Assessing the use of aluminium electrodes on the electrokinetic dewatering and stabilization of dredged mud slurries
conference contribution
posted on 2018-03-15, 00:00authored byMona Malekzadeh, N Sivagukan
Every year a large amount of dredged sediments are disposed or used
for land reclamations. To reduce the time lag for construction purposes, electrokinetic
stabilization is suggested as an environmentally friendly and cost effective method to
dewater and stabilize the dredged mud deposited in the paddocks. However, the
physiochemical changes due to the electrochemical reactions in the dredged
sediments are drawbacks of this technique that need to be investigated. The type of
electrode to be used in the stabilization affects the physiochemical changes, and
therefore using the correct type of electrodes is important. Different electrodes are
used to stabilize different types of soils. Literature suggests that aluminum is a good
option as it improves the soil and causes electrochemical strengthening by inducing
Al3+ ions into the soil.
In this study, the effect of aluminum mesh electrodes on the electrokinetic
stabilization of the dredged mud is investigated. After the completion of the
electrokinetic stabilization, samples are taken from different depths and water content,
pH, electrical conductivity and atterberg limits are determined. From cathode to
anode, the liquid limit decreases and plastic limit increases significantly. Near the
anode, pH is reduced by 90% and the electrical conductivity increased. Higher salt
content is also observed near the anode at the bottom of the column. The lowest water
content and highest strength are obtained near the anode. Almost 54 % of the water is
removed from the system due to electroosmosis. Despite the electrochemical changes
in the soil, its settlement was about 17% which was not very significant; however,
variation of electric current shows that the aluminum mesh is corroded before the
settlement of the soil is completed. Therefore aluminum mesh electrodes are not
suggested to be used for electrokinetic stabilization of dredged mud sediments.
Assessing the Use of Aluminium Electrodes on the Electrokinetic Dewatering and Stabilization of Dredged Mud Slurries