Assessment of Point and Nonpoint Sources Pollution in Songhua River Basin,Northeast China by Using Revised Water Quality Model

Individual participation of pollutants in the pollution load should be estimated even if roughly for the appropriate environmental management of a river basin.It is difficult to identify the sources and to quantify the load, especially in modeling nonpoint source.In this study a revised model was established by integrating point and nonpoint sources into one-dimensional Streeter-Phelps(S-P) model on the basis of real-time hydrologic data and surface water quality monitoring data in the Jilin Reach of the Songhua River Basin.Chemical oxygen demand(COD) and ammonia nitrogen(NH 3-N) loads were estimated.Results showed that COD loads of point source and nonpoint source were 134 958 t/yr and 86 209 t/yr, accounting for 61.02% and 38.98% of total loads, respectively.NH 3-N loads of point source and nonpoint source were 16 739 t/yr and 14 272 t/yr, accounting for 53.98% and 46.02%, respectively.Point source pollution was stronger than nonpoint source pollution in the study area at present.The water quality of upstream was better than that of downstream of the rivers and cities.It is indispensable to treat industrial wastewater and municipal sewage out of point sources, to adopt the best management practices to control diffuse pollutants from agricultural land and urban surface runoff in improving water quality of the Songhua River Basin.The revised S-P model can be successfully used to identify pollution source and quantify point source and nonpoint source loads by calibrating and validating.

Characteristics of canopy interception and its simulation with a revised Gash model for a larch plantation in the Liupan Mountains, China

Canopy interception is a significant proportion of incident rainfall and evapotranspiration of forest ecosystems. Hence, identifying its magnitude is vital for studies of eco-hydrological processes and hydrological impact evaluation. In this study, throughfall, stemflow and interception were measured in a pure Larix principis-rupprechtii Mayr.（larch） plantation in the Liupan Mountains of northwestern China during the growing season（May–October） of 2015, and simulated using a revised Gash model. During the study period, the total precipitation was 499.0 mm; corresponding total throughfall, stemflow and canopy interception were 410.3, 2.0 and 86.7 mm,accounting for 82.2, 0.4 and 17.4% of the total precipitation, respectively. With increasing rainfall, the canopy interception ratio of individual rainfall events decreased initially and then tended to stabilize. Within the study period, the simulated total canopy interception, throughfall and stemflow were 2.2 mm lower, 2.5 mm higher and 0.3 mm lower than their measured values, with a relative error of 2.5, 0.6 and 15.0%, respectively. As quantified by the model, canopy interception loss（79%） mainly consisted of interception caused by canopy adsorption, while the proportions of additional interception and trunk interception were small. The revised Gash model was highly sensitive to the parameter of canopy storage capacity,followed by the parameters of canopy density and mean rainfall intensity, but less sensitive to the parameters of mean evaporation rate, trunk storage capacity, and stemflow ratio. The revised Gash model satisfactorily simulated the total canopy interception of the larch plantation within the growing season but was less accurate for some individual rainfall events, indicating that some flaws exist in the model structure. Further measures to improve the model’s ability in simulating the interception of individual rainfall events were suggested.

Water Quality Evaluation in Tidal River Reaches of Liaohe River Estuary, China Using a Revised QUAL2K Model

Rivers in the Liaohe River Estuary area have been seriously polluted by discharges of wastewater containing petroleum pol- lutants and nutrients. In this paper, The Enhanced Stream Water Quality Model （QUAL2K） and its revised model as well as One-dimensional Tide Mean Model （1D model） were applied to predict and assess the water quality of the tidal fiver reach of the Liaohe River Estuary. Dissolved oxygen （DO）, biochemical oxygen demand （BODs）, ammonia nitrogen （NH3-N） and total phosphorus （TP） were chosen as water quality indices in the two model simulations. The modelled results show that the major reasons for degraded rivers remain petroleum and non-point source pollution. Tidal water also has a critical effect on the variation of water quality. The sensitivity analysis identifies that flow rate, point load and diffuse load are the most sensitive parameters for the four water quality indices in the revised QUAL2K simulation. Uncertainty analysis based on a Monte Carlo simulation gives the probability distribution of the four wa- ter quality indices at two locations （6.50 km and 44.84 km from the river mouth）. The statistical outcomes indicate that the observed data fall within the 90% confidence intervals at all sites measured, and show that the revised QUAL2K gives better results in simulating the water quality of a tidal fiver.

REVISED k-ε TURBULENCE MODEL IN ELECTROMAGNETIC CONTINUOUS CASTING OF MELT

The research is motivated by the ongoing the electromagnetic continuous casting of molten metal. The revised k-ε model considering the effect of magnetic field application was derived. The specific model equations for the electromagnetic braking were used to calculate the velocity distribution in the continuous casting mold of steel. The results show that the revised k-ε model considering the effect of magnetic field application tends to suppress the production of turbulence and difference between the conventional and revised k-e model is small.

A revised jump-diffusion and rotation-diffusion model

Quasi-elastic neutron scattering(QENS) has many applications that are directly related to the development of highperformance functional materials and biological macromolecules, especially those containing some water. The analysis method of QENS spectra data is important to obtain parameters that can explain the structure of materials and the dynamics of water. In this paper, we present a revised jump-diffusion and rotation-diffusion model(rJRM) used for QENS spectra data analysis. By the rJRM, the QENS spectra from a pure magnesium-silicate-hydrate(MSH) sample are fitted well for the Q range from 0.3 ^(-1) to 1.9 ^(-1) and temperatures from 210 K up to 280 K. The fitted parameters can be divided into two kinds. The first kind describes the structure of the MSH sample, including the ratio of immobile water(or bound water) C and the confining radius of mobile water a_0. The second kind describes the dynamics of confined water in pores contained in the MSH sample, including the translational diffusion coefficient Dt, the average translational residence timeτ0, the rotational diffusion coefficient D_r, and the mean squared displacement(MSD) u^2. The r JRM is a new practical method suitable to fit QENS spectra from porous materials, where hydrogen atoms appear in both solid and liquid phases.

3D numerical simulation of high pressure squeezing process with revised Drucker-Prager/Cap model

In order to investigate the sand mold strength after the aeration sand filling-high pressure squeeze moldingprocess,a tree-dimentional(3D)numerical simulation was introduced.The commercial finite element method(FEM)software ABAQUScombined with a revised Drucker-Prager/Cap model was used to simulate the squeeze compaction process.Additionally,the sand bulk density after the aeration sand filling process was tested by a specially designed experiment,which divided the whole sand bulk in the molding chamber into5x9regions and it was used as the input to simulate the squeeze process.During the simulation process,the uniform modeling simulation and the patition modeling simulation methods were used a d the3D numercal simulation results were compared with correlative benchmark testings.From the3D numerica simulation results,it can be concluded that the uniform sand bulk density distribution can obtain a high quality sandmold and the revised Drncker-Pager/Cap model is suitable for handling the situation with the complex paaern.The3D numerical simulation results can predict well the sand mold strength distribution and can be used as guidelines for the production practice.

Combining RUSLE model and the vegetation health index to unravel the relationship between soil erosion and droughts in southeastern Tunisia

Droughts and soil erosion are among the most prominent climatic driven hazards in drylands,leading to detrimental environmental impacts,such as degraded lands,deteriorated ecosystem services and biodiversity,and increased greenhouse gas emissions.In response to the current lack of studies combining drought conditions and soil erosion processes,in this study,we developed a comprehensive Geographic Information System(GIS)-based approach to assess soil erosion and droughts,thereby revealing the relationship between soil erosion and droughts under an arid climate.The vegetation condition index(VCI)and temperature condition index(TCI)derived respectively from the enhanced vegetation index(EVI)MOD13A2 and land surface temperature(LST)MOD11A2 products were combined to generate the vegetation health index(VHI).The VHI has been conceived as an efficient tool to monitor droughts in the Negueb watershed,southeastern Tunisia.The revised universal soil loss equation(RUSLE)model was applied to quantitatively estimate soil erosion.The relationship between soil erosion and droughts was investigated through Pearson correlation.Results exhibited that the Negueb watershed experienced recurrent mild to extreme drought during 2000–2016.The average soil erosion rate was determined to be 1.8 t/(hm2•a).The mountainous western part of the watershed was the most vulnerable not only to soil erosion but also to droughts.The slope length and steepness factor was shown to be the most significant controlling parameter driving soil erosion.The relationship between droughts and soil erosion had a positive correlation(r=0.3);however,the correlation was highly varied spatially across the watershed.Drought was linked to soil erosion in the Negueb watershed.The current study provides insight for natural disaster risk assessment,land managers,and stake-holders to apply appropriate management measures to promote sustainable development goals in fragile environments.

A Revision Model in Writing for Novice Writers with a Focus on Audience and Feedback

Revision is a complex,yet important phase in writing to improve the quality of a text.Some revision models are created to explain its components and the ways these components work.However,analysis of available models shows that they are proposed mainly for expert writers,who can complete the complex revision process individually,without the need of support or feedback.Most of the available revision models also do not include audience as a component.Therefore,the purpose of this paper is to introduce an alternative revision model for novice writers at or higher than highschool level with a focus on audience and feedback.First,the definition of revision is made,which is followed by summaries of the importance of audience and feedback in writing.Second,available revision models in literature that serves as the basis of the alternative model are reviewed.Finally,the alternative revision model is introduced with its components and the way these components work is explained.The revision model presented in this paper will contribute to literature on writing by filling the gap in revision models by proposing a model for novice writers and highlighting the importance of audience and feedback.

人体组织液特性对SAR值的影响及修正模型

比吸收率(specific absorption ratio,SAR)值测量所使用的组织液特性与规范标准中给出的组织液目标值会有一定偏差。此时,需要对SAR值的测量结果进行修正。针对此问题,提出了一种修正模型,修正模型基于电磁仿真的方法建立。通过在835 MHz频点与IEC 62209\IEEE 1528标准中的数据进行比较,对建模方法进行了验证。基于此建模方法,给出了3.5 GHz及28 GHz这2个下一代移动通信备选频段下的SAR值修正模型。使用此修正模型将减小SAR值测量的不确定度,进而提升各测量实验室间SAR符合性评定结果的一致性。使用此修正模型的另一个好处在于,该修正模型允许更大的组织液特性偏差,这将有助于降低SAR值测量的成本。

《仲裁法》如何更加国际化——基于《仲裁法(修订)(征求意见稿)》主要条款的考察

《仲裁法(修订)(征求意见稿)》通过大幅修订,力求促进我国仲裁制度的进一步国际化发展。以《示范法》和《纽约公约》为国际化对标标准,《仲裁法(修订)(征求意见稿)》在仲裁庭权力和仲裁裁决的司法审查、临时仲裁、法院协助取证等方面基本符合国际标准,但应进一步细化具体措施的实施标准和配套规则,以期为仲裁实践提供更为清晰的指引。此外,此次修订在仲裁机构法律地位、仲裁员任职资格与责任等方面还未达到国际化标准,可以进一步提升意思自治程度,深化仲裁机构改革、引入仲裁员责任有限豁免制度。

基于Kriging模型的多次尝试差分进化贝叶斯有限元模型修正

标准差分进化自适应Metropolis(differential evolution adaptive Metropolis,DREAM)算法需进行多条马氏链并行计算,存在收敛效率低和计算成本高的问题。为此,提出一种基于Kriging模型的多次尝试差分进化贝叶斯有限元模型修正(multiple-try differential evolution adaptive Metropolis with“ZS”,MT-DREAM(ZS))框架。该框架在DREAM的基础上引入历史向量差分采样、斯诺克更新以及多次尝试Metropolis抽样,并利用Kriging模型代替有限元模型进行随机抽样,实现利用极少数并行链便可快速探索多维修正参数后验分布。利用固结钢板梁模型试验,比较了DREAM和MT-DREAM(ZS)的修正效果。结果表明:MT-DREAM(ZS)可实现马尔科夫链的快速收敛,其收敛效率较DREAM提升了3.42倍,且修正结果精度和稳定性有提升;Kriging模型可大幅度降低计算成本。所提框架为解决多参数不确定模型修正中的收敛效率低和计算成本高等问题提供了一种新思路。

热失控状态气液两相的锂离子电池建模及修正方法研究

锂离子电池在应用过程中因滥用而发生热失控现象,导致电池内部产生大量气体,传统的固液两相模型难以准确描述热失控机理。针对以上问题,以18650电池组为研究对象,构建气液两相的锂离子电池模组的电化学-热耦合模型,研究了热失控气体对锂离子电池内部应力、温度、电解液浓度的影响规律,同时利用COMSOL Multiphysics 5.5软件进行了有效性验证和理论模型修正。研究结果表明,锂离子电池热失控气体对电池内部应力、温度、电解液浓度有着明显的正反馈影响规律。内部应力的理论修正值与仿真值峰值均在相近时刻出现,且误差为0.04 MPa,计算精确率提高了80%。电池内部温度到60℃左右时发生热失控,产生的热失控气体在内部温度升高到160℃时被点燃,640 s时达到最高仿真温度,修正温度分别为177、172℃,热失控气体产生的热点现象是影响电池包内部的温度分布不均的主要原因。电解液浓度理论修正值和仿真值从1 200 mol/m3同步下降至837 mol/m3,形成气液两相流,电解液与电极材料反应和分解造成了电解液浓度降低。

空降车辆着陆缓冲过程系统建模仿真研究综述

系统建模仿真作为空降车辆着陆缓冲研究的重要手段,用于仿真着陆缓冲阶段的气囊排气压缩、车辆缓冲过载、姿态变化及结构冲击响应。从系统建模、匹配设计、半实物试验、空投适应性4个方面进行评估,综述现有研究应用的理论、方法和研究结论。对目前仿真模型求解效率,结构应力和气囊仿真准确度,车辆与气囊参数匹配,半实物试验,空投适应性评估等问题进行分析总结并提出进一步的研究方向。

甘肃省武威市风力侵蚀分区治理规划及措施

[目的]分析甘肃省武威市风力侵蚀空间动态变化特征,确定风力侵蚀可治理区划及其防治对策,为该市风蚀水土保持工作和生态环境建设提供科学参考。[方法]基于多源地理信息数据,应用遥感、地理信息系统(ArcGIS)等技术手段,使用修正土壤风蚀方程(RWEQ)计算武威市2000—2020年5期风蚀模数,获得区域风蚀的面积分布和变化特征。结合重点建设工程分布等空间要素叠加分析方法,提出该市风力侵蚀可治理区域划分原则,并将该原则应用于划分武威市风力侵蚀可治理区。[结果]修正土壤风蚀方程(RWEQ)能较好地估算武威市多年风力侵蚀模数,其多年风力侵蚀模数为5788.98〔t/(km^(2)·a)〕,多年平均土壤风蚀总量1.92×10^(8)t;研究区风力侵蚀在时间上呈现总体下降,偶有上升趋势,且风力侵蚀强度等级明显减弱;在空间上具有明显的空间异质性,主要分布在民勤县、凉州区、古浪县;依据多要素叠加风蚀分区治理方案,武威市可治理风力侵蚀面积共2872.66km^(2),其中民勤县1468.48km^(2),凉州区708.75km^(2),古浪县695.43km^(2)。[结论]风力侵蚀分区治理是武威市风蚀水土保持的重点工作,根据风蚀分区治理划分结果,针对不同行政区划,民勤县北部坡度较低的平坦戈壁沙漠地区是其重点关注区域,治理措施应以风沙防治和植被恢复为主,并需要注意控制人为工程建设扰动的影响,明确区域管理范围;凉州区应注意采取工程措施和生物措施结合的方式进行治理;古浪县应以封育措施和对天然植被进行保护为主。同时,在戈壁沙漠地区需特别注意大型光伏电站建设等施工扰动的风沙防治和生态恢复。

髋关节翻修后低蛋白血症的危险因素及列线图预测模型建立

背景:髋关节翻修术创伤大,患者术后低蛋白血症发生率高,影响患者术后快速康复。目的:探讨髋关节翻修患者围术期发生低蛋白血症的危险因素,为临床上早期甄别术后高风险低蛋白血症患者提供指导意义。方法:按照纳入及排除标准共纳入行髋关节翻修术患者161例,根据术后是否出现低蛋白血症分为2组,低蛋白血症组76例,正常组85例,术后低蛋白血症发生率为47.2%。收集两组患者年龄、性别、体质量指数、骨质疏松、手术时间、术前红细胞、术前血红蛋白、术前白细胞、术前血小板、术前纤维蛋白原、术前C-反应蛋白、术前血沉、术前血钙、术前白蛋白、术后引流管放置情况、美国麻醉师协会评分、术后发生低蛋白血症情况等资料,利用SPSS软件进行多因素二元Logistic回归分析探讨导致髋关节翻修患者术后低蛋白血症的独立危险因素;通过R软件构建列线图预测模型,并绘制出受试者工作特征曲线、校准曲线以及决策曲线分析来评价模型。结果与结论:①单因素分析结果显示,两组体质量指数、术前红细胞、术前血红蛋白、术前血小板、术前纤维蛋白原、术前C-反应蛋白以及手术时间方面差异有显著性意义(P<0.05);②多因素二元Logistic回归分析结果显示,体质量指数(OR=0.859,P=0.021)、手术时间(OR=1.010,P=0.002)、术前红细胞(OR=0.424,P=0.036)以及术前C-反应蛋白(OR=1.043,P=0.032)水平是影响髋关节翻修患者术后低蛋白血症的独立危险因素;③提示根据体质量指数、手术时间、术前红细胞和术前C-反应蛋白这4个独立危险因素,列线图可以有效预测髋关节翻修患者术后发生低蛋白血症的风险;该列线图预测模型具有良好的区分度和准确性,并可能为患者带来更好的临床净收益。

山西省红色旅游效率评价及其影响因素

运用修正DEA-Malmquist模型分析2011—2022年山西省各市红色旅游效率的变化规律,借助地理探测器方法揭示红色旅游效率时空分异的影响因素。结果表明:(1)山西省红色旅游效率水平整体偏低,规模效率和技术进步变化指数共同牵制着综合效率的提升。(2)各市红色旅游效率差异明显,空间分布不均衡,存在空间溢出效应,太原红色旅游效率相对较好。(3)互联网支撑能力、政府宏观调控、红色旅游资源禀赋、区域经济水平、产业结构对山西省红色旅游效率分异的单因子解释力较强,交通优势度与其他因子的交互作用更显著。

不同含水率下脏污道砟累积塑性变形预测

为预测脏污状态下铁路有砟道床累积塑性变形,采用循环加载三轴试验和修正次加载面模型对循环荷载作用下脏污道砟的累积塑性变形发展规律开展了研究。试验结果表明,细粒含量及含水率协同影响道砟的水力和力学性能,特别是当道砟中细颗粒含量和含水率都增长时,道砟的力学性能显著下降,进而加剧了循环荷载下铁路道砟累积沉降的发展。此外,基于次加载面本构模型并借助有限元软件,二次开发编写了修正次加载面模型子程序,通过对比室内试验结果验证了该模型的适用性。数值模拟结果表明,修正次加载面模型可以较好地预测不同含水率和细粒含量影响下铁路道砟的累积塑性变形。因此,可在未来研究中借助修正次加载面模型建立实尺铁路道床分析模型,预测不同脏污条件下铁路有砟道床的累积沉降。

中国及邻区高分辨率三维岩石圈磁场修正球冠谐模型(CUG_CLMFM3Dv1)

日益完善的大区域地面航磁调查与卫星磁测给建立高精度与高分辨率的地磁场模型带来了新的契机,同时也对地磁场建模技术提出了更高的要求.本文基于修正球冠谐分析方法,利用全球岩石圈磁力异常汇编网格WDMAMv2中提取的近地表总磁场强度异常数据与CHAMP卫星近十年的矢量测量数据,联合构建了中国及邻区高分辨率三维岩石圈磁场的修正球冠谐模型.该区域岩石圈磁场模型的分辨率可达球谐3500阶/次,进而基于该模型正演计算了研究区域不同高度的矢量数据.将区域模型与高分辨率的球谐模型分别在空间域与频率域进行对比,结果显示区域模型中的高频成份更加丰富,所描绘出的磁异常的形态和幅值更加接近原始建模数据,且在由低分辨率球谐模型补空的区域更加平滑.该应用案例证明,联合可靠的近地面标量与卫星矢量磁测数据,基于修正球冠谐分析方法,有能力构建出高精度与高分辨率的区域三维岩石圈磁场模型.

Kuz-Ram模型在面板坝堆石料爆破开采中的应用

Kuz-Ram模型是较成功的爆破块度模型之一,但应用于堆石坝级配料爆破开采,模型的相对误差很大。笔者通过分析水布垭爆破试验资料,结合其它工程试验资料,对该模型进行了修正。

Influence of varied drought types on soil conservation service within the framework of climate change:insights from the Jinghe River Basin,China

Severe soil erosion and drought are the two main factors affecting the ecological security of the Loess Plateau,China.Investigating the influence of drought on soil conservation service is of great importance to regional environmental protection and sustainable development.However,there is little research on the coupling relationship between them.In this study,focusing on the Jinghe River Basin,China as a case study,we conducted a quantitative evaluation on meteorological,hydrological,and agricultural droughts(represented by the Standardized Precipitation Index(SPI),Standardized Runoff Index(SRI),and Standardized Soil Moisture Index(SSMI),respectively)using the Variable Infiltration Capacity(VIC)model,and quantified the soil conservation service using the Revised Universal Soil Loss Equation(RUSLE)in the historical period(2000-2019)and future period(2026-2060)under two Representative Concentration Pathways(RCPs)(RCP4.5 and RCP8.5).We further examined the influence of the three types of drought on soil conservation service at annual and seasonal scales.The NASA Earth Exchange Global Daily Downscaled Projections(NEX-GDDP)dataset was used to predict and model the hydrometeorological elements in the future period under the RCP4.5 and RCP8.5 scenarios.The results showed that in the historical period,annual-scale meteorological drought exhibited the highest intensity,while seasonal-scale drought was generally weakest in autumn and most severe in summer.Drought intensity of all three types of drought will increase over the next 40 years,with a greater increase under the RCP4.5 scenario than under the RCP8.5 scenario.Furthermore,the intra-annual variation in the drought intensity of the three types of drought becomes smaller under the two future scenarios relative to the historical period(2000-2019).Soil conservation service exhibits a distribution pattern characterized by high levels in the southwest and southeast and lower levels in the north,and this pattern has remained consistent both in the historical and future periods.Over the past 20 years,the intra-annual variation indicated peak soil conservation service in summer and lowest level in winter;the total soil conservation of the Jinghe River Basin displayed an upward trend,with the total soil conservation in 2019 being 1.14 times higher than that in 2000.The most substantial impact on soil conservation service arises from annual-scale meteorological drought,which remains consistent both in the historical and future periods.Additionally,at the seasonal scale,meteorological drought exerts the highest influence on soil conservation service in winter and autumn,particularly under the RCP4.5 and RCP8.5 scenarios.Compared to the historical period,the soil conservation service in the Jinghe River Basin will be significantly more affected by drought in the future period in terms of both the affected area and the magnitude of impact.This study conducted beneficial attempts to evaluate and predict the dynamic characteristics of watershed drought and soil conservation service,as well as the response of soil conservation service to different types of drought.Clarifying the interrelationship between the two is the foundation for achieving sustainable development in a relatively arid and severely eroded area such as the Jinghe River Basin.