田壮才

Supervisor of Master's Candidates

E-Mail:

School/Department:China University of Mining and Technology

Education Level:With Certificate of Graduation for Doctorate Study

Business Address:中国矿大南湖校区 深地国重301-2/文昌校区深海中心408

Gender:Male

Degree:Doctor

Status:在岗

Alma Mater:Ocean University of China

Honors and Titles:

2021-09-30   山东省优秀博士学位论文

2020-12-30   山东省研究生优秀成果奖


Patents

一种模拟内波自然生成的水槽装置及其方法

Hits:

School Sign:第一单位

Disigner of the Invention:王秀海,张少同,Meii Zhang,liushengdong

Type of Patent:国内

State of Patent:专利授权

Application Number:202011107767.6

Service Invention or Not:no

Application Date:2020-10-16

Authorization Date:2021-11-26

First Author:tianzhuangcai

Profile


Name: Zhuangcai Tian

Date of birth: January, 1991

Degree: Doctor of Engineering

Professional Title:  Professor (Assistant)

Professor (Assistant), State Key Laboratory of Deep Rock and Soil mechanics and Underground Engineering, China University of Mining and Technology

My work focuses on the interaction between deep-sea internal waves and the seabed or structure, the mechanical properties and engineering characteristics of marine soil, and application of artificial intelligence in geological disasters, etc.

Website: https://www.researchgate.net/profile/Zhuangcai-Tian

证件照-田壮才2021.jpg

Education experience

2017/9-2020/6, Ocean University of China, PhD in Marine Environmental geological Engineering

2014/9-2017/6, Ocean University of China, Master in Geotechnical Engineering

2010/9-2014/6, Northwest A & F University, Bachelor in Civil Engineering

Representative paper

Zhuangcai Tian, Lei Jia, Jiaming Xiang, et al. Excess pore water pressure and seepage in slopes induced by breaking internal solitary waves. Ocean Engineering, 2023, 267(5–6):113281.

Zhuangcai Tian, Hanlu Liu, Shaotong Zhang, et al. Prediction of shear stress induced by shoaling internal solitary waves based on machine learning method. Marine Georesources & Geotechnology, 2023.

Zhuangcai Tian, Chao Liu, Ziyin Ren, et al. Impact of seepage flow on sediment resuspension by internal solitary waves: Parameterization and mechanism. Journal of Oceanology and Limnology, 2022.

Zhuangcai Tian, Yonggang Jia, Jiangxin Chen, et al. Internal solitary waves induced deep-water nepheloid layers and seafloor geomorphic changes on the continental slope of the northern South China Sea. Physics of Fluids, 2021, 33(5), 053312.

Zhuangcai Tian, Yonggang Jia, Qizhi Du, et al. Shearing stress of shoaling internal solitary waves over the slope. Ocean Engineering, 2021, 241(5), 110046.

Zhuangcai Tian, Yonggang Jia, Shaotong Zhang, et al. Bottom and Intermediate Nepheloid Layer Induced by Shoaling Internal Solitary Waves: Impacts of the Angle of the Wave Group Velocity Vector and Slope Gradients. Journal of Geophysical Research: Oceans, 2019, 124(8): 5686-5699.

Expertise

Marine Geology, Internal wave, Sediment transport, Suspend, Erosion, Pressure, Seepage, Landslide, Marine Geotechnical Engineering, Computational fluid mechanics, Coastal processes, Artificial intelligence, Geological disasters

Reviewing experience

Reviewer of Physics of Fluids, Ocean Engineering, Frontiers in Marine Science, Scientific reports, Marine Georesources & Geotechnology etc.


Scan Code to Visit My Home Page