Title: Modelling of a Coastal Aquifer using FEFLOW
1Modelling of a Coastal Aquifer Using FEFLOW
2Seawater Intrusion
- In coastal regions, overexploitation of
groundwater has caused the encroachment of
seawater into freshwater aquifers. - Saltwater is heavier, hence tends to move
underneath the freshwater layer. - The freshwater, however, has a hydraulic gradient
downward towards the coast, hence will flow to
the sea. - This outflow momentum force can counter balance
the density-driven seawater. - Without it, seawater will continue to move inland
until the entire aquifer below sea level is
occupied by it. - Since such a hydraulic gradient always exists due
to the precipitation recharge inland, an
equilibrium position will establish. The toe then
marks the maximum extent of intrusion.
3Seawater Intrusion in Coastal Area of North Goa
- Coastal tracts of Goa (India) are rapidly being
transformed into settlement areas. - The poor water supply facilities have encouraged
people to have their own source of water by
digging or boring a well. - During the last decade, there have been
large-scale withdrawals of groundwater by
builders, hotels and other tourist
establishments. - Though the seawater intrusion has not yet assumed
serious magnitude, but in the coming years it may
turn to be a major problem if corrective measures
are not initiated at this stage. - It is necessary to understand how fresh and salt
water move under various realistic pumping and
recharge scenarios.
4Objectives of the Study
- Simulation of seawater intrusion in a region
along Goa coast. - Evaluation of the impact on seawater intrusion
due to various groundwater pumping scenarios. - Sensitivity analysis to find the most sensitive
parameters affecting the simulation. - Suggestions for remedial measures.
-
5- Study Group Mr. C. P. Kumar (NIH, Roorkee)
- Dr. Sudhir Kumar (NIH, Roorkee)
- Dr. B. K. Purandara (NIH, Belgaum)
- Dr. A. G. Chachadi (Goa University)
- Duration 3 Years (April 2004 to March 2007)
- Budget NIH Funding
6- Study Area
- The study area is bound by rivers Chapora and
Mandovi in north and south directions
respectively, besides Arabian sea in the west. - Bardez Taluk of North Goa
- (catchments of Baga Nerul rivers 74 km2)
- Coastal tract from Fort Aguada to Fort Chapora
(15 km) - One third tourists visit Bardez coastal areas
- (Anjuna, Baga, Calangute beaches)
- Area of interest 30 km2
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8- Work Plan
- Establishment of technical collaboration with
participating agency (Goa University) and
identification of a part of the coastal area in
Bardez taluk of North Goa for the present study. - Collection of relevant data, literature and maps.
- Field investigations
- Identification of 20 observation wells.
- Measurement of monthly groundwater level data in
observation wells (September 2004 to August
2005). - Collection of groundwater samples in September,
November 2004, January, March, April, June 2005.
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10- Laboratory analysis
- Measurement of salinity for collected
groundwater samples in the laboratory. - Based upon bi-monthly measurements of
salinity, groundwater quality in all the
observation wells was found to be reasonably
fresh, both in pre- and post-monsoon periods. - It can be attributed to the fact that the
transition zone of fresh water-saline water lies
below the shallow open wells, as evidenced by
vertical electrical soundings.
11- Resistivity Profiling and Sounding
- To know the distribution of salt-water/fresh-water
interface - - Resistivity profiling Apparent electrical
resistivity measured along four profiles (Anjuna,
Baga, Calangute and Candolim) from sea coast to
525 meters inland. - Vertical electrical sounding Carried out at 7
monitoring well locations upto a depth of 20
metres. - Results of resistivity profiling and vertical
electrical sounding have been presented in
forthcoming slides.
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14- Modelling Software Package
- A sophisticated finite-element package for
simulating 3D fluid density-coupled flow and
contaminant mass (salinity) in the subsurface.
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16- Model Setup
- Digitization of the study area map
- Creation of finite element mesh
- Design of slices and layers (3D model)
- Flow data (initials, boundaries, materials)
- Transport data (initials, boundaries, materials)
17Digitized Map Observation Wells
18Finite Element Mesh
(Initially, the model was setup with 734 nodes
and 607 elements)
Nodes 32053 Elements 52656 Total Area
73.796 km2
19Topography
Reference zero elevation (datum) 50 m below MSL
20Initial Head Distribution
Reference zero elevation (datum) 50 m below MSL
21Hydraulic Conductivity
Measured at 6 locations in the study area (3.3 to
31.6 m/d or 0.381e-4 to 3.657 e-4 m/s) - Data
regionalization through Akima inter/extra-polation
.
22Groundwater Draft Recharge
Density 25 wells / km2 Average annual gw draft
per structure 0.65 ha-m Rainfall
Recharge Laterite 7 Alluvium 10
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24- Initially, the model was setup with 734 nodes and
607 elements and trial simulation run was made. - However, it caused numerical oscillations.
Therefore, the entire mesh was re-created with
32053 nodes and 52656 elements and all the
subsequent steps were repeated.
25FEFLOW Problem Summary Dimension Three-Dimens
ional Type Saturated media (groundwater) Numbe
r of Layers 6 Number of Slices 7 Projection
None (3D with free surface) Problem
Class Combined flow and mass transport Time
Class Unsteady flow Unsteady mass
transport Upwinding Full upwinding Element
Type 6-noded triangular prism Mesh
Elements 52656 Mesh Nodes 32053 Incorporate
fluid viscosity dependencies Extended Boussinesq
approximation applied to density coupling Time
Stepping Scheme Automatic time step
control via predictor-corrector schemes - Forward
Adams-Bashforth/backward trapezoid (AB/TR time
integration scheme) Initial time step
length 0.001 d Final time 3650
d Unconfined (phreatic) aquifer(s) Slice
No. Status 1 Free movable
2 Unspecified 3 Unspecified
4 Unspecified 5 Unspecified
6 Fixed 7 Fixed
26Three-dimensional Fringes for Hydraulic Head at
the End of Simulation Period
27Three-dimensional Plot for Mass Distribution
28Mass at Top Section
29Mass at Middle Section
30Mass at Bottom Section
31Simulated Extent of Seawater Intrusion
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33Conclusions
- Presently, seawater intrusion in Bardez taluk of
North Goa is confined only upto 290 m from the
coast under normal rainfall conditions and
present draft pattern. It may slightly extend
farther for low rainfall years. - Seawater intrusion may further advance inland if
withdrawals of groundwater by builders, hotels
and other tourist establishments continue to
increase in the coming years. - Groundwater salinity needs to be continuously
monitored near the coastal area, especially
within 2 km from the coast. - Corrective measures with proper planning and
management of groundwater resources in the area
need to be initiated so that it may not turn to
be a major water quality problem in the coming
times.
34Thanks...