Welcome to Francis Academic Press

Academic Journal of Architecture and Geotechnical Engineering, 2022, 4(3); doi: 10.25236/AJAGE.2022.040304.

Study on Safety Hazard Investigation and Treatment Scheme in a Marble Mine Goaf


Yang Liu1,2

Corresponding Author:
Yang Liu

1Deep Mining Laboratory of Shandong Gold Group Co., Ltd, Yantai, China

2Shandong Key Laboratory of Deep-sea and Deep-earth Metallic Mineral Intelligent Mining, Yantai, China


In this paper, Pengxi mine and its surrounding area are taken as the research object to carry out the investigation of potential safety hazards. The three-dimensional laser scanning technology is used to detect the goaf, and the pillar method is used to evaluate the safety. Through the investigation of domestic and foreign cases, combined with the urban development planning and land use planning of Shenzhen, the comprehensive utilization scheme of underground goaf is put forward on the basis of comprehensive consideration of technical feasibility, economy and treatment effect, so as to eliminate the potential safety hazards.


underground goaf; safety hazard investigation; treatment scheme

Cite This Paper

Yang Liu. Study on Safety Hazard Investigation and Treatment Scheme in a Marble Mine Goaf. Academic Journal of Architecture and Geotechnical Engineering (2022) Vol. 4, Issue 3: 24-30. https://doi.org/10.25236/AJAGE.2022.040304.


[1] J. A. Hudson and J. P. Harrison, Engineering Rock Mechanics: An Introduction to the Principles, Elsevier, Oxford, UK, 2000.

[2] Jia Haibo, Ren Fengyu, Ding Hangxing, et al. Comprehensive Treatment of a Mined-out Area in a Ag-polymetallic Deposit [J]. Metal Mine, 2018(02): 41-45.

[3] Wang Wanhong, Wang Yuan, Du Cuifeng, et al. Stability Analysis on Large-area Goaf Group in Room and Pillar Mining Method [J]. Mining Research and Development, 2020, 40(8): 41-44.

[4] Qin Yaguang, Luo Zhouquan, Wang Wei, et al. Cavity Three-dimensional Laser Scanning Point Cloud Data Processing Technology [J]. Journal of Northeastern University (Natural Science), 2016, 37(11): 1635-1639.

[5] Huansheng Mu, Ling Gao. The Treatment Technology of Banbidian Goaf in Qinhuangdao [J]. Applied Mechanics and Materials, 2014, 2973(505-506): 223-227.

[6] Li liang, Wu Kan, Zhou Dawei. Evaluation Theory and Application of Foundation Stability of New Buildings over an Old Goaf using Longwall Mining Technology [J]. Environmental Earth Sciences, 2016, 75(9): 763.

[7] Wang Qiming, Xu Genbi, Tang Shaohui, et al. The Actual State of Mined-out Areas in Metallic and Nonmetallic Mines and the Counterm Easures for the Treatment of the Mined-out Areas in China [J]. Mining Research and Development, 2009, 29(04): 63-68.

[8] Gong Fengqing, Li Xibing, Dong Longjun, et al. Underground Goaf Risk Evaluation Based on Uncertainty Measurement Theory [J]. Chinese Journal of Rock Mechanics and Engineering, V2008, 27(2): 323-330.

[9] Guo Wenbing, Lou Gaozhong. Definition and Discriminant Method of Full Mining Degree of Overburden Failure [J]. Journal of China Coal Society, 2019, 44(3): 755-766.

[10] He Biaoqing. Numerical Simulation on Stability of Large Goaf Group Base on FLAC3D [J]. China Mining Magazine, 2018, 27(7): 99-102.

[11] Li Xibing, Li Diyuan, Zhao Guoyan, et al. Detecting, Disposal and Safety Evaluation of the Underground Goaf in Metal Mines [J]. Journal of Mining and Safety Engineering, 2006, 23(1): 24-29.

[12] Peng Chao, Zhang Hongyan, Wang zhiqiang. Study on Stability Evaluation and Comprehensive Treatment of Goaf for a Marble Mine [J]. China Mining Magazine, 2020, 29(S2): 277-282.