Effects of porosity heterogeneity on chemical dissolution-front instability in fluid-saturated rocks 被引量：4

Effects of porosity heterogeneity on chemical dissolution-front instability in fluid-saturated rocks

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摘要 Homogeneity and heterogeneity are two totally different concepts in nature.At the particle length scale,rocks exhibit strong heterogeneity in their constituents and porosities.When the heterogeneity of porosity obeys the random uniform distribution,both the mean value and the variance of porosities in the heterogeneous porosity field can be used to reflect the overall heterogeneous characteristics of the porosity field.The main purpose of this work is to investigate the effects of porosity heterogeneity on chemical dissolution front instability in fluid-saturated rocks by the computational simulation method.The related computational simulation results have demonstrated that:1) since the propagation speed of a chemical dissolution front is inversely proportional to the difference between the final porosity and the mean value of porosities in the initial porosity field,an increase in the extent of the porosity heterogeneity can cause an increase in the mean value of porosities in the initial porosity field and an increase in the propagation speed of the chemical dissolution front.2) An increase in the variance of porosities in the initial porosity field can cause an increase in the instability probability of the chemical dissolution front in the fluid-saturated rock.3) The greater the mean value of porosities in the initial porosity field,the quicker the irregular morphology of the chemical dissolution front changes in the supercritical chemical dissolution systems.This means that the irregular morphology of a chemical dissolution front grows quicker in a porosity field of heterogeneity than it does in that of homogeneity when the chemical dissolution system is at a supercritical stage. Homogeneity and heterogeneity are two totally different concepts in nature.At the particle length scale,rocks exhibit strong heterogeneity in their constituents and porosities.When the heterogeneity of porosity obeys the random uniform distribution,both the mean value and the variance of porosities in the heterogeneous porosity field can be used to reflect the overall heterogeneous characteristics of the porosity field.The main purpose of this work is to investigate the effects of porosity heterogeneity on chemical dissolution front instability in fluid-saturated rocks by the computational simulation method.The related computational simulation results have demonstrated that：1） since the propagation speed of a chemical dissolution front is inversely proportional to the difference between the final porosity and the mean value of porosities in the initial porosity field,an increase in the extent of the porosity heterogeneity can cause an increase in the mean value of porosities in the initial porosity field and an increase in the propagation speed of the chemical dissolution front.2） An increase in the variance of porosities in the initial porosity field can cause an increase in the instability probability of the chemical dissolution front in the fluid-saturated rock.3） The greater the mean value of porosities in the initial porosity field,the quicker the irregular morphology of the chemical dissolution front changes in the supercritical chemical dissolution systems.This means that the irregular morphology of a chemical dissolution front grows quicker in a porosity field of heterogeneity than it does in that of homogeneity when the chemical dissolution system is at a supercritical stage.

作者 ZHAO Chong-bin Peter SCHAUBS Bruce HOBBS 赵崇斌;Peter SCHAUBS;Bruce HOBBS(Computational Geosciences Research Centre, Central South University, Changsha 410083, China;CSIRO Mineral Resource National Research Flagship, P. O. Box 1130, Bentley, WA 6102, Australia;School of Earth and Environment, The University of Western Australia, Crawley, WA 6009, Australia)

机构地区 Computational Geosciences Research Centre CSIRO Mineral Resource National Research Flagship School of Earth and Environment

出处《Journal of Central South University》 SCIE EI CAS CSCD 2017年第3期720-725,共6页 中南大学学报（英文版）

基金 Project(11272359)supported by the National Natural Science Foundation of China

关键词 porosity heterogeneity chemical dissolution front instability computational simulation porous rocks 化学溶解饱和岩石非均质性孔隙度不稳定性初始孔隙率计算机模拟前缘

分类号 TU45 [建筑科学—岩土工程]

作者简介 Corresponding author： zHAo Chong-bin, Professor; Tel：＋86-731-88830028; E-mail： chongbin.zhao@iinet.net.au

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参考文献2

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3胡训宇,段飘飘,杨永国,陈玉华,罗金辉,杨慧,王坤,刘光贤,李跃.云南临沧煤型锗矿床中锗富集过程的有限元数值模拟[J].地质学报,2023,97(12):4150-4163.

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