Monitoring the stability of hydro-caverns with rock mechanics instrumentation—a case study

The Ghatghar pumped storage hydro-electric project is under construction in the Thane district of Maharastra state in India for the generation of 250MW of electricity. The scheme consists of two underground caverns, a machine hall, a transformer hall and intersections. The interconnections between t...

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Bibliographic Details
Main Authors: Kumar, Prabhat, Jhanwar, J.C., Kiran, S., Jha, B.K, Chakraborty, A.K., Bandopadhyay, C.
Format: Article in Journal/Newspaper
Language:unknown
Published: Elsevier 2004
Subjects:
Blasting
Long Rock
Online Access:http://cimfr.csircentral.net/87/
http://cimfr.csircentral.net/87/1/16.pdf
http://www.sciencedirect.com
id ftcsircimfr:oai:cimfr.csircentral.net:87
record_format openpolar
spelling ftcsircimfr:oai:cimfr.csircentral.net:87 2023-05-15T17:08:23+02:00 Monitoring the stability of hydro-caverns with rock mechanics instrumentation—a case study Kumar, Prabhat Jhanwar, J.C. Kiran, S. Jha, B.K Chakraborty, A.K. Bandopadhyay, C. 2004 application/pdf http://cimfr.csircentral.net/87/ http://cimfr.csircentral.net/87/1/16.pdf http://www.sciencedirect.com unknown Elsevier http://cimfr.csircentral.net/87/1/16.pdf Kumar, Prabhat and Jhanwar, J.C. and Kiran, S. and Jha, B.K and Chakraborty, A.K. and Bandopadhyay, C. (2004) Monitoring the stability of hydro-caverns with rock mechanics instrumentation—a case study. International Journal of Rock Mechanics and Mining Sciences , 41 (3). pp. 542-543. ISSN 1365-1609 Blasting Article PeerReviewed 2004 ftcsircimfr 2022-12-20T20:50:10Z The Ghatghar pumped storage hydro-electric project is under construction in the Thane district of Maharastra state in India for the generation of 250MW of electricity. The scheme consists of two underground caverns, a machine hall, a transformer hall and intersections. The interconnections between the caverns and connections to the surface, as well as to the reservoir, are made through a network of tunnels. The rock mass is predominantly of basaltic formation. The joints are mostly tight and undulating with generally rough to very rough contact surfaces. The rock mass characterization was conducted using Bieniawski’s RMR (1979) and Barton’s Q. The associated values vary from 66 to 81 and from 5.9 to 25, respectively—which indicate very good rock mass conditions. The support requirements for these structures were estimated from empirical approaches and numerical modeling. The support system consists of 6m long fully grouted rock bolts at 2m grid spacing with 50mm thick SFRS for the two caverns and 7m long rock bolts around the intersections of all openings. An extensive instrumentation scheme was implemented in these structures as a means to evaluate the efficacy of the support system and to have detailed knowledge of the rock mass behavior during and after construction. The instrumentation consisted of: tape extensometers for measuring convergence; multi-point and single point borehole extensometers for radial displacements; load cells for rock load and strain meters for rock strains. These instruments were embedded during the process of cavern excavation. The rock mass deformations around the cavern openings, as indicated by the MPBXs (Fig. 1), the convergence measured by the tape extensometer, and the rock bolt tension measured by the load cells were too low to be significant and collectively indicate that the roof and the walls of both the caverns and of the bus ducts and passageways are stable, indicating that the support system is adequate. It was, however, suggested that the vulnerable wedges should be ... Article in Journal/Newspaper Long Rock IR@CIMFR - Central Institute of Mining and Fuel Research (CSIR) Long Rock ENVELOPE(-61.198,-61.198,-62.689,-62.689)
institution Open Polar
collection IR@CIMFR - Central Institute of Mining and Fuel Research (CSIR)
op_collection_id ftcsircimfr
language unknown
topic Blasting
spellingShingle Blasting
Kumar, Prabhat
Jhanwar, J.C.
Kiran, S.
Jha, B.K
Chakraborty, A.K.
Bandopadhyay, C.
Monitoring the stability of hydro-caverns with rock mechanics instrumentation—a case study
topic_facet Blasting
description The Ghatghar pumped storage hydro-electric project is under construction in the Thane district of Maharastra state in India for the generation of 250MW of electricity. The scheme consists of two underground caverns, a machine hall, a transformer hall and intersections. The interconnections between the caverns and connections to the surface, as well as to the reservoir, are made through a network of tunnels. The rock mass is predominantly of basaltic formation. The joints are mostly tight and undulating with generally rough to very rough contact surfaces. The rock mass characterization was conducted using Bieniawski’s RMR (1979) and Barton’s Q. The associated values vary from 66 to 81 and from 5.9 to 25, respectively—which indicate very good rock mass conditions. The support requirements for these structures were estimated from empirical approaches and numerical modeling. The support system consists of 6m long fully grouted rock bolts at 2m grid spacing with 50mm thick SFRS for the two caverns and 7m long rock bolts around the intersections of all openings. An extensive instrumentation scheme was implemented in these structures as a means to evaluate the efficacy of the support system and to have detailed knowledge of the rock mass behavior during and after construction. The instrumentation consisted of: tape extensometers for measuring convergence; multi-point and single point borehole extensometers for radial displacements; load cells for rock load and strain meters for rock strains. These instruments were embedded during the process of cavern excavation. The rock mass deformations around the cavern openings, as indicated by the MPBXs (Fig. 1), the convergence measured by the tape extensometer, and the rock bolt tension measured by the load cells were too low to be significant and collectively indicate that the roof and the walls of both the caverns and of the bus ducts and passageways are stable, indicating that the support system is adequate. It was, however, suggested that the vulnerable wedges should be ...
format Article in Journal/Newspaper
author Kumar, Prabhat
Jhanwar, J.C.
Kiran, S.
Jha, B.K
Chakraborty, A.K.
Bandopadhyay, C.
author_facet Kumar, Prabhat
Jhanwar, J.C.
Kiran, S.
Jha, B.K
Chakraborty, A.K.
Bandopadhyay, C.
author_sort Kumar, Prabhat
title Monitoring the stability of hydro-caverns with rock mechanics instrumentation—a case study
title_short Monitoring the stability of hydro-caverns with rock mechanics instrumentation—a case study
title_full Monitoring the stability of hydro-caverns with rock mechanics instrumentation—a case study
title_fullStr Monitoring the stability of hydro-caverns with rock mechanics instrumentation—a case study
title_full_unstemmed Monitoring the stability of hydro-caverns with rock mechanics instrumentation—a case study
title_sort monitoring the stability of hydro-caverns with rock mechanics instrumentation—a case study
publisher Elsevier
publishDate 2004
url http://cimfr.csircentral.net/87/
http://cimfr.csircentral.net/87/1/16.pdf
http://www.sciencedirect.com
long_lat ENVELOPE(-61.198,-61.198,-62.689,-62.689)
geographic Long Rock
geographic_facet Long Rock
genre Long Rock
genre_facet Long Rock
op_relation http://cimfr.csircentral.net/87/1/16.pdf
Kumar, Prabhat and Jhanwar, J.C. and Kiran, S. and Jha, B.K and Chakraborty, A.K. and Bandopadhyay, C. (2004) Monitoring the stability of hydro-caverns with rock mechanics instrumentation—a case study. International Journal of Rock Mechanics and Mining Sciences , 41 (3). pp. 542-543. ISSN 1365-1609
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