Catalogue en ligne Bibliothèque de l'Ecole Nationale Polytechnique

Les Inscriptions et les Réinscriptions à la Bibliothèque sont Ouvertes du 24/09/2024 au 30/11/2024

Nouvelle recherche Modifier la recherche Historique

Nos Abonnements

Ressources Électroniques

Performance and prediction of vacuum combined surcharge consolidation at port of brisbane / Buddhima Indraratna in Journal of geotechnical and geoenvironmental engineering, Vol. 137 N° 11 (Novembre 2011)

Performance and prediction of vacuum combined surcharge consolidation at port of brisbane [texte imprimé] / Buddhima Indraratna, Auteur ; Cholachat Rujikiatkamjorn, Auteur ; Jay Ameratunga, Auteur . - 2012 . - pp. 1009-1018.
Géotechnique
Langues : Anglais (eng)
in Journal of geotechnical and geoenvironmental engineering > Vol. 137 N° 11 (Novembre 2011) . - pp. 1009-1018
Mots-clés : Consolidation Soil improvement Vertical drains Vacuum
Résumé : During the past decade, the application of vacuum preloading for stabilizing soft coastal clay and other low-lying estuarine soils has become popular in Australia. The cost-effectiveness is a major factor in most projects in view of the significantly reduced time for achieving a relatively high degree of consolidation. Resulting from an increase in trade activities at the Port of Brisbane, new facilities on Fisherman Islands at the mouth of the Brisbane River will be constructed on the new outer area (235 ha) adjacent to the existing port facilities through land reclamation. A vacuum-assisted surcharge load and conventional surcharge scheme in conjunction with prefabricated vertical drains was selected to reduce the required consolidation time through the deeper subsoil layers. The design of the combined vacuum and surcharge fill system and the construction of the embankment are described in this paper. A comparison of the performance of the vacuum combined surcharge loading system with a standard surcharge fill highlights the clear benefits of vacuum consolidation. Field monitoring data are presented to demonstrate how the embankment performed during construction. An analytical solution for radial consolidation considering both time-dependent surcharge loading and vacuum pressure is proposed to predict the settlements and associated excess pore pressures of the soft Holocene clay deposits.
DEWEY : 624.1
ISSN : 1090-0241
En ligne : http://ascelibrary.org/gto/resource/1/jggefk/v137/i11/p1009_s1?isAuthorized=no

Les Inscriptions et les Réinscriptions à la Bibliothèque sont Ouvertes du 24/09/2024 au 30/11/2024

Nos Abonnements

Ressources Électroniques

Bibliothèque de l'Ecole Nationale Polytechnique

Accueil

Sélection de la langue

Se connecter

Adresse

Météo

Mots-clés :	Consolidation Soil improvement Vertical drains Vacuum
Résumé :	During the past decade, the application of vacuum preloading for stabilizing soft coastal clay and other low-lying estuarine soils has become popular in Australia. The cost-effectiveness is a major factor in most projects in view of the significantly reduced time for achieving a relatively high degree of consolidation. Resulting from an increase in trade activities at the Port of Brisbane, new facilities on Fisherman Islands at the mouth of the Brisbane River will be constructed on the new outer area (235 ha) adjacent to the existing port facilities through land reclamation. A vacuum-assisted surcharge load and conventional surcharge scheme in conjunction with prefabricated vertical drains was selected to reduce the required consolidation time through the deeper subsoil layers. The design of the combined vacuum and surcharge fill system and the construction of the embankment are described in this paper. A comparison of the performance of the vacuum combined surcharge loading system with a standard surcharge fill highlights the clear benefits of vacuum consolidation. Field monitoring data are presented to demonstrate how the embankment performed during construction. An analytical solution for radial consolidation considering both time-dependent surcharge loading and vacuum pressure is proposed to predict the settlements and associated excess pore pressures of the soft Holocene clay deposits.
DEWEY :	624.1
ISSN :	1090-0241
En ligne :	http://ascelibrary.org/gto/resource/1/jggefk/v137/i11/p1009_s1?isAuthorized=no