DETERMINATION OF NUCLEAR POWER PLANT SITE IN WEST BANGKA BASED ON ROCK MASS RATING AND GEOLOGICAL STRENGTH INDEX

https://doi.org/10.22146/jag.26979

Irvani Irvani(1*), Wahyu Wilopo(2), Dwikorita Karnawati(3)

(1) Department of Geological Engineering, Gadjah Mada University,
(2) Department of Geological Engineering, Gadjah Mada University,
(3) Department of Geological Engineering, Gadjah Mada University,
(*) Corresponding Author

Abstract


Indonesian government through the National
Atomic Energy Agency has planned to build a
nuclear power plant. One of the proposed sites
is in West Bangka Regency, Bangka Belitung
Archipelago Province. The engineering geology
of this area is, however, not fully understood and
requires further investigations. Engineering geology investigations were carried out by assessing the
rock mass quality and bearing capacity based on
field observation and drilling data. The assessment
was conducted using Rock Mass Rating (RMR)
and Geological Strength Index (GSI) classifications.
The rock masses in the study area were divided
into four units, namely units of sandstone, granite,
mudstone and pebbly sandstone. The RMR and
GSI values in the study area were influenced by the
parameters of discontinuity space density, the slope
of discontinuity orientation, grade of weathering
and groundwater conditions. The assessment shows
that the granite unit had the best quality which was
shown by a 53 average RMR value and 66 GSI
value. Based on the average RMR value, the granite
unit was estimated to have cohesion value between
0.2 and 0.3 MPa, friction angle between 25° and
35°, and allowable bearing pressure between 280
and 135 T/m2. Based on the GSI value, the granite
unit was estimated to have uniaxial compressive
strength value between 1.0465 and 183.8 MPa, ten-sile strength between (-0.0122) and (-5.2625) MPa,
rock mass strength values between 24.5244 and
220.351 MPa, and modulus of deformation within
a range of 1.73 - 86.68 GPa. The Granite Unit was
considered to be the most appropriate location for
the nuclear power plants.

Keywords


nuclear power plant foundation, Geological Strength Index, Rock Mass Rating, rock mass quality

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References

Barber, A.J., Crow, M.J. and Milsom, J.S. (2005) Sumatra: Geology, Resources and Tectonic Evolution. Geological Society Memoir, No. 31. Bieniawski, Z.T. (1989) Engineering Rock Mass Classification, Mining and Mineral Resources Research Institute, Pennsylvania State University. Cheng, Y.M. and Lau, C.K. (2008) Slope Stability Analysis and Stabilization: New Methods and Insight. Routledge. London & New York. Giani, G.P. (1992) Rock Slope Stability Analysis, A.A. Balkema Publishers, Rotterdam, Netherlands. Goodman, R.E. (1989) Introduction to Rock Mechanics. 2nd Edition, John Wiley & Sons, Canada. Hoek, E. (1994) Strength of Rock and Rock Masses, News J ISRM 2 (2):4-16. Hoek, E. (2007) Practical Rock Engineering, Notes, Evert Hoek Consulting Engineer Inc., Canada. Hoek, E., Carranza-Torres, C. and Corkum, B. (2002) Hoek-Brown Failure Criterion-2002 Edition, Proc. NARMS-TAC Conf., Toronto, Vol. 1, p. 267-273. Irvani (2013) Rock Mass Quality Evaluation at The Nuclear Power Plant Site Using Rock Mass Rating and Geological Strength Index Methods, in Bangka Barat Regency, Bangka Belitung Archipelago Province. Master Thesis, Gadjah Mada University, Yogyakarta. Irvani., Wilopo, W., dan Karnawati, D. (2013) Evaluasi Kualitas Massa Batuan Pada Lokasi Tapak PLTN Menggunakan Metode Geological Strength Index, di Kabupaten Bangka Barat, Propinsi Kepulauan Bangka Belitung. Proceeding Seminar Nasional, Teknik Geologi, Universitas Gadjah Mada, Yogyakarta. IS 12070 (1987) Indian standard code of practice for design and construction of shallow foundations on rocks. New Delhi: Bureau of Indian Standards. Kilic, A. and Teymen, A. (2008) Determination of Mechanical Properties of Rocks Using Simple Methods, Bull Eng Geol Env., Vol. 67, p. 237-244. Mangga, A.S. dan Djamal, B. (1994) Peta Geologi Lembar Bangka Utara, Sumatra, Pusat Penelitian dan Pengembangan Geologi, Bandung. Margono, U., Supandjono, R.J.B. dan Partoyo, E. (1995) Peta Geologi Lembar Bangka Selatan, Sumatra. Pusat Penelitian dan Pengembangan Geologi, Bandung. Palmstrom, A. (1995) RMi - A Rock Mass Characterization System for Rock Engineering Purposes. Thesis (PhD), Oslo University, Norwegia. Singh, B. and Goel, R.K. (2011) Engineering Rock Mass Classification: Tunneling, Foundation, and Landslides, ButterworthHeinemann, Elsevier Inc., USA, 2011. Van Bemmelen, R.W. (1970) The Geology of Indonesia, General Geology Volume I A. Martinus Nighoff, The Hague, Netherland. Van Gorsel, J.T. (2012) Sundaland: Bibliography of The Geology of Indonesia and Surrounding Areas, Edition 4.1., Bibliography of Indonesian Geology. Wyllie, D.C. (1999) Foundations on Rock, 2nd Edition, E & FN Spon, London, 1999. Wyllie, D.C. and Mah, C.W. (2004) Rock Slope Engineering. Civil and Mining Engineering, 4th Edition, Spon Press, New York.



DOI: https://doi.org/10.22146/jag.26979

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