Plateau in northwest China. Baseflow plays a fundamental role in the provision of water and environmental functions at the catchment scale. However, the baseflow variability in the projected climate change is not well understood. In this study, forcing meteorological data were derived from two climate scenarios (RCP4.5 and RCP8.5) of three representative general circulation models (CSIRO-Mk3-6-0, MIROC5, and FGOALSg2) in CMIP5 and then were used as inputs in the Soil and Water Assessment Tool (SWAT) hydrological model to simulate future streamflow. Finally, a well-revised baseflow separation method was implemented to estimate the baseflow to investigate long-term (historical (1960–2012) and future (2010–2054) periods) baseflow variability patterns. We found (1) that baseflow showed a decreasing trend in some simulations of future climatic conditions but not in all scenarios (p < 0.05), (2) that the contribution of baseflow to streamflow (i.e., baseflow index) amounted to approximately 45%, with a slightly increasing trend (p ≤ 0.001), and (3) an increased frequency of severe hydrological drought events in the future (2041–2053) due to baseflows much lower than current annual averages. This study benefits the scientific management of water resources in regional development and provides references for the semi-arid or water-limited catchments.

Published
2022
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13. Multi-Objective Optimization of Organic Rankine Cycle (ORC) for Tractor Waste Heat Recovery Based on Particle Swarm Optimization

Author

Wanming Pan, Junkang Li, Guotao Zhang, Le Zhou, and Ming Tu

Subjects
multi-objective optimization, organic Rankine cycle, tractor diesel engine, PSO, TOPSIS, Technology
Abstract

Diesel engines are widely used in agricultural tractors. During field operations, the tractors operate at low speed and high load for a long time, the fuel efficiency is only about 15% to 35%, and the exhaust waste heat accounts for 38% to 45% of the energy released from the fuel. The use of tractor exhaust waste heat can effectively reduce fuel consumption and pollutant emissions, of which the organic Rankine cycle (ORC)-based waste heat recovery conversion efficiency is the highest. First, the diesel engine map is achieved through the test rig, a plate-fin evaporator is trial-produced based on the tractor size, and the thermodynamic and economic performance model of the ORC are established. Then, taking the thermal efficiency of ORC and the specific investment cost (SIC) as the objective function, the particle swarm optimization (PSO) algorithm and the technique for order of preference by similarity to ideal solution (TOPSIS) decision method were used to obtain the optimal operating parameter set under all working conditions. Finally, the results showed that the ORC thermal efficiency could reach a maximum of 12.76% and the corresponding SIC value was 8539.66 $/kW; the ORC net output power could be up to 8.31 kW compared with the system without ORC; and the maximum brake specific fuel consumption (BSFC) could be reduced by 8.3%. The improvement in the thermodynamic performance will lead to a sacrifice in economic performance, and at high speeds, the economic benefits and thermal efficiency reach a balance and show a better thermal economic performance. Recovering exhaust heat energy through ORC can reduce tractor fuel consumption and pollution emissions, which is one of the effective technical means to achieve “carbon neutrality” in agricultural production. At the same time, through the PSO algorithm, the optimal combination of ORC operating parameters is obtained, which ensures that the exhaust heat energy can be effectively recovered during the tractor field operation, and provides a basis for the adjustment of real-time work strategies for future research.

Published
2022
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14. Investigation of the spatio-temporal heterogeneity and optical property of water-soluble organic carbon in atmospheric aerosol and snow over the Yulong Snow Mountain, southeastern Tibetan Plateau

Author

Hewen Niu, Shichang Kang, Wanni Gao, Chandan Sarangi, Lekhendra Tripathee, Dipesh Rupakheti, Guotao Zhang, and Xingguo Yan

Subjects
Light absorption, Tibetan Plateau, Water body, WSOC, Environmental sciences, GE1-350
Abstract

Atmospheric aerosols are a branch of active research in recent decades. The deposition of light-absorbing substances on high-altitude glaciers causes substantial adverse impacts on the cryospheric environment, cryosphere-hydrology, and climate system. Although, the concentrations of water-soluble organic carbon (WSOC) in snow/ice on glaciers of Tibetan Plateau (TP) have been reported, their transfer processes and optical properties in the context of summer precipitation-atmosphere-snow-river water continuum are seldom studied. In this study, we have systematically examined some scientific issues associated with WSOC concentrations and light absorption properties of WSOC in various forms of samples from the Mt. Yulong region. Statistical results demonstrate that the spatial distribution of WSOC in the snow of Baishui glacier was heterogeneous. The average WSOC concentrations of each snowpit were significantly decreased, and its light-absorbing properties were significantly elevated with the time extension. Aerosol WSOC concentrations and light absorption have distinct spatial disparity and seasonal variation. Pre-monsoon and monsoon have the highest and lowest WSOC content, respectively. Whereas the light-absorbing properties present contrasting seasonal trends. Rivers of which runoff was supplied by glacier meltwater have significantly lower WSOC concentrations (e.g., 0.42 ± 0.03 mg L−1) compared with other forms of water bodies. Mass absorption cross-section of WSOC (MAC-WSOC) in multiple snow and meltwater samples was significantly different and type-dependent. Atmospheric aerosol has the lowest MAC-WSOC value among the four types of samples, which was likely associated with exhaust emissions from private vehicles and tour buses. Statistical results indicated that the average AAE330-400 values of various snow/ice samples are subequal. Snow of glaciers supplies a desirable platform for the deposition of gaseous materials which experienced long-range transport in high altitude zones. Biomass-burning emissions made an immense contribution to the WSOC deposition over the study area, as demonstrated by the distribution of active fire points. However, this preliminary study represents the first systematic investigation of WSOC deposition in southeastern TP. Further robust in-situ field investigations and laboratory measurements are urgently necessary to improve our understanding of the transfer process and optical property of WSOC.

Published
2020
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15. SIRT1 Mediates Neuropathic Pain Induced by Sciatic Nerve Chronic Constrictive Injury in the VTA-NAc Pathway

Author

Yangyang Li, Lei Wang, Guotao Zhang, Xueli Qiao, and Mingxing Zhang

Subjects
Medicine (General), R5-920
Abstract

Background. Mounting evidence has shown that sirtuin 1 (SIRT1), a class III histone deacetylase, alleviated several types of neuropathic pain in the spinal cord and dorsal root ganglion and regulated some aberrant behaviors in the ventral tegmental area (VTA) and the nucleus accumbens (NAc). Methods. In this context, the effect of SIRT1 on neuropathic pain in the VTA-NAc pathway was investigated in the model of chronic constrictive injury (CCI). Results. SIRT1 was localized in the VTA neurons in naive mice. The expression of SIRT1 was decreased in the contralateral VTA of CCI mice. After microinjection of SRT1720 (an activator of SIRT1) in the contralateral VTA of CCI mice, the established thermal hyperalgesia was attenuated. However, it was further exacerbated by EX-527 (an inhibitor of SIRT1). The elevated level of acetyl-histone 3 was reduced by SRT1720 but further elevated by EX-527 in the contralateral VTA of CCI mice. The increased expression of Fos in both VTA and NAc was downregulated by SRT1720 but further upregulated by EX-527 in CCI mice. Conclusions. The discovery of the effect of SIRT1 on neuropathic pain in the VTA represents an important step forward in understanding the analgesic mechanisms of the VTA-NAc pathway.

Published
2020
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16. Composite Polymer Anion Exchange Membranes with Sandwich Structure and Improved Performance for Zn–Air Battery

Author

Xiaoxia Cai, Yuansong Zhang, Cong Li, Guotao Zhang, Xiaotao Wang, Xian Zhang, Qiang Wang, and Fuzhong Wang

Subjects
alkaline solid polymer electrolyte, anion exchange membranes, PAA, Zn–Air battery, degrease cotton, Chemical technology, TP1-1185, Chemical engineering, TP155-156
Abstract

In this study, we fabricated a composite polymer anion exchange membrane (AEM) with a sandwich structure. This prepared AEM demonstrated high ionic conductivity (0.25 Scm−1), excellent alkali resistance (8 M KOH), and good mechanical properties (tensile strength of 0.455 MPa and elongation at break of 82.13%). Here, degrease cotton (DC) treated with LiOH/urea aqueous solution was used and immersed into a coagulation bath to form a film. This film was immersed in acrylic acid (AA) monomers, and in-suit polymerization was carried out in the presence of KOH and an initiator. Finally, a composite polymer membrane with sandwich structure was achieved, in which the upper and bottom layers were mainly composed of polymerized AA (PAA) while the central layer was mainly composed of DC derived film. The central layer acted as a skeleton to improve the mechanical properties and alkali resistance. The top and bottom layers (PAA-rich layers) acted as OH- ion transport carriers, making basic cations migrate along the main chain of PAA. This newly developed composite membrane showed increased tensile strength and an elongation at break of 2.7 and 1.5 times, respectively, when compared to a control PAA/KOH AEM film. Furthermore, an electrochemical stability window of 2.0 V was measured via the cyclic voltammetry curve test, showing a wide electrochemical window and promising application in Zn–Air batteries.

Published
2021
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18. Variability of Stable Isotope in Lake Water and Its Hydrological Processes Identification in Mt. Yulong Region

Author

Xiaoyi Shi, Tao Pu, Yuanqing He, Cuishan Qi, Guotao Zhang, and Dunsheng Xia

Subjects
Lashi Lake, hydrological processes, Mt. Yulong, stable isotope variations, Hydraulic engineering, TC1-978, Water supply for domestic and industrial purposes, TD201-500
Abstract

Lakes are regarded as important nodes in water resources, playing pivotal roles in the regional hydrological cycle. However, the systematic study on lake water balance is scarce in Mt. Yulong region. Here, we study the stable isotope compositions of precipitation, inflowing rivers and lake water to exploit the characteristics of hydrological supply and lake water balance. The results showed that there was a typical spatial distribution of surface isotope in August and April. Relatively high δ18O values with low d-excess were found on the east and west shores of the lake in August and in the middle part of the lake in April. The lowest δ18O with highest d-excess were found in the north and south shores in August and April, respectively. Meanwhile, slight isotopic stratification indicated that the lake water was vertically mixed-well. Subsequently, the evaporation-to-inflow ratios (E/Is) during the two periods were further derived based on the isotope mass balance model. Approximately 51% in August and 12% in April of the water flowing into Lashi Lake underwent evaporation. This study provides a reference for the long-term monitoring and modeling the hydrology processes of the basin, and is important for the regional water resource.

Published
2017
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19. Variability of Darcian Flux in the Hyporheic Zone at a Natural Channel Bend

Author

Shaofeng Xu, Jinxi Song, Weiwei Jiang, Guotao Zhang, Ming Wen, Junlong Zhang, and Ying Xue

Subjects
hyporheic zone, Darcian flux, channel bend, vertical hydraulic conductivity, stream topography, grain size, porosity, Hydraulic engineering, TC1-978, Water supply for domestic and industrial purposes, TD201-500
Abstract

Channel bends are one of the most important characteristic features of natural streams. These bends often create the conditions for a hyporheic zone, which has been recognized as a critical component of stream ecosystems. The streambed vertical hydraulic conductivity (Kv), vertical hydraulic gradient (VHG) and Darcian flux (DF) in the hyporheic zone were estimated at 61 locations along a channel bend of the Beiluo River during July 2015 and January 2016. All the streambed attributes showed great spatial variability along the channel bend. Both upward fluxes and downward fluxes occurred during the two test periods, most of studied stream sections were controlled by downwelling, indicating stream water discharge into the subsurface. The average downward flux was higher at the downstream side than at the upstream side of the channel bend, especially in July 2015. The distribution of streambed sediment grain size has a significant influence on the variability of Kv; high percentages of silt and clay sediments generally lead to low Kv values. Higher Kv at the depositional left bank at the upstream site shifted toward the erosional right bank at the downstream site, with Kv values positively correlated with the water depth. This study suggested that the variabilities of Kv and VHG were influenced by the stream geomorphology and that the distribution of Kv was inversely related, to a certain extent, to the distribution of VHG across the channel bend. Kv and VHG were found to have opposite effects on the DF, and the close relationship between Kv and DF indicated that the water fluxes were mainly controlled by Kv.

Published
2017
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21. Nitrate Pollution and Preliminary Source Identification of Surface Water in a Semi-Arid River Basin, Using Isotopic and Hydrochemical Approaches

Author

Ying Xue, Jinxi Song, Yan Zhang, Feihe Kong, Ming Wen, and Guotao Zhang

Subjects
nitrate pollution, surface water, nitrogen isotope, hydrochemistry, source, Hydraulic engineering, TC1-978, Water supply for domestic and industrial purposes, TD201-500
Abstract

Nitrate contamination in rivers has raised widespread concern in the world, particularly in arid/semi-arid river basins lacking qualified water. Understanding the nitrate pollution levels and sources is critical to control the nitrogen input and promote a more sustainable water management in those basins. Water samples were collected from a typical semi-arid river basin, the Weihe River watershed, China, in October 2014. Hydrochemical assessment and nitrogen isotopic measurement were used to determine the level of nitrogen compounds and identify the sources of nitrate contamination. Approximately 32.4% of the water samples exceeded the World Health Organization (WHO) drinking water standard for NO3−-N. Nitrate pollution in the main stream of the Weihe River was obviously much more serious than in the tributaries. The δ15N-NO3− of water samples ranged from +8.3‰ to +27.0‰. No significant effect of denitrification on the shift in nitrogen isotopic values in surface water was observed by high dissolved oxygen (DO) values and linear relationship diagram between NO3−-N and δ15N-NO3−, except in the Weihe River in Huayin County and Shitou River. Analyses of hydrochemistry and isotopic compositions indicate that domestic sewage and agricultural activities are the main sources of nitrate in the river.

Published
2016
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24. Predicting the Risk of Glacial Lake Outburst Floods in Karakorum.

Author

Bazai, Nazir Ahmed, Carling, Paul A., Cui, Peng, Hao, Wang, Guotao, Zhang, Dingzhu, Liu, and Hassan, Javed

Subjects
GLACIAL lakes, CLIMATE feedbacks, GLACIERS, WATERSHEDS, WATER pressure, ALPINE glaciers
Abstract

Glacier snouts respond to climate change by forming proglacial meltwater lakes, thereby influencing glacier mass balance and leading to advancements and surges. The positive feedback of climate change results in more frequent ice-dammed glacial lake outburst floods (GLOFs) in the Karakorum and surrounding regions, often facilitated by englacial conduits. However, the complex and multi-factor processes of conduit development are challenging to measure. Determining the lake depths that might trigger GLOFs and the numerical model specifications for breaching are still being determined. Empirical estimates of lake volumes, along with field-based monitoring of lake levels and depths and the assessment of GLOF risks, enable warnings and damage mitigation. Using historical data, remote sensing techniques, high-resolution imagery, cross-correlation feature-tracking, and field-based data, we identified the processes of lake formation, drainage timing, and triggering depth. We developed empirical approaches to determine lake volume and trigger water pressure leading to a GLOF. The correlation of glacier surge and lake volume reveals that glacier surge velocity plays a crucial role in lake formation and controlling the size and volume of the lake. Lake volume estimation involves geometric considerations of the lake basin shape. A GLOF becomes likely when the lake's non-dimensional depth (n') exceeds 0.60, correlating with a typical water pressure on the dam face of 510 kPa. Additionally, we identified the critical risk zone of lakes, where all lake outburst floods occur, as the point where the lake volume reaches or exceeds 60 % of its capacity. These field-based and empirical findings not only offer valuable insights for early warning procedures in the Karakorum but also suggest that similar approaches can be effectively applied to other mountain environments worldwide where GLOFs pose a hazard. [ABSTRACT FROM AUTHOR]

Published
2024
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27. Analysis of seepage and lubrication characteristics of bilayer porous bearing under mixed lubrication

Author

Guotao Zhang, Weijie Cai, Xiaoyi Wang, Junpeng Xu, Yanguo Yin, and Xicheng Wei

Subjects
General Energy, Mechanical Engineering, Surfaces, Coatings and Films
Abstract

Purpose The purpose of this paper is to put forward the lubrication model of oil bearing and enrich the design theory under the condition of mixed lubrication. Design/methodology/approach A mixed lubrication model of bilayer porous bearing is established. The effects of the working conditions on the lubrication performance and seepage behavior were analyzed. Findings Results show that the oil film pressure mainly occurs in the bearing convergence zone and contact pressure mainly occurs near the minimum film thickness. The oil infiltrates into the porous matrix in the contact area and precipitates out to the friction surface at the inlet of the contact area. The oil seepage velocity and dynamic pressure effect at the friction interface can be improved by reasonably matching the load and speed. With the decrease of the external load or increase of the rotating speed, the lubrication performance becomes well. Originality/value This study provides a reference for the design and application of oil bearing under harsh working conditions.

Published
2022

30. Study on the influence of the geomorphic on debris flow activity in the paraglacial zone of the Southeast Tibetan Plateau

Author

Jiao Wang and Guotao Zhang

Abstract

On the southeastern Tibetan Plateau, which is an area widely covered by alpine glaciers, two types of debris flow generally occur: glacier-related debris flows (GDFs) and rainfall-related debris flows (RDFs). It is widely accepted that topographic conditions influence debris flow activities; however, few studies have examined the differences between such influence on GDFs and RDFs. This study investigated the GDFs and RDFs in the periglacial area of the Parlung Tsangpo Basin, and calculated 12 geomorphic indexes to reveal the topographic features associated with these two types of debris flow. It was found that lower values in the drainage area, main channel length, and relative elevation occurred in RDFs compared to the GDFs, whereas higher values in the channel gradient, relief ratio, and effective basin area appeared in RDFs. The discrepancy is mainly related to the different topographic and geomorphic shaping of modern glaciers. According to its geomorphological characteristics, the Parlung Tsangpo Basin can be divided into three sections: the upper V-shaped canyon section, middle wide valley section, and lower steep canyon section. The scale and frequency of debris flows in the upstream canyon region are substantially lower than those of debris flows in the downstream canyon region. Moreover, the frequency and scale of RDFs are substantially different to those of GDFs, primarily because of the different geomorphic evolutionary stages of debris flows gullies in different regions.

Published
2023

34. O3–precursor relationship over multiple patterns of timescale: a case study in Zibo, Shandong Province, China

Author

Zhensen Zheng, Kangwei Li, Bo Xu, Jianping Dou, Liming Li, Guotao Zhang, Shijie Li, Chunmei Geng, Wen Yang, Merched Azzi, and Zhipeng Bai

Subjects
Atmospheric Science
Abstract

In this study, we developed an approach that integrated multiple patterns of timescale for box modeling (MCMv3.3.1) to better understand the O3–precursor relationship at multiple sites and through continuous observations. A 5-month field campaign was conducted in the summer of 2019 to investigate the ozone formation chemistry at three sites in a major prefecture-level city (Zibo) in Shandong Province of northern China. It was found that the relative incremental reactivity (RIR) of major precursor groups (e.g., anthropogenic volatile organic compounds (AVOCs), NOx) was overall consistent in terms of timescales changed from wider to narrower (four patterns: 5-month, monthly, weekly, and daily) at each site, though the magnitudes of RIR varied at different sites. The time series of the photochemical regime (using RIRNOx / RIRAVOC as an indicator) in weekly or daily patterns further showed a synchronous temporal trend among the three sites, while the magnitude of RIRNOx / RIRAVOC was site-to-site dependent. The derived RIR ranking (top 10) of individual AVOC species showed consistency between three patterns (i.e., 5-month, monthly, and weekly). It was further found that the campaign-averaging photochemical regimes showed overall consistency in the sign but non-negligible variability among the four patterns of timescale, which was mainly due to the embedded uncertainty in the model input dataset when averaging individual daily patterns into different timescales. This implies that utilizing narrower timescales (i.e., daily pattern) is useful for deriving reliable and robust O3–precursor relationships. Our results highlight the importance of quantifying the impact of different timescales to constrain the photochemical regime, which can formulate more accurate policy-relevant guidance for O3 pollution control.

Published
2023

35. Spatiotemporal variation of flash floods in the Hengduan Mountains region affected by rainfall properties and land use

Author

Guotao Zhang, Jiao Wang, Xiaoyun Sun, Chaoyue Li, Shengnan Wu, and Yao Li

Subjects
Atmospheric Science, Watershed, Land use, Natural hazard, Flash flood, Earth and Planetary Sciences (miscellaneous), Environmental science, Magnitude (mathematics), Physical geography, Precipitation, Surface runoff, Linear trend, Water Science and Technology
Abstract

Understanding the spatiotemporal characteristic of flash floods is significant for the reasonable and accurate identification of high-risk regions of disasters as well as future prediction of hydrological regimes. Therefore, this study collected time-series datasets (1979-2015) of historical flash flood events, rainfall, and land-use in the Hengduan Mountains region, China to characterize the spatiotemporal variation in flash floods affected by the change in rainfall and land-use. Using linear trend, a significant increase with 12 times/10a for flash flood events was found while 82% of events occurred in the flood season (June–August). They were closely related to the increase in frequency (3.5 d/10a) and magnitude (215.55 mm/10a) of heavy rainfall as well as the amplified artificial (999 km2). Affected by heavy rainfall due to climate change and human activity, significant periodic variations on the scales of 3-7a, 8-15a, and 21-31a were derived based on the Morlet wavelet analysis. Meanwhile, utilizing the standard elliptical difference, we identified the moving route of the gravity center of flash floods, with the direction from northwest to southeast. More recorded disasters generally were found in the south of the Hengduan Mountain region, where was mainly controlled by frequent rainstorms and the formation of more cropland and artificial with higher runoff potential. These findings can be an appropriate supplement for lack of understanding of the spatiotemporal dynamics of flash floods in the Hengduan Mountains region and could provide policymakers with evidence to identify high-risk areas which is difficult to cope with in the mountainous watershed.

Published
2021

36. Effect of TiC on Microstructure and Strength of Al-Bi-Cu Alloys

Author

Congmin Li, Gang Cao, Guotao Zhang, Yanguo Yin, Ming Xu, Bingxun Yang, Cong Liu, Qi Chen, and Rongrong Li

Subjects
Materials science, Mechanical Engineering, Alloy, Nucleation, chemistry.chemical_element, engineering.material, Microstructure, Grain size, chemistry, Mechanics of Materials, Aluminium, Phase (matter), Ultimate tensile strength, engineering, General Materials Science, Graphite, Composite material
Abstract

TiC particles synthesized in situ by reacting K2TiF6 and graphite in molten aluminum were introduced into Al-Bi-Cu alloys to control its microstructure, increase its tensile strength and improve its wear performance. Al-Bi-Cu alloy has serious coarsening and macrosegregation behaviors during solidification due to the liquid phase separation. However, the coarsening and macrosegregation of Bi-rich phase were significantly impeded by adding 0.5 wt.%-2 wt.% TiC due to the heterogeneous nucleation and self-assembly behaviors provided by TiC particles. The average grain size of α-Al decreased from 36.6 μm (0.5 wt.% TiC) to 18.9 µm (2 wt.% TiC), and the average size of the Bi-rich phase decreased from 4.56 µm (0.5 wt.% TiC) to 3.26 µm (2 wt.% TiC). The results showed that the addition of TiC refines the size of grains and Bi-rich phases and solves the problem of coarsening and macrosegregation caused by liquid phase separation in the alloy. The tensile strength and elongation of the Al-Bi-Cu alloy are improved simultaneously after adding TiC particles and reach their maximum values at a TiC content of 1wt.%, which are 236MPa and 12.46%, respectively. In addition, the alloy containing 1 wt.% TiC has the lowest coefficient of friction and wear loss with the worn surface smooth and flat, indicating that the uniformly dispersed Bi-rich phase is beneficial to improve the friction and wear performance of the alloy.

Published
2021

37. Failure Mechanism of Al–Steel Resistance Spot Welding (RSW) Welds and a Metallic Bump Printed on Al Sheet-Assisted RSW (MBaRSW/Al) Welds During Lap-Shear Tests

Author

Yongbing Li, Zhongqin Lin, and Guotao Zhang

Subjects
Structural material, Materials science, Metallurgy, Metals and Alloys, Intermetallic, Welding, Condensed Matter Physics, law.invention, Shear (sheet metal), Mechanics of Materials, law, Ductility, Failure mode and effects analysis, Layer (electronics), Spot welding
Abstract

The metallic bump-assisted resistance spot welding (MBaRSW) weld formed between Al and steel had higher strength and better ductility than the RSW welds. The fracture behavior was investigated for both the RSW weld and MBaRSW/Al weld by printing metallic bumps on an Al sheet prior to welding. The results showed that a larger nugget size, thinner intermetallic compounds (IMC) layer and smaller thinning of the base metal (BM) yielded MBaRSW/Al welds with better properties. With increasing welding current, the nugget size, thickness of the IMC layer and thinning of the BM all increased, causing the weld strength to first increase and then decrease. During lap-shear tests, all RSW welds fractured by the interfacial failure (IF) mode and exhibited poor properties, resulting from its thick IMC layer, interfacial defects and large thinning of the BM. The MBaRSW/Al welds failed by the IF mode, mixed failure (MF) mode and partial button pull-out failure (PBF) mode with the increasing welding currents. As a result, the nugget size and the thickness of the IMC layer determined the MBaRSW/Al weld property and failure mode, and the thinning of the Al sheet had a large effect on the properties and failure mode of the MBaRSW/Al welds at high welding currents, e.g., 11 kA.

Published
2021

38. What Controls the Skill of General Circulation Models to Simulate the Seasonal Cycle in Water Isotopic Composition in the Tibetan Plateau Region?

Author

Xiaoyi Shi, Camille Risi, Laurent Li, Xuejie Wang, Tao Pu, Guotao Zhang, Yuan Zhang, Zhiyuan Wang, Yanlong Kong, Laboratoire des Sciences du Climat et de l'Environnement [Gif-sur-Yvette] (LSCE), and Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)

Subjects
[SDU.OCEAN]Sciences of the Universe [physics]/Ocean, Atmosphere, Atmospheric Science, Geophysics, Space and Planetary Science, Earth and Planetary Sciences (miscellaneous), [SDU.ENVI]Sciences of the Universe [physics]/Continental interfaces, environment
Abstract

International audience; This study evaluates the simulation of the seasonal cycle of water isotopic composition over Tibetan Plateau regions (TP) from six isotope-enabled general circulation models (GCMs) participating in the second Phase of Stable Water Isotope Intercomparison Group. For both meteorological factors (precipitation rate and wind field) and isotopic composition, GCMs generally agree with reanalysis data and in-situ observations, but there is a significant spread across models and the isotopic seasonality is systematically underestimated. In the southern TP, the precipitation isotopic composition is more depleted in summer than in winter, and the amplitude of the simulated isotopic seasonal variations is primarily driven by the amplitude of the simulated upstream precipitation. In contrast, in the northern TP, the precipitation isotopic composition is more depleted in winter than in summer, and the amplitude of the simulated seasonal variability of isotopes is mainly driven by the simulated strength of the zonal wind. We conclude that the skill of a GCM to simulate the seasonal cycle in the isotopic composition depends mainly on the skill of the GCM to simulate the Indian summer monsoon precipitation and the westerlies. The same causes contributing to the underestimated seasonality at present-day may also contribute to the underestimated δ 18 O change at the mid-Holocene.

Published
2022

40. O3-precursor relationship over multiple patterns of time scale: A case study in Zibo, Shandong Province, China

Author

Zhensen Zheng, Kangwei Li, Bo Xu, Jianping Dou, Liming Li, Guotao Zhang, Shijie Li, Chunmei Geng, Wen Yang, Merched Azzi, and Zhipeng Bai

Abstract

In this study, we developed an approach that integrating multiple patterns of time scale for box modeling (MCMv3.3.1) to better understand the O3-precursor relationship through multiple-site and continuous observations. A five-month field campaign was conducted in the summer of 2019 to investigate the ozone formation chemistry at three sites in a major prefecture-level city (Zibo) in Shandong province of northern China. It was found that the relative incremental reactivity (RIR) of major precursor groups (e.g., anthropogenic volatile organic compound (AVOC), NOx) were overall consistent along with time scale (four patterns: five-month, monthly, weekly, and daily) varied from wider to narrower, though the magnitude of RIR varied at each site. The time series of the photochemical regime (using RIRNOx/RIRAVOC as indicator) in weekly or daily patterns further showed varied magnitude but a synchronous temporal trend among the three sites. The derived RIR ranking (top 10) of individual AVOC species showed consistency at three averaged patterns (i.e., five-month, monthly, and weekly). It was further found that the campaign-averaging photochemical regimes showed overall consistency but non-negligible variability among the four patterns of time scale, which was mainly due to the embedded uncertainty in model input dataset when averaging individual daily pattern into different timescales. This implies that integrating multiple patterns of time scale is useful to derive reliable and robust O3-precursor relationship. Our results highlight the importance of quantifying the impact of different time scales to constrain the photochemical regime, which can formulate more accurate policy-relevant guidance for O3 pollution control.

Published
2022

42. Increased Nonstationarity of Stormflow Threshold Behaviors in a Forested Watershed Due to Abrupt Earthquake Disturbance

Author

Guotao Zhang, Peng Cui, Carlo Gualtieri, Nazir Ahmed Bazai, Xueqin Zhang, and Zhengtao Zhang

Abstract

Extreme earthquake disturbances to local and regional landscape vegetation could rapidly impair original hydrologic functioning, significantly increasing the hydrologic nonstationarity and complexity in threshold behaviors of rainfall-runoff processes. It is unclear how alternating catchment behaviors under an ongoing large earthquake disruption are mediated by long-term interactions of landslides and vegetation evolutions. In a famous Wenchuan earthquake-affected watershed, China, the presence and form of three-linear stormflow threshold behaviors are examined, and both thresholds are identified as a diagnostic tool to characterize variations in hydrologic emergent patterns pre- and post-earthquake. It was revealed that lower rising threshold (Tr) value (210.48) in post-earthquake landslide regions exhibited faster stormflow responses, possibly triggering huge flood disasters. An integrated watershed average (IWA) index for both thresholds (generation threshold Tg-IWA and Tr-IWA) at the watershed scale was proposed based on long-term vegetation dynamics and threshold-based hydrological theory. The interannual variations of both hydrologic thresholds were assessed to detect the nonstationarity in hydrologic extremes and nonlinear runoff response pre- and post-earthquake. 2011 was a tipping point of the unsteady recovery process, as post-earthquake landslides evolutions reached a state of extreme heterogeneity in space. At that moment, the Tr-IWA value at the watershed scale decreased by ~ 9 mm compared to the pre-earthquake level, and the fast expansion of landslides generally led to a larger extension of variable source area from channel to neighboring hillslopes and faster subsurface stormflow contributing to flash floods. Additionally, we present a conceptual model interpreting how the short- and long-term interactions of earthquake-induced landslides and vegetation affect flood hydrographs at event timescale that generated an increased nonstationary hydrologic behavior. This study expands our knowledge about the threshold-based hydrological behavior and the nonstationary stormflow threshold behaviors in response to abrupt earthquake disturbance for the prediction of future flood regimes.

Published
2022

46. Tribological properties of MoS2 powder-lubricated interface

Author

Yanguo Yin, Cong Liu, Guotao Zhang, and Baohong Tong

Subjects
Friction coefficient, 020303 mechanical engineering & transports, General Energy, Materials science, 0203 mechanical engineering, Interface (Java), Mechanical Engineering, 02 engineering and technology, Tribology, Composite material, 021001 nanoscience & nanotechnology, 0210 nano-technology, Surfaces, Coatings and Films
Abstract

Purpose This study aims to investigate the effect of MoS2 powder on tribological properties of sliding interfaces. Design/methodology/approach Loose MoS2 powder was introduced in the gap of point-contact friction pairs, and sliding friction test was conducted using a testing machine. Friction noise, wear mark appearance, microstructure and wear debris were characterized with a noise tester, white-light interferometer, scanning electron microscope and ferrograph, respectively. Numerical simulation was also performed to analyze the influence of MoS2 powder on tribological properties of the sliding interface. Findings MoS2 powder remarkably improved the lubrication performance of the sliding interface, whose friction coefficient and wear rate were reduced by one-fifth of the interface values without powder. The addition of MoS2 powder also reduced stress, plastic deformation and friction temperature in the wear mark. The sliding interface with MoS2 powder demonstrated lower friction noise and roughness compared with the interface without powder lubrication. The adherence of MoS2 powder onto the friction interface formed a friction film, which induced the wear mechanism of the sliding interface to change from serious cutting and adhesive wear to delamination and slight cutting wear under the action of normal and shear forces. Originality/value Tribological characteristics of the interface with MoS2 powder lubrication were clarified. This work provides a theoretical basis for solid-powder lubrication and reference for its application in engineering. Peer review The peer review history for this article is available at: https://publons.com/publon/10.1108/ILT-04-2020-0150/

Published
2021

47. Design of co-continuous structure of cellulose/PAA-based alkaline solid polyelectrolyte for flexible zinc-air battery

Author

Guotao Zhang, Xiaoxia Cai, Cong Li, Jinshui Yao, Zhongjian Tian, Fengshan Zhang, Yanshao Liu, Weiliang Liu, and Xian Zhang

Subjects
Ions, Zinc, Electrolytes, Electric Power Supplies, Structural Biology, General Medicine, Cellulose, Molecular Biology, Biochemistry, Polyelectrolytes
Abstract

In order to prepare high ionic conductivity and robust mechanical properties of alkaline solid polyelectrolyte (ASPE) for applications in flexible wearable devices, a co-continuous structure membrane was designed using in-situ polymerization to introduce cross-linked polyacrylic acid (N-PAA) into the cellulose network constructed by regenerated degreasing cotton (RDC). The resultant ASPE membrane showed high ionic conductivity (430 mS·cm

Published
2022

50. Improving mechanical properties and electrode life for joining aluminum alloys with innovatively designated Newton ring electrode

Author

Wang Yanjun, Guotao Zhang, Shanglu Yang, Li Mingfeng, and Tao Wu

Subjects
0209 industrial biotechnology, Materials science, Strategy and Management, Alloy, Nucleation, Base (geometry), chemistry.chemical_element, 02 engineering and technology, Welding, Management Science and Operations Research, engineering.material, 021001 nanoscience & nanotechnology, Industrial and Manufacturing Engineering, law.invention, 020901 industrial engineering & automation, chemistry, Aluminium, law, Electrode, Newton's rings, engineering, Composite material, 0210 nano-technology, Spot welding
Abstract

Aluminum alloys are critical lightweight materials in the automotive industry, which can significantly reduce vehicle weight and improve vehicle fuel efficiency. However, resistance spot welding, as one of key joining approaches, faces the challenges of short electrode life and unstable weld quality when welding aluminum alloy. A novel electrode named as Newton Ring (NTR) electrode was developed to address these issues. The mechanical property, nugget evolution and electrode degradation during continuous welding of aluminum alloy with NTR electrode were investigated and compared with the typical spherical electrode. Results indicate that the mechanical property, electrode life and surface quality of the weld fabricated by NTR electrode were much better than typical one. The improvement in the weld quality with NTR electrode stems from its unique surface morphology, which changes the current density distribution during welding and creates a ring-shaped nucleation process of the nugget. Therefore, the shape and size of the nugget are more stable, and the nugget does not cause serious offset in the continuous welding test. Additionally, the wear of the NTR electrode gradually grows from concentric rings to the base ring, avoiding the random and rapid wear on the electrode weld face, thus improving the surface quality of the weld.

Published
2021

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