Study on Mechanism and Verification of Columnar Penetration Grouting of Time-Varying Newtonian Fluids-Reference-Cited by-同舟云学术

Study on Mechanism and Verification of Columnar Penetration Grouting of Time-Varying Newtonian Fluids

Published:2023-04-09 Issue:4 Volume:11 Page:1151
ISSN:2227-9717
Container-title:Processes
language:en
Short-container-title:Processes

Author:

Zhao Xuguang¹²³,Yang Zhiquan¹²³^ORCID,Meng Xiangrui⁴,Wang Shaobin⁴,Li Rui⁵,Xu Hanhua⁶,Wang Xiangpeng⁷,Ye Changwen⁷,Xiang Tianbing⁸,Xu Wanzhong¹²³,Chen Junzhi¹²³,Wang Ping⁹,Yuan Jinke⁷,Li Xiaohui⁷¹⁰

Affiliation:

1. Faculty of Public Safety and Emergency Management, Kunming University of Science and Technology, Kunming 650093, China

2. Key Laboratory of Geological Disaster Risk, Prevention and Control and Emergency Disaster Reduction of Ministry of Emergency Management of the People’s Republic of China, Kunming 650093, China

3. Key Laboratory of Early Rapid Identification, Prevention and Control of Geological Diseases in Traffic Corridor of High Intensity Earthquake Mountainous Area of Yunnan Province, Kunming 650093, China

4. Jinhui Mining Co., Ltd., Longnan 742300, China

5. Gansu Jinhui Xinke Material Co., Ltd., Longnan 742300, China

6. Yunnan Key Laboratory of Geotechnical Engineering and Geohazards, Kunming Prospecting Design Institute of China Nonferrous Metals Industry Co., Ltd., Kunming 650051, China

7. State Key Laboratory of Geohazard Prevention and Geoenvironment Protection, Chengdu University of Technology, Chengdu 610059, China

8. Power China Kunming Engineering Co., Ltd., Kunming 650051, China

9. Zhejiang Huadong Construction Engineering Co., Ltd., Hangzhou 310014, China

10. Chengdu University of Technology W-G-P Engineering Technology Co., Ltd., Chengdu 610059, China

Abstract

Penetration grouting technology is an important technical means to improve the mechanical properties of gravel soil layers, and the time-varying characteristics of Newtonian fluid viscosity have an important influence on the morphology and effect of penetration grouting. However, these time-varying properties are not considered in the current research on the mechanism of Newtonian fluid penetration grouting. In this paper, by studying the basic rheological equation of Newtonian fluids and its dynamic viscosity time-varying law, the penetration motion equation of viscosity time-varying Newtonian fluids is discussed, by means of theoretical analysis and experimental research. Based on this, the time-varying viscosity Newtonian fluid columnar penetration grouting diffusion mechanism (TVNCPGDM) equation is derived, the application scope of the equation is analyzed and a grouting experiment is designed to verify it. The results show that the theoretical value of the grouting diffusion radius calculated by the TVNCPGDM equation, is closer to the experimental value than that obtained by the equation of columnar penetration grouting without considering the viscosity time-varying Newtonian fluid, with a 12.9% improvement in accuracy. This shows that the TVNCPGDM equation derived in this paper, can better reflect the diffusion law and diffusion morphology of column penetration grouting of Newtonian fluid, which changes with time in the injected medium; and the diffusion radius obtained for penetration grouting is more in line with the actual grouting engineering demands. The research results can provide some theoretical guidance for the actual grouting of loose gravel soil layers.

Funder

National Natural Science Foundation of China

Muhammad Asif Khan academician workstation of Yunnan Province

Key R&D Program of Yunnan Province

General Program of basic research plan of Yunnan Province

Science and Technology Talents and Platform Program of Yunnan Province

Basic Research Project of Yunnan Province

Kunming University of Science and Technology Top Innovative Talents Project, and Analysis and Testing Fund of Kunming University of Science and Technology

Publisher

MDPI AG

Subject

Process Chemistry and Technology,Chemical Engineering (miscellaneous),Bioengineering

Link

https://www.mdpi.com/2227-9717/11/4/1151/pdf

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