Indonesia is a country rich in natural resources, especially gold resources. Gold mining in Indonesia is commonly using open pit and underground mining system. Although underground mining is not directly connected with weather and rainfall, that does not make an underground mining free of mine dewatering system's problem. The problems that may be occurred in the working front area of an underground mine are the high of the total head that has to be lifted by a pump, dimension of the mine channel and sump that small due to limited space of the tunnel, and flood. Flooding in a tunnel commonly caused by groundwater on the tunnel's surroundings. An accurate calculation of groundwater inflow into the tunnel is important to design the underground mine dewatering system. Measurement of actual groundwater inflow had been done to prove the accuracy of groundwater inflow's calculation using an analytical solution by El Tani method. This paper presents the alternative of the groundwaters seepage calculation those flows into the tunnel. The result of this research is the groundwater inflow can be predicted using an analytical solution accurately so that the design of the underground mine dewatering system can be held precisely.

Topics
Transition metals
1.
R. W.
Zimmerman
 and
G. S.
Bodvarsson
, “Hydraulic Conductivity of Rock Fractures”,
Earth Sciences Division, Lawrence Berkeley Laboratory
,
University of California
,
Berkeley, CA 94720
,
1994
.
Google Scholar
 
2.
T.A.
Cahyadi
 and
S.
Notosiswoyo
, “
Distribution of Hydraulic Conductivity from the Test Results of Aquifer - Constant Head Permeability in Heterogeneous Sedimentary Rocks
”,
2014
,
Prosiding TPT XXIII Perhapi 2014.
(in Indonesian Language).
Google Scholar
 
3.
T.A.
Cahyadi
 and
L.E.
Widodo
, “
Hydraulic Conductivity Modelling of Fractured Rock at Grasberg Surface Mine, Papua-Indonesia
”,
2017
.
Google Scholar
 
4.
P. K.
Chakrabarti
, “Mine Pumps for Underground Drainage”,
Central Mine Planning & Design Institute Limited (CMPDI)
,
CCL Press
,
Ranchi
,
1998
.
Google Scholar
 
5.
Ch.
Wolkersdorfer
, “Water Management at Abandoned Flooded Underground Mines”,
Springer Berlin Heidelberg
,
2008
.
6.
E. W.
Bridgwood
,
R. N.
Singh
, and
A. S.
Atkins
, “
Selection And Optimization Of Mine Pumping Systems
”,
International Journal Of Mine Water
, Vol.
2
(
2
),
1983
, Pp.
1
19
,.
https://doi.org/10.1007/BF02504559
Google Scholar
 
7.
C.
Butscher
,
Steady-State Groundwater Inflow Into A Circular Tunnel
,
Cambridge
:
Massachussets Institute of Technology
,
2012
.
Google Scholar
 
8.
K. H.
Park
,
A.
Owatsiriwong
, and
J. G.
Lee
, “
Analytical Solution For Steady-State Groundwater Inflow Into A Drained Circular Tunnel In A Semi-Infinite Aquifer: A revisit
”.
Tunnel Underground Space Technology
23
(
2
),
2008
,
206
209
.
https://doi.org/10.1016/j.tust.2007.02.004
Google Scholar
 
9.
D.K.
Todd
, “Groundwater Hydrology Third Edition”,
John Wiley & Son Inc
,
2005
, page:
652
.
10.
P.
Wardani
, “
Analysis of Decreasing's Groundwaters in Gold Mining Area TD-5010 A, Toguraci Underground Mine PT Nusa Halmahera Mineral, Kabupaten Halmahera Utara, Provinsi Maluku Utara
”,
2015
. (in Indonesian Language).
Google Scholar
 
11.
F.W.
Schwartz
 and
P. A.
Domenico
, “
Physical and Chemical Hydrogeology
”,
1990
.
Google Scholar
 
12.
J. A.
Cherry
, and
R. A.
Freeze
, “Groundwater”,
Prentice Hall, Inc
,
1979
.
13.
H.
Bouwer
, “Groundwater Hydrology”,
McGraw Hull Book
,
New York
,
1978
.
14.
M.
El Tani
, “
Circular Tunnel In A Semi-Infinite Aquifer
”,
Tunnel Underground Space Technology
18
(
1
),
2003
,
49
55
.
https://doi.org/10.1016/S0886-7798(02)00102-5
Google Scholar
 
This content is only available via PDF.
© 2020 Author(s).
2020
Author(s)
You do not currently have access to this content.