Rockmass Characterization for Open Pit Slope Design Using Kinematic Analysis

H. E. Bawa, Jerome Yendaw, Bruno A. Kansake, Kenneth Bansah

Research output: Contribution to conferencePaper

Abstract

Pit slope failure can have devastating effects on safety of personnel and equipment, and affect profitability of mining operations. Discontinuities, groundwater, rockmass strength and pit geometry can cause slope failure. Also, mining activities (such as drilling and blasting) can alter integrity of slopes and cause failure. Thus, periodic geotechnical characterization of rockmass detailing discontinuities is important for design of stable pit slopes during mining. This paper presents results of geotechnical rockmass characterization conducted at Akontansi Central Pit of Goldfields Ghana Limited, Tarkwa. Discontinuity mapping was conducted using scanline and window mapping. Rock Mass Rating (RMR) and Mining Rock Mass Rating (MRMR) systems were used to classify the rockmass. Results indicate average RMR and MRMR of 45.18% and 38.73% respectively. It was also found that overall slope angle of ~50° and bench slope of ~60° were required to maintain stable pit slopes. Kinematic analysis with DIPS 5.1 software found the hanging wall to be threatened mostly by wedge failure, with less potential for planar and toppling failures.
Original languageEnglish
Publication statusPublished - 2017
Event51st U.S. Rock Mechanics/Geomechanics Symposium - San Francisco, United States
Duration: Jun 25 2017Jun 28 2017

Conference

Conference51st U.S. Rock Mechanics/Geomechanics Symposium
CountryUnited States
CitySan Francisco
Period6/25/176/28/17

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kinematics
discontinuity
slope failure
rock
toppling
slope angle
hanging wall
blasting
profitability
drilling
analysis
safety
software
geometry
groundwater

Cite this

Bawa, H. E., Yendaw, J., Kansake, B. A., & Bansah, K. (2017). Rockmass Characterization for Open Pit Slope Design Using Kinematic Analysis. Paper presented at 51st U.S. Rock Mechanics/Geomechanics Symposium, San Francisco, United States.
Bawa, H. E. ; Yendaw, Jerome ; Kansake, Bruno A. ; Bansah, Kenneth. / Rockmass Characterization for Open Pit Slope Design Using Kinematic Analysis. Paper presented at 51st U.S. Rock Mechanics/Geomechanics Symposium, San Francisco, United States.
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title = "Rockmass Characterization for Open Pit Slope Design Using Kinematic Analysis",
abstract = "Pit slope failure can have devastating effects on safety of personnel and equipment, and affect profitability of mining operations. Discontinuities, groundwater, rockmass strength and pit geometry can cause slope failure. Also, mining activities (such as drilling and blasting) can alter integrity of slopes and cause failure. Thus, periodic geotechnical characterization of rockmass detailing discontinuities is important for design of stable pit slopes during mining. This paper presents results of geotechnical rockmass characterization conducted at Akontansi Central Pit of Goldfields Ghana Limited, Tarkwa. Discontinuity mapping was conducted using scanline and window mapping. Rock Mass Rating (RMR) and Mining Rock Mass Rating (MRMR) systems were used to classify the rockmass. Results indicate average RMR and MRMR of 45.18{\%} and 38.73{\%} respectively. It was also found that overall slope angle of ~50° and bench slope of ~60° were required to maintain stable pit slopes. Kinematic analysis with DIPS 5.1 software found the hanging wall to be threatened mostly by wedge failure, with less potential for planar and toppling failures.",
author = "Bawa, {H. E.} and Jerome Yendaw and Kansake, {Bruno A.} and Kenneth Bansah",
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note = "51st U.S. Rock Mechanics/Geomechanics Symposium ; Conference date: 25-06-2017 Through 28-06-2017",

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Bawa, HE, Yendaw, J, Kansake, BA & Bansah, K 2017, 'Rockmass Characterization for Open Pit Slope Design Using Kinematic Analysis' Paper presented at 51st U.S. Rock Mechanics/Geomechanics Symposium, San Francisco, United States, 6/25/17 - 6/28/17, .

Rockmass Characterization for Open Pit Slope Design Using Kinematic Analysis. / Bawa, H. E.; Yendaw, Jerome; Kansake, Bruno A.; Bansah, Kenneth.

2017. Paper presented at 51st U.S. Rock Mechanics/Geomechanics Symposium, San Francisco, United States.

Research output: Contribution to conferencePaper

TY - CONF

T1 - Rockmass Characterization for Open Pit Slope Design Using Kinematic Analysis

AU - Bawa, H. E.

AU - Yendaw, Jerome

AU - Kansake, Bruno A.

AU - Bansah, Kenneth

PY - 2017

Y1 - 2017

N2 - Pit slope failure can have devastating effects on safety of personnel and equipment, and affect profitability of mining operations. Discontinuities, groundwater, rockmass strength and pit geometry can cause slope failure. Also, mining activities (such as drilling and blasting) can alter integrity of slopes and cause failure. Thus, periodic geotechnical characterization of rockmass detailing discontinuities is important for design of stable pit slopes during mining. This paper presents results of geotechnical rockmass characterization conducted at Akontansi Central Pit of Goldfields Ghana Limited, Tarkwa. Discontinuity mapping was conducted using scanline and window mapping. Rock Mass Rating (RMR) and Mining Rock Mass Rating (MRMR) systems were used to classify the rockmass. Results indicate average RMR and MRMR of 45.18% and 38.73% respectively. It was also found that overall slope angle of ~50° and bench slope of ~60° were required to maintain stable pit slopes. Kinematic analysis with DIPS 5.1 software found the hanging wall to be threatened mostly by wedge failure, with less potential for planar and toppling failures.

AB - Pit slope failure can have devastating effects on safety of personnel and equipment, and affect profitability of mining operations. Discontinuities, groundwater, rockmass strength and pit geometry can cause slope failure. Also, mining activities (such as drilling and blasting) can alter integrity of slopes and cause failure. Thus, periodic geotechnical characterization of rockmass detailing discontinuities is important for design of stable pit slopes during mining. This paper presents results of geotechnical rockmass characterization conducted at Akontansi Central Pit of Goldfields Ghana Limited, Tarkwa. Discontinuity mapping was conducted using scanline and window mapping. Rock Mass Rating (RMR) and Mining Rock Mass Rating (MRMR) systems were used to classify the rockmass. Results indicate average RMR and MRMR of 45.18% and 38.73% respectively. It was also found that overall slope angle of ~50° and bench slope of ~60° were required to maintain stable pit slopes. Kinematic analysis with DIPS 5.1 software found the hanging wall to be threatened mostly by wedge failure, with less potential for planar and toppling failures.

M3 - Paper

ER -

Bawa HE, Yendaw J, Kansake BA, Bansah K. Rockmass Characterization for Open Pit Slope Design Using Kinematic Analysis. 2017. Paper presented at 51st U.S. Rock Mechanics/Geomechanics Symposium, San Francisco, United States.