柴明堂

发布日期：2025-05-22 点击：

姓名：柴明堂性别：男职称：副教授学历学位：博研电子邮件：cmt620422@163.com 办公室电话：

个人简介

教育背景：

2008年9月至2012年6月：就读于南京师范大学地理科学专业，获得理学学士学位；

2013年9月至2018年6月：就读于中国科学院西北生态环境资源研究院寒区工程与环境专业，获得工学博士学位（硕博连读）。

工作经历：

2018年8月至2020年8月：在中国科学院西北生态环境资源研究院地理学博士后流动站工作；

2020年9月至今：在宁夏大学土木与水利工程学院工作。

所授课程：本科生《工程地质》、《工程地质与地基基础》；研究生《地理信息系统》、《冻土工程》；博士课程《水科学高等数值模拟》

研究方向：寒旱区水土环境、冻土工程病害、水盐运移

论文：

[15]Yao Changjie,Chai Mingtang*, Li Guoyu, et al. 3D detection of pavement cracking utilizing a neural radiation field (NeRF) and semantic segmentation network[J].Measurement, 2025, 252: 117336.

[14]Chai Mingtang, Song Yan, Wan Xiaoman, et al. Calculation on salinity solubility based on thermodynamic models at different temperatures[J].Research in Cold and Arid Regions, 2024.

[13]Chai Mingtang, Luo Yuan, Gao Yu, et al. Seepage influence of supra-permafrost groundwater on thermal field of embankment on Qinghai-Tibet Plateau, China[J].Research in Cold and Arid Regions, 2023, 15(3): 132-140.

[12]Chai Mingtang, Li Nan, Liu Furong*, et al. A Calculation Model for Ground Surface Temperature in High-Altitude Regions of the Qinghai-Tibet Plateau, China.Remote Sensing. 2022; 14(20):5219.

[11] Gao Yu,Chai Mingtang*, Ma Wei, et al. Variation of water bodies along highways in the Qinghai–Tibet Plateau over the past 20 years: A case study of G109 and G219[J].Journal of Water and Climate Change, 2022, 13(10): 3515-3531.

[10]Chai Mingtang,Li Guoyu, Ma Wei, et al. Damage characteristics of the Qinghai-Tibet Highway in permafrost regions based on UAV imagery[J].International Journal of Pavement Engineering, 2023, 24(2): 2038381.

[9]Chai Mingtang, Zhang Jianming, Zhang Hu, et al. Characteristics of Micro-structure of Warm and Ice-Rich Frozen Soil Improved by Cement and Additives[J].KSCE Journal of Civil Engineering, 2021: 1-10.

[8]Chai Mingtang, Li Guoyu, Ma Wei, et al. Assessment of Freeze–Thaw Hazards and Water Features along the China–Russia Crude Oil Pipeline in Permafrost Regions[J].Remote Sensing, 2020, 12(21): 3576.

[7] Mu Yanhu,Chai Mingtang*, Li Guoyu, et al. Combined thermal influence of ponding and buried warm-oil pipelines on surrounding frozen soils: case study along the China-Russia Crude Oil Pipeline in Northeast China.Sciences in Cold and Arid Regions. 2020, 12(2): 59-70.

[6]Chai Mingtang, Mu Yanhu*, Li Guoyu, et al. Relationship between ponding and topographic factors along the China-Russia Crude Oil Pipeline in permafrost regions.Sciences in Cold and Arid Regions. 2019, 11(06): 419-427.

[5]Chai Mingtang, Zhang Jianming*. Improvement of compressibility and thaw-settlement properties of warm and ice-rich frozen soil with cement and additives.Materials. 2019, 12(7), 1068.

[4]Chai Mingtang, Zhang Jianming, Ma Wei, et al. Thermal influences of stabilization on warm and ice-rich permafrost with cement: Field observation and numerical simulation.Applied Thermal Engineering. 2019, 148: 536-543.

[3]Chai Mingtang, Zhang Jianming, Zhang Hu*, et al. A method for calculating unfrozen water content of silty clay with consideration of freezing point.Applied Clay Science. 2018, 161: 474-481.

[2]Chai Mingtang, Mu Yanhu*, Zhang Jianming, et al. Characteristics of asphalt pavement damage in degrading permafrost regions: Case study of the Qinghai-Tibet Highway, China.Journal of Cold Regions Engineering (ASCE). 2018, 32(2): 1-11.

[1]Chai Mingtang, Zhang Hu*, Zhang Jianming, et al. Effect of cement additives on unconfined compressive strength of warm and ice-rich frozen soil.Construction and Building Materials, 2017, 149: 861-868.

科研项目

[9]宁夏教育厅，高等学校科学研究项目（青年教师支持项目），NYG2024049，灌区土壤冻融过程及盐渍化形成理论前沿探索，2024.1-2025.12

[8]宁夏科技厅，宁夏重点研发项目（引才专项），2023BSB03021，灌区农田土壤越冬期盐碱化形成过程诊断及控制，2024.1-2025.12

[7]国家冰川冻土沙漠科学数据中心，开放基金项目，E01Z790201，高海拔地区公路病害数据整合及模式分析，2024.1-2025.12

[6]宁夏回族自治区科技厅，宁夏自然基金优秀青年项目，2023AAC05014，蒸发-冻融驱动下区域尺度土壤水-热-盐互馈机制研究，2023.07-2026.06

[5]农业农村部，国家重点研发计划子专题，2021YFD1900601-02-05，农田土壤冻融过程及水-热-盐耦合分析，2021.7-2025.12

[4]宁夏回族自治区科技厅，宁夏自然基金一般项目，2022AAC03052，半干旱-季节冻土区地表水对线性工程侵蚀机制研究，2022.01-2023.12

[3]冻土工程国家重点实验室，开放基金项目，SKLFSE202106，高海拔地区公路病害与环境因子相互作用研究，2022.01-2024.12

[2]国家自然科学基金委员会，青年项目，42001065，青藏工程走廊浅表层径流水热机制及工程致灾效应，2021.01-2023.12

[1]博士后基金：多年冻土区地表积水热侵蚀效应研究，2019M653797，2019.01-2020.12

专利

[8]柴明堂,宋岩,王若梅,等.一种冻融过程土壤含盐量的预测方法[P].宁夏回族自治区:CN202411219694.8,2024-11-22.

[7]柴明堂,姚常杰,高宇韬,等.一种岩堆体生长发育预测方法及系统[P].宁夏回族自治区:CN202410249396.7,2024-06-07.

[6]柴明堂,宋岩,郭子龙,等.一种土壤水分盐分信息自动化提取装置:CN202311038950.9[P]. 2024-05-28.

[5]柴明堂,宋岩,郭子龙,姚常杰.一种针对高温冻土的原位化学改良方法[P].宁夏回族自治区:CN116905299A,2023-10-20.

[4]柴明堂,罗园,高宇韬,朱磊,万愉快.一种应用于多年冻土区道路的挡排水设施[P].宁夏回族自治区：CN115491939A,2022-12-20.

[3]柴明堂,李王成,宋岩,王炳亮,何进宇.一种考虑蒸发和多向控温的可视化土样试验装置:CN202211034734.2[P]. 2024-08-02.

[2]柴明堂,李南,罗园,万愉快,丁一民.一种测量水气交界面处温度的装置[P].宁夏回族自治区：CN217687543U,2022-10-28.

[1]柴明堂,罗园,李南,高宇韬,宋岩.一种室内土体渗透试验装置:CN202210483582.8[P]. 2024-08-16.

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