Presentation is loading. Please wait.

Presentation is loading. Please wait.

Numerical Simulations of Multi-Species Contaminant Transport in Variably Saturated Aquifers in Coastal Areas Presenter : Yi-Ming Wei Adviser : Chuen-Fa.

Published byDerrick Walters Modified over 9 years ago

Similar presentations

Presentation on theme: "Numerical Simulations of Multi-Species Contaminant Transport in Variably Saturated Aquifers in Coastal Areas Presenter : Yi-Ming Wei Adviser : Chuen-Fa."— Presentation transcript:

1 Numerical Simulations of Multi-Species Contaminant Transport in Variably Saturated Aquifers in Coastal Areas Presenter : Yi-Ming Wei Adviser : Chuen-Fa Ni Date : 2010/10/14

2 Outline  Introduction  Literature review  Objectives  HYDROGEOCHEM-2D model  Test example  Future work

3 Density-driven circulation (Q d ) freshwater discharge tube Tide induced circulation (Q t ) upper saline plume wave set-up driven circulation (Q w ) fresh groundwater discharge (Q f ) Introduction Reference : C. Robinson, L. Li, D.A. barry (2007)

4 Literature review Influence of seaward boundary condition on contaminant transport in unconfined coastal aquifers. (Q. Zhang et al., 2001) Tidal impacts on riparian salinities near estuaries. (Adrian D. Werner et al., 2005) Tidal influence on BTEX biodegradation in sand coastal aquifers. (D.A Barry et al., 2009)

5 Objectives Combine geochemical and hydrogeological simulated process into HYDROGEOCHEM model Figure out the impact of recharge and beach slope on solute transport in coastal aquifer.

6 HYDROGEOCHEM-2D model Include variably saturated fluid flow, heat transfer, and reactive chemical transport. Deal with equilibrium and kinetic reaction in terms of reaction networks. Incorporate the effect of precipitation /dissolution on the change of pore size, hydraulic conductivity, and diffusion/dispersion.

7 Flow Equations Reference : Yeh et al., 1994

8 The rate of mass accumulation The net rate of mass flux due to advection The net mass flux due to dispersion and diffusion The rate of mass production and reduction due to chemical reactions and radioactive decay The source/sink term corresponding to artificial injection and/or withdrawal Reactive Chemical Transport Equations Reference : Yeh, 2000

9 Test Example Pressure head = 85m 400 m 100 m Pressure head = 84m Impermeable bottom Variable boundary condition

10 1.0 mole/liter ( Br 2 ) Pressure head = 85m 400 m 100 m Pressure head = 84m Impermeable bottom No rainfall Contaminant transport in unsaturated aquifer

11 6000 day

12 Pressure head = 85m 400 m 100 m Pressure head = 84m I = 0.01 、 0.002 m/day Contaminant transport with recharge Impermeable bottom 1.0 mole/liter ( Br 2 )

13 I = 0.01 m/day I = 0.002 m/day

14 I = 0.01 m/day I = 0.002 m/day 3600 day

15 6000 day I = 0.01 m/day I = 0.002 m/day

16 Pressure head = 85m 400 m 100 m Pressure head = 84m No rainfall -1.0 m 2 /day( 抽水 ) Impermeable bottom Contaminant transport with pumping well 1.0 mole/liter ( Br 2 )

17 1140 day 3060 day

18 Contaminant transport with beach slope Pressure head = 85m 400 m 100 m Pressure head = 84m No rainfall Impermeable bottom Beach slope = 0.2 、 0.3 1.0 mole/liter ( Br 2 )

19 Beach slope = 0.2 Beach slope = 0.3

20 Beach slope = 0.2 Beach slope = 0.3 960 day

21 Beach slope = 0.2 2022 day Beach slope = 0.3

22 Future work Sea level oscillations (tidal fluctuation). Multi-species reactive transport. Geochemical reaction include precipitation, adsorption, reaction rate, and biodegradation. Aquifer heterogeneity.

23 Thanks for your attention

Download ppt "Numerical Simulations of Multi-Species Contaminant Transport in Variably Saturated Aquifers in Coastal Areas Presenter : Yi-Ming Wei Adviser : Chuen-Fa."

Similar presentations

Water Table and Aquifers

Water Table and Aquifers
Yhd Soil and Groundwater Hydrology

Yhd Soil and Groundwater Hydrology
1 Using SUB model to predict long-term land subsidence in Yunlin and Chiayi areas Presenter : Chiou-Shiang Hung Adviser : Chuen-Fa Ni Date : 2010/10/07.

1 Using SUB model to predict long-term land subsidence in Yunlin and Chiayi areas Presenter : Chiou-Shiang Hung Adviser : Chuen-Fa Ni Date : 2010/10/07.
Numerical simulations of oil contaminant transport in sandy coastal aquifers Presenter : Yi-Ming Wei Adviser : Chuen-Fa Ni Date : 2011/04/21.

Numerical simulations of oil contaminant transport in sandy coastal aquifers Presenter : Yi-Ming Wei Adviser : Chuen-Fa Ni Date : 2011/04/21.
28.1 The Hydrologic Cycle Hydrological cycle: natural circulation of water from the oceans to the air, then to the ground, then to the oceans and then.

28.1 The Hydrologic Cycle Hydrological cycle: natural circulation of water from the oceans to the air, then to the ground, then to the oceans and then.
Dongxiao Zhang Mewbourne School of Petroleum and Geological Engineering The University of Oklahoma “Probability and Materials: from Nano- to Macro-Scale”

Dongxiao Zhang Mewbourne School of Petroleum and Geological Engineering The University of Oklahoma “Probability and Materials: from Nano- to Macro-Scale”
Advanced Hydrogeology Malcolm Reeves Civil and Geological Engineering.

Advanced Hydrogeology Malcolm Reeves Civil and Geological Engineering.
A modified Lagrangian-volumes method to simulate nonlinearly and kinetically adsorbing solute transport in heterogeneous media J.-R. de Dreuzy, Ph. Davy,

A modified Lagrangian-volumes method to simulate nonlinearly and kinetically adsorbing solute transport in heterogeneous media J.-R. de Dreuzy, Ph. Davy,
Chapter 8 Fetter, Applied Hydrology 4 th Edition, 2001 Geology of Groundwater Occurrence.

Chapter 8 Fetter, Applied Hydrology 4 th Edition, 2001 Geology of Groundwater Occurrence.
Numerical Simulation of Dispersion of Density Dependent Transport in Heterogeneous Stochastic Media MSc.Nooshin Bahar Supervisor: Prof. Manfred Koch.

Numerical Simulation of Dispersion of Density Dependent Transport in Heterogeneous Stochastic Media MSc.Nooshin Bahar Supervisor: Prof. Manfred Koch.
Boundaries and Superposition

Boundaries and Superposition
Principles of Groundwater Flow

Principles of Groundwater Flow
Ground-Water Flow and Solute Transport for the PHAST Simulator Ken Kipp and David Parkhurst.

Ground-Water Flow and Solute Transport for the PHAST Simulator Ken Kipp and David Parkhurst.
C ONCLUSIONS Salt intrusion at coastline boundary is restricted to 200 m, corresponding to the sand dunes zone. The drainage system pumps yearly considerable.

C ONCLUSIONS Salt intrusion at coastline boundary is restricted to 200 m, corresponding to the sand dunes zone. The drainage system pumps yearly considerable.
Modeling of Flow and Transport in Groundwater Systems M. Sekhar Department of Civil Engineering Indian Institute of Science RESOURCE ASSESSMENT BIOREMEDIATION.

Modeling of Flow and Transport in Groundwater Systems M. Sekhar Department of Civil Engineering Indian Institute of Science RESOURCE ASSESSMENT BIOREMEDIATION.
REVIEW. What processes are represented in the governing equation that we use to represent solute transport through porous media? Advection, dispersion,

REVIEW. What processes are represented in the governing equation that we use to represent solute transport through porous media? Advection, dispersion,
8.7 Freshwater/Saltwater Interaction

8.7 Freshwater/Saltwater Interaction
Source Terms Constant Concentration Injection Well Recharge May be introduced at the boundary or in the interior of the model.

Source Terms Constant Concentration Injection Well Recharge May be introduced at the boundary or in the interior of the model.
Subsurface Hydrology Unsaturated Zone Hydrology Groundwater Hydrology (Hydrogeology )

Subsurface Hydrology Unsaturated Zone Hydrology Groundwater Hydrology (Hydrogeology )
Analytical and Numerical Solutions are affected by: Differences in conceptual model (confined vs unconfined) Dimensionality (1D vs 2D) Numerical Solutions.

Analytical and Numerical Solutions are affected by: Differences in conceptual model (confined vs unconfined) Dimensionality (1D vs 2D) Numerical Solutions.

Similar presentations

Ads by Google