粗糙裂隙内涡旋结构演化特征及影响因素分析

doi:10.12068/j.issn.1005-3026.2023.05.012

东北大学学报（自然科学版） ›› 2023, Vol. 44 ›› Issue (5): 697-704.DOI: 10.12068/j.issn.1005-3026.2023.05.012

粗糙裂隙内涡旋结构演化特征及影响因素分析

杨金金^1,2，王者超^1,2，乔丽苹^1,2，李崴^1,2

(1.东北大学资源与土木工程学院，辽宁沈阳110819； 2.东北大学深部金属矿山安全开采教育部重点实验室，辽宁沈阳110819)

发布日期:2023-05-24
通讯作者: 杨金金
作者简介:杨金金(1988-)，女，河南巩义人，东北大学博士研究生；王者超(1980-)，男，山东高唐人，东北大学教授，博士生导师.
基金资助:
国家自然科学基金资助项目(42177157).

Analysis of Evolution Characteristics and Influencing Factors of Vortex Structure in Rough-Walled Fracture

YANG Jin-jin^1,2， WANG Zhe-chao^1,2， QIAO Li-ping^1,2， LI Wei^1,2

1. School of Resources & Civil Engineering， Northeastern University， Shenyang 110819， China; 2. Key Laboratory of Ministry of Education on Safe Mining of Deep Metal Mines， Northeastern University， Shenyang 110819， China.

Published:2023-05-24
Contact: WANG Zhe-chao
About author:-
Supported by:
-

摘要/Abstract

摘要： 为探究粗糙裂隙内细观流动结构演化过程及影响因素，用COMSOL Multiphysics可视化了不同条件下粗糙裂隙渗流场中的流动结构.基于响应面法建立多因素与涡旋结构面积的二阶多项式回归方程，并进行了方差分析和显著性检验，探讨多因素间交互作用对裂隙内涡旋结构的影响.结果表明:粗糙裂隙内细观流动结构演化过程包括涡旋结构发生、发展、破裂和稳定；回归模型的显著性和适应性良好，可以较为有效确定影响因素的重要程度；多因素交互作用对涡旋结构的影响程度中平均开度最大，速度次之，裂隙粗糙度最小.研究结果对揭示裂隙非线性渗流细观机理有重要意义.

关键词: 岩体裂隙；粗糙度；涡旋结构；演化特征；响应面

Abstract: To study the evolution characteristics and influencing factors of vortex structure in rough-walled fracture， COMSOL Multiphysics is used to simulate the flow field under different conditions， and the meso-flow structure is visualized. Based on the response surface methodology (RSM)， a second-order polynomial regression equation is established， and the variance analysis and significance test of the regression equation are carried out， and the effect of multi-factor interaction on vortex structure is discussed. The results show that the evolution process of meso-flow structure in rough-walled fracture includes the generation， development， rupture and stability. The regression model has good significance and adaptability， which can effectively determine the significance of influencing factors. The influencing degree of multi-factor interaction on vortex structure is as follows: average aperture is the largest， followed by velocity， and roughness is the smallest. The results are of great significance to reveal the mesoscopic mechanism of nonlinear seepage in fractures.

Key words: rock fracture； roughness； vortex structure； evolution characteristics； response surface

中图分类号:

O357.3

杨金金，王者超，乔丽苹，李崴. 粗糙裂隙内涡旋结构演化特征及影响因素分析[J]. 东北大学学报（自然科学版）, 2023, 44(5): 697-704.

YANG Jin-jin， WANG Zhe-chao， QIAO Li-ping， LI Wei. Analysis of Evolution Characteristics and Influencing Factors of Vortex Structure in Rough-Walled Fracture[J]. Journal of Northeastern University(Natural Science), 2023, 44(5): 697-704.

参考文献

[1]Zimmerman R W，Bodvarsson G S.Hydraulic conductivity of rock fractures［J］.Transport in Porous Media，1996，23(1):1-30.
[2]Konzuk J S，Kueper B H.Evaluation of cubic law based models describing single-phase flow through a rough-walled fracture［J］.Water Resources Research，2004，40(2):1-17.
[3]Chen Z，Qian J Z，Zhan H B，et al.Effect of roughness on water flow through a synthetic single rough fracture［J］.Environmental Earth Sciences，2017，76(4):1-17.
[4]Liu J，Wang Z，Qiao L，et al.Transition from linear to nonlinear flow in single rough fractures:effect of fracture roughness［J］.Hydrogeology Journal，2021，29:1343-1353.
[5]Xiong F，Jiang Q，Ye Z，et al.Nonlinear flow behavior through rough-walled rock fractures:the effect of contact area［J］.Computers and Geotechnics，2018，102:179-195.
[6]Dong J，Ju Y.Quantitative characterization of single-phase flow through rough-walled fractures with variable apertures［J］.Geomechanics and Geophysics for Geo-energy and Geo-resources，2020，6(3):1-14.
[7]周新，盛建龙，叶祖洋，等.岩体粗糙裂隙几何特征对其Forchheimer 型渗流特性的影响［J］.岩土工程学报，2021，43(11):2075-2083.(Zhou Xin，Sheng Jian-long，Ye Zu-yang，et al.Effects of geometrical feature on Forchheimer-flow behavior through rough-walled rock fractures［J］.Chinese Journal of Geotechnical Engineering，2021，43(11):2075-2083.)
[8]Javadi M，Sharifzadeh M，Shahriar K，et al.Critical Reynolds number for nonlinear flow through rough-walled fractures:the role of shear processes［J］.Water Resources Research，2014，50(2):1789-1804.
[9]Chen Y，Zhou J，Hu S，et al.Evaluation of Forchheimer equation coefficients for non-Darcy flow in deformable rough-walled fractures［J］.Journal of Hydrology，2015，529:993-1006.
[10]Zhang Y，Chai J，Cao C，et al.Combined influences of shear displacement，roughness，and pressure gradient on nonlinear flow in self-affine fractures［J］.Journal of Petroleum Science and Engineering，2021，198:108229.
[11]王者超，张浩炜，龙求喜，等.岩体裂隙中宾汉姆流体渗流模型［J］.东北大学学报(自然科学版)，2021，42(10):1459-1466.(Wang Zhe-chao，Zhang Hao-wei，Long Qiu-xi，et al.Bingham fluid seepage model in rock fractures［J］.Journal of Northeastern University(Natural Science)，2021，42(10):1459-1466.)
[12]Zhou J，Wang M，Wang L，et al.Emergence of nonlinear laminar flow in fractures during shear［J］.Rock Mechanics and Rock Engineering，2018，51(11):3635-3643.
[13] Guo P，Wang M，He M，et al.Experimental investigation on macroscopic behavior and microfluidic field of nonlinear flow in rough-walled artificial fracture models［J］.Advances in Water Resources，2020，142:103637.
[14]Guo P，Wang M，Gao K，et al.Influence of fracture surface roughness on local flow pattern:visualization using a microfluidic field experiment［J］.Hydrogeology Journal，2020，28:2373-2385.
[15]Zou L，Jing L，Cvetkovic V.Roughness decomposition and nonlinear fluid flow in a single rock fracture［J］.International Journal of Rock Mechanics and Mining Sciences，2015，75:102-118.
[16]Zhou J，Wang L，Chen Y，et al.Mass transfer between recirculation and main flow zones:is physically based parameterization possible?［J］.Water Resources Research，2019，55(1):345-362.
[17]Mukhopadhyay S，Mukherjee S，Adnan N F，et al.Ammonium-based deep eutectic solvents as novel soil washing agent for lead removal［J］.Chemical Engineering Journal，2016，294:316-322.
[18]Mohammadi R，Mohammadifar M A，Mortazavian A M，et al.Extraction optimization of pepsin-soluble collagen from eggshell membrane by response surface methodology(RSM)［J］.Food Chemistry，2016，190:186-193.

粗糙裂隙内涡旋结构演化特征及影响因素分析

Analysis of Evolution Characteristics and Influencing Factors of Vortex Structure in Rough-Walled Fracture

RichHTML

PDF (PC)

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 1

编辑推荐

Metrics

本文评价