Conference Agenda

Overview and details of the sessions of this Conference. Please select a date or location to show only sessions at that day or location. Please select a single session for detailed view (with abstracts and downloads if available).

Please note that all times are shown in the time zone of the conference. The current conference time is: 17th Aug 2022, 05:34:09am BST

Session Overview
Mine Hydrogeology
Wednesday, 14/July/2021:
9:50am - 11:55am

Session Chair: Andrew Clifford Johnstone
Location: Meeting Room 3

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9:50am - 10:15am
ID: 402 / S_5_3: 1
Full Paper - Oral Presentation
Keywords: hydrogeological conceptual model; data science; machine learning; groundwater management.

Using Data Science and Machine Learning to Improve Site Hydrogeological Conceptual Models

Tim Robert Ezzy, John Fortuna

Principal Hydrogeologist, Golder Associates, Brisbane, Queensland, Australia

A key goal of many mining groundwater investigations is to identify the main geological features, hydraulic boundaries and connection pathways that will materially influence: a) operations of a project, and b) the natural resources connected to the groundwater system. Exploratory data science techniques such as machine learning provide the experienced mining hydrogeologist opportunities to accelerate understanding of the role of key features within a site hydrogeological conceptual model (HCM) that may affect groundwater management. This has implications for both regulatory approval processes and operational efficiency.

Cox S, Rutter H, Sims A, Horton T, Manga M, Ezzy T, Weir J, Scott D (2012) Hydrological effects of the Darfield (Canterbury) Mw7.1 earthquake, 4 September 2010, New Zealand, The New Zealand Journal of Geology and Geophysics.

10:15am - 10:40am
ID: 405 / S_5_3: 2
Full Paper - Oral Presentation
Keywords: Rainfall, water management, mining, equator

Open Pit-Mine Water Management In Equatorial Area

Yogi Pratama, Fahmi Syaifudin, Kris Pranoto


PT Kaltim Prima Coal, currently the largest open-pit coal mining company in Indonesia, is located in East Kalimantan. A province passed by the equator experiences heavy rainfall throughout the year. Annual average rainfall is recorded at 2,152mm. Controlling water inflow quantity is the most important thing in water management to have decent water quality. Proper design configuration consists of dry dam as flow detention and labyrinth pond for quality adjustment. Water discharge reduction up to 90% in average brings enormous benefit for water management system. Also, the design becomes the most feasible option in post mining.

Baffled Channel Application for Accelerating Particle Mixing on Kenanga Sediment Pond

10:40am - 11:05am
ID: 546 / S_5_3: 3
Full Paper - Oral Presentation
Topic: 8 Mine Hydrogeology
Way of Presentation: Live
Keywords: borehole geophysical exploration, advanced water detection and drainage technology, borehole radar advanced water detector, advanced electromagnetic sounder for wireless tomography while drilling

A Set of New Technology and Equipment of Advanced Water Detection and Drainage in Coal Mining Face with Borehole Geophysical Exploration

Qiang Wu1, Yifan Zeng1, Chunsheng Liu2, Honglei Liu1, Shouqiang Liu1, Fangpeng Cui1, Jingchuan Ma1

1China University of Mining and Technology,Beijing,China, China, People's Republic of; 2Wuhan Changsheng Coal Security Technology Co., Ltd., Wuhan 430312, China

In this paper, the latest research and challenges of the technologies and methods for water detection and drainage in coal mining faces in China are analyzed systematically. Through the comparison of two traditional water detection and drainage technologies, underground geophysical exploration technologies and pre-drilling technology, a new set of advanced water detection and drainage method based on borehole geophysical exploration is proposed. The equipment for borehole geophysical exploration technology is developed, including borehole radar advanced water detector and advanced electromagnetic sounder for wireless tomography while drilling.

[1] Wu Q , Du Z , Zhao Y , et al. Optimal location of water level sensors for monitoring mine water inrush based on the set covering model[J]. Scientific Reports, 2021, 11(1).
[2] Wu Q , Hao Z , Zhao Y , et al. Prediction of concealed faults in front of a coalface using feature learning[J]. Bulletin of Engineering Geology and the Environment, 2020, 79(3–4).
[3] Tu K , Wu Q , Simunek J , et al. An approximate analytical solution for non-Darcian flow in a confined aquifer with a single well circulation groundwater heat pump system[J]. Advances in Water Resources, 2020, 145.
[4] Shen J , Wu Q , Liu W . The Development of the Water-Richness Evaluation Model for the Unconsolidated Aquifers Based on the Extension Matter-Element Theory[J]. 2020.
[5] Li B , Wu Q , Liu Z . Identification of Mine Water Inrush Source Based on PCA-FDA: Xiandewang Coal Mine Case[J]. Geofluids, 2020, 2020(2):1-8.
[6] Li B , Wu Q , Zhang W , et al. Water resources security evaluation model based on grey relational analysis and analytic network process: A case study of Guizhou Province[J]. Journal of Water Process Engineering, 2020, 37:101429.

11:05am - 11:30am
ID: 565 / S_5_3: 4
Full Paper - Oral Presentation
Topic: 8 Mine Hydrogeology
Way of Presentation: Live
Keywords: coal and water contradiction; Yellow River cutoff; water resources; Yellow River basin; coal mining

Influence of Coal Mining on Water Environment and Ecology in the Yellow River Basin

Fawang Zhang1, Zhiqiang Zhang1,2,3

1Chinese Academy of Geological Sciences, Beijing 100037, China; 2Hefei University of Technology, Hefei 230009, China; 3Hebei GEO University, Shijiazhuang 050031, China

The upper and middle reaches of the Yellow River are important coal production bases in China, and the current situation of "more coal and less water" has been the main factor restricting its economic development. Based on the coal resources in the upper and middle reaches of the Yellow River and the history of the Yellow River’s dry-up, this article puts forward the main environmental problems faced by the Yellow River. The impact of coal mining on the natural water cycle, water environment, soil erosion, and water-sediment relationship is systematically analysed, and the coordinated development proposal was finally put forward.

Zhang FW Han ZT Chen L Yao HC (2015) Study on the Fissure Rate in the Roof Strata of Excavated Coal Seams. 89(6): 2090-2090

11:30am - 11:55am
ID: 602 / S_5_3: 5
Full Paper - Oral Presentation
Topic: 8 Mine Hydrogeology
Way of Presentation: Pre-Recorded
Keywords: Mine water, pit inflows, groundwater, geotechnical, 3D visualisation

Incorporating 2D Analytical Results into 3D Graphical and Multidisciplinary Mining Models.

Hannah Redfern, James Catley, Grace Yungwirth

Golder Associates (UK) Ltd

Front end mining studies inform the project development process by assessing key risks and developing an increased understanding of the available site data. 2D analytical models can be appropriate to support hydrogeological assessments during early studies given the level of data available, and the level of confidence required. Incorporating these results into a 3D model can transform a simple methodology into a visual representation which can be integrated with other aspects of multi-disciplinary studies. This methodology incorporates groundwater flow analyses into a 3D surface within standard industry software, Leapfrog Works™, to support an assessment for a proposed open pit mine.


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