ALIANCE Advance Logging Investigations of Aquifers in Coastal Environments

Country: EU Projects
Start Date:           Duration: 36 months         Project Type: RTD
Contract Number: EVK1-CT-2001-00091
Organisation Type:  EC Project
Topics: 
Contaminated land-->Risk assessment-->Models
Contaminated land-->Soil and groundwater processes-->Modelling
Groundwater protection-->Groundwater processes-->Hydrogeology
Water and sanitation-->Water and sanitation Overview
Water resources and their management -->Water resources and their management Overview
Project objectives:
In order to mitigate the risks of saline water intrusion in coastal aquifers, an integrated, multi-scalar hydrogeological characterisation of subsurface 
structures and dynamics is required. The objective of ALIANCE is to develop a strategy for the quantitative description of fluid flow and storage in the shallow
subsurface. A site-specific, detailed but cost-effective protocol will be implemented, leading to a site modeling capability associated with long-term
monitoring from pressure and electrical fields. This includes state-of-the-art geological, geochemical, petrophysical, geophysical logging and hydrological
methods, and the design of 5 new downhole sensors yielding new data for model validation. Two end-member sites in terms of hydrogeological behavior will be
set up for long-term experimentation, the testing of the new tools, and the validation of site-specific experimental and modelling protocols from µm- to 100
m-scale. Active in-situ testing from short- and longer-term injections with variable salinity fluids will simulate over-drafting or saline water intrusion.
In addition to pressure and fluid electrical conductivity, the electro-hydraulic coupling principle will be used to characterise and monitor water/brine
hydrodynamics.
Project Summary:
The goal of ALIANCE is to improve the investigation, characterisation and monitoring of coastal aquifers for vulnerability assessment. For this, ALIANCE 
proposes to develop a set of geophysical approaches for the quantitative evaluation of brine intrusion. This includes state-of-the-art geological, geochemical,
petrophysical, logging and hydrological methods, and the design of 5 new geophysical and hydrodynamical logging/testing sensors yielding new data for model
validation. Two end-member sites in terms of hydrogeological behaviour will be set up for long-term experimentation, the testing of the new tools, and the
validation of site-specific experimental and modelling protocols from µm- to 100 m-scale. Active in-situ testing from short and longer-term injections
with variable salinity fluids will simulate overdrafting or saline water intrusion. The electro-hydraulic coupling principle will be used to characterise
and monitor water/brine hydrodynamics in coastal environments.
Achieved Objectives:

            
Product Descriptions:

            
Additional Information:

            
Project Resources:
Weblink:
http://www.isteem.univ-montp2.fr/LGHF/water/ALIANCE/
Funding Programme(s): 
EC Framework Programme 5
Link to Organisations:
Submitted by: EUGRIS Team Dr Stefan Gödeke  Who does what?  18/03/2005 12:33:00
Updated by: EUGRIS Team Professor Paul Bardos  Who does what?  28/09/2006 21:08:00