Compression Behavior of CFST Stub Columns with Holes by Yanhua Liu, Qingxin Ren, Yuqing Li

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Application of Revit Secondary Development in Sluice Seepage Calculation by NIU Lijun, LI Yihao

“…Based on the concept of forward design,this paper uses C# language to abstract and package the traditional seepage calculation method (improved resistance coefficient method) and redevelops AutoRevit through Revit API interface programming.As a result,the visual interactive analysis process of sluice seepage calculation is achieved so that the design of sluice anti-seepage measures can realize forward design based on a three-dimensional model.In this paper,a regulating sluice is taken as an example for verification,and the results are compared with those calculated by AutoBank software.The results show that the plug-in has high accuracy and efficiency and realizes the highly visual sluice seepage calculation and low-difficulty human-computer interaction.At the same time,it has the function of instantly judging the results according to the specification.The plug-in not only expands the function of BIM technology but also facilitates designers in the water conservancy industry.In addition,it provides certain technical references for further expanding the deep application of BIM technology in water conservancy design.…”
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Substitute for polyethylene (PE) films: A novel attapulgite super absorbent polymer applied in a semi-humid drought-prone region of the Loess Plateau by Xiaofan Pan, Hengjia Zhang, Shouchao Yu, Haoliang Deng, Xietian Chen, Chenli Zhou, Fuqiang Li, Haiyan Li

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Study on the effects of land use transformation on habitat quality and its driving mechanisms: a case study of the Qin-Mang River Basin by Jiwei Zhao, Luyao Wang, Dong Jia, Yaowen Wang

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The Role of Nature Reserves in Ecosystem Services and Urban Ecological Sustainable Development by Haoyu Wu, Fei Song, Haifu Li, Junbo Bai, Lijuan Cui, Fangli Su, Zahra Kalantari, Carla Sofia Ferreira

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Evaluating land use ımpact on evapotranspiration in Yellow River Basin China through a novel GSEBAL model: a remote sensing perspective by Sheheryar Khan, Wang Huiliang, Umer Nauman, Muhammad Waseem Boota, Zening Wu

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Cascaded neural network surrogate modeling for real-time decision-making in long-distance water supply distribution by Lin Shi, Jian Zhang, Sheng Chen, Yi Liu, Wenlong Zhao

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Spatiotemporal Changes and Trade-Offs/Synergies of Ecosystem Services in the Qin-Mang River Basin by Jiwei Zhao, Luyao Wang, Dong Jia, Yaowen Wang

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Evaluation and source identification of water pollution by Huaibin Wei, Haojie Qiu, Jing Liu, Wen Li, Chenchen Zhao, Hanfei Xu

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Analysis of Multifactor Influence Model on Energy Dissipation Rate of Rough-Strips Energy Dissipator in the Spillway Bend by Honghong Zhang, Zhenwei Mu, Fan Fan, Fanqi Li

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An Enhanced Generalized Plasticity Model for Coarse Granular Material considering Particle Breakage by W. J. Cen, J. R. Luo, W. D. Zhang, M. S. Rahman

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Effects of Voids on Concrete Tensile Fracturing: A Mesoscale Study by Lei Xu, Yefei Huang

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Bolt Detection Signal Analysis Method Based on ICEEMD by Chunhui Guo, Zhan Zhang, Xin Xie, Zhengyu Yang

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Calculation Methods for Design Flow of Municipal Drainage in Xuzhou Urban Area by LIU Zhanhui, NIU Pingping, YANG Shipu

“…The catchment area of municipal drainage is usually less than 2 km²,and there is a standard matching problem with downstream water conservancy drainage.On the basis of engineering examples,the design flow of municipal drainage is calculated by the rainstorm intensity formula method,inference formula method,and comprehensive unit hydrograph method.The change of design flow under the two-dimensional combination of the catchment area and average slope is discussed and analyzed.The results show that for municipal drainage,the design flow calculated by the rainstorm intensity formula method and inference formula method is close to and intersect with each other,both of which are greater than the result of the comprehensive unit hydrograph method.It is concluded that the inference formula method can be used to calculate the design flow of municipal drainage,and the calculation result can check the rainstorm intensity formula method.Although the comprehensive unit hydrograph method cannot be used to calculate the design flow of municipal drainage,the calculation result can provide a reference for the standard matching between design flow of municipal drainage and water conservancy drainage.…”
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Trend Change Study of Climate Variables in Xin’anjiang-Fuchunjiang Watershed, China by Muhammad Zaman, Guohua Fang, Kashif Mehmood, Muhammad Saifullah

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Experimental Study on Fatigue Performance of Negative Bending Moment of Steel-Concrete Continuous Composite Box Girder by Pu Gao, Kuan Li, Yuanxun Zheng

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Structural Damage Identification Method Based on Parametric Boundary Condition Optimization by Wei Guo, Wei Jiang

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Research on Fracture Toughness of C120 Ultra-High-Performance Concrete in Kingkey Financial Center Project by Hao-Wen Ye, Nai-Qian Feng, Zhi-Wei Ran, Li-Xun Lin, Yan Ling-Hu, Shi-Kun Qi, Yi Dong

“…The tests conducted by the Building Material Lab of the Civil and Water Conservancy Institute of Tsinghua University provided satisfactory results of mechanical property and fracture toughness of C120 ultra-high-performance concrete.…”
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Design and Implementation of BIM-Based Construction Supervision Platform for Hydraulic Engineering by YANG Chuhua, RAO Fanwei, FU Zhihao, LIAO Xiangjun

“…With the continuous promotion of high-quality development of water conservancy in the new era,it has become an inevitable trend to make full use of information technologies such as BIM,digital twins,and simulations to integrate and innovate with the water conservancy industry.In hydraulic engineering,an intelligent management system focusing on “BIM+a whole life cycle” has been gradually formed.Centering on the construction stage of hydraulic engineering,this study uses the new generation of information technologies such as BIM,big data,3S,and three-dimensional (3D) visualization to build an advanced,practical,and safe construction supervision platform for hydraulic engineering that can integrate the basic and overall construction process information resources.It is expected that the platform can greatly reduce the risks and solve the problems such as insufficient cooperation among institutions,difficult information collection,poor data sharing and consistency,and low construction management efficiency. …”
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Pavement Potholes Quantification: A Study Based on 3D Point Cloud Analysis by Qingzhen Sun, Lei Qiao, Yibo Shen

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