Valley Bottom Upsidence above a Longwall Operation with Strong Overburden Strata

Steve Hicks; Greg Hasenfus; Zach Agioutantis; Zach Wedding

Valley Bottom Upsidence above a Longwall Operation with Strong Overburden Strata

Steve Hicks, Greg Hasenfus, Zach Agioutantis, Zach Wedding

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Most prediction methods used to calculate mining-induced subsidence rely on empirical formulations, which typically assume flat topography and uniform properties in the overburden. It is also well known that when a longwall panel mines below a valley bottom surface ground deformation magnitudes and orientations may be significantly influenced by the presence of the valley. This paper discusses ground deformation data collected at different surface locations above the Buchanan mine in the eastern United States. Measurements at individual surface points and strata movement measurements using a three-point extensometer have been collected as the area was undermined. Measurements correspond to the mining of the panel immediately under the measurement points and to the mining of adjacent panels. Measurement locations correspond to valley bottom locations. The measurements are critically evaluated and compared with respect to topography and panel face location. The issue of the fluctuation of GPS measurements is also discussed.

Original language	English
Title of host publication	43rd International Conference on Ground Control in Mining, ICGCM 2024 - Held at the 2024 SME Annual Conference and Expo
Editors	Ted Klemetti, Rudrajit Mitra, Michael Murphy, Kyle Perry, Ihsan Berk Tulu
Pages	290-297
Number of pages	8
ISBN (Electronic)	9798331300487
State	Published - 2024
Event	43rd International Conference on Ground Control in Mining, ICGCM 2024, held at the 2024 SME Annual Conference and Expo - Canonsburg, United States Duration: Feb 26 2024 → …

Publication series

Name	43rd International Conference on Ground Control in Mining, ICGCM 2024 - Held at the 2024 SME Annual Conference and Expo

Conference

Conference	43rd International Conference on Ground Control in Mining, ICGCM 2024, held at the 2024 SME Annual Conference and Expo
Country/Territory	United States
City	Canonsburg
Period	2/26/24 → …

Bibliographical note

Publisher Copyright:
© ICGCM 2024 . All rights reserved.

ASJC Scopus subject areas

Geology
Control and Systems Engineering
Mechanical Engineering
Geotechnical Engineering and Engineering Geology

Cite this

Hicks, S., Hasenfus, G., Agioutantis, Z., & Wedding, Z. (2024). Valley Bottom Upsidence above a Longwall Operation with Strong Overburden Strata. In T. Klemetti, R. Mitra, M. Murphy, K. Perry, & I. B. Tulu (Eds.), 43rd International Conference on Ground Control in Mining, ICGCM 2024 - Held at the 2024 SME Annual Conference and Expo (pp. 290-297). (43rd International Conference on Ground Control in Mining, ICGCM 2024 - Held at the 2024 SME Annual Conference and Expo).

Hicks, Steve ; Hasenfus, Greg ; Agioutantis, Zach et al. / Valley Bottom Upsidence above a Longwall Operation with Strong Overburden Strata. 43rd International Conference on Ground Control in Mining, ICGCM 2024 - Held at the 2024 SME Annual Conference and Expo. editor / Ted Klemetti ; Rudrajit Mitra ; Michael Murphy ; Kyle Perry ; Ihsan Berk Tulu. 2024. pp. 290-297 (43rd International Conference on Ground Control in Mining, ICGCM 2024 - Held at the 2024 SME Annual Conference and Expo).

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title = "Valley Bottom Upsidence above a Longwall Operation with Strong Overburden Strata",

abstract = "Most prediction methods used to calculate mining-induced subsidence rely on empirical formulations, which typically assume flat topography and uniform properties in the overburden. It is also well known that when a longwall panel mines below a valley bottom surface ground deformation magnitudes and orientations may be significantly influenced by the presence of the valley. This paper discusses ground deformation data collected at different surface locations above the Buchanan mine in the eastern United States. Measurements at individual surface points and strata movement measurements using a three-point extensometer have been collected as the area was undermined. Measurements correspond to the mining of the panel immediately under the measurement points and to the mining of adjacent panels. Measurement locations correspond to valley bottom locations. The measurements are critically evaluated and compared with respect to topography and panel face location. The issue of the fluctuation of GPS measurements is also discussed.",

author = "Steve Hicks and Greg Hasenfus and Zach Agioutantis and Zach Wedding",

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language = "English",

series = "43rd International Conference on Ground Control in Mining, ICGCM 2024 - Held at the 2024 SME Annual Conference and Expo",

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Hicks, S, Hasenfus, G, Agioutantis, Z & Wedding, Z 2024, Valley Bottom Upsidence above a Longwall Operation with Strong Overburden Strata. in T Klemetti, R Mitra, M Murphy, K Perry & IB Tulu (eds), 43rd International Conference on Ground Control in Mining, ICGCM 2024 - Held at the 2024 SME Annual Conference and Expo. 43rd International Conference on Ground Control in Mining, ICGCM 2024 - Held at the 2024 SME Annual Conference and Expo, pp. 290-297, 43rd International Conference on Ground Control in Mining, ICGCM 2024, held at the 2024 SME Annual Conference and Expo, Canonsburg, United States, 2/26/24.

Valley Bottom Upsidence above a Longwall Operation with Strong Overburden Strata. / Hicks, Steve; Hasenfus, Greg; Agioutantis, Zach et al.
43rd International Conference on Ground Control in Mining, ICGCM 2024 - Held at the 2024 SME Annual Conference and Expo. ed. / Ted Klemetti; Rudrajit Mitra; Michael Murphy; Kyle Perry; Ihsan Berk Tulu. 2024. p. 290-297 (43rd International Conference on Ground Control in Mining, ICGCM 2024 - Held at the 2024 SME Annual Conference and Expo).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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N2 - Most prediction methods used to calculate mining-induced subsidence rely on empirical formulations, which typically assume flat topography and uniform properties in the overburden. It is also well known that when a longwall panel mines below a valley bottom surface ground deformation magnitudes and orientations may be significantly influenced by the presence of the valley. This paper discusses ground deformation data collected at different surface locations above the Buchanan mine in the eastern United States. Measurements at individual surface points and strata movement measurements using a three-point extensometer have been collected as the area was undermined. Measurements correspond to the mining of the panel immediately under the measurement points and to the mining of adjacent panels. Measurement locations correspond to valley bottom locations. The measurements are critically evaluated and compared with respect to topography and panel face location. The issue of the fluctuation of GPS measurements is also discussed.

AB - Most prediction methods used to calculate mining-induced subsidence rely on empirical formulations, which typically assume flat topography and uniform properties in the overburden. It is also well known that when a longwall panel mines below a valley bottom surface ground deformation magnitudes and orientations may be significantly influenced by the presence of the valley. This paper discusses ground deformation data collected at different surface locations above the Buchanan mine in the eastern United States. Measurements at individual surface points and strata movement measurements using a three-point extensometer have been collected as the area was undermined. Measurements correspond to the mining of the panel immediately under the measurement points and to the mining of adjacent panels. Measurement locations correspond to valley bottom locations. The measurements are critically evaluated and compared with respect to topography and panel face location. The issue of the fluctuation of GPS measurements is also discussed.

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Hicks S, Hasenfus G, Agioutantis Z, Wedding Z. Valley Bottom Upsidence above a Longwall Operation with Strong Overburden Strata. In Klemetti T, Mitra R, Murphy M, Perry K, Tulu IB, editors, 43rd International Conference on Ground Control in Mining, ICGCM 2024 - Held at the 2024 SME Annual Conference and Expo. 2024. p. 290-297. (43rd International Conference on Ground Control in Mining, ICGCM 2024 - Held at the 2024 SME Annual Conference and Expo).

Valley Bottom Upsidence above a Longwall Operation with Strong Overburden Strata

Abstract

Publication series

Conference

Bibliographical note

ASJC Scopus subject areas

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