Field and Numerical Study of Vibration on Existing Berthing Structure Due to Pile Driving
01 Jan 2019-pp 877-887
TL;DR: In this article, a field test was conducted at Tuticorin where the chiseling process was going on adjacent to an existing berthing structure and the vibration measurements were found to be much lesser than permissible limits, and hence, the structure is safe.
Abstract: The tremendous inflow of goods from different parts of the world to ports in India has created an increased demand for renovation of existing berthing structure and also extension of the port. The ports have to be extended so as to harbour large number of incoming vessels. The extension will have to be near the existing berth in order to get proper connectivity to other port facilities and also to obtain the pros of site like the water depth requirement and water area protection. The new berthing structure construction involves several vibratory processes like chiselling and pile driving. These construction activities cause vibration on adjacent berthing structure which may lead to non-serviceability of those. Hence, it is essential to find that these lie much below the permissible limits. The field test was done at Tuticorin where the chiselling process was going on adjacent to an existing berthing structure. The site predominantly had weathered basalt rock, and this has to be bored using chisel before concreting. The vibration measurement was taken at the deck of adjacent existing berthing structure. This was repeated by placing instrument at various distances from pile on deck. The geophone, a vibration-measuring instrument, records vibration and peak particle velocity along all the three perpendicular directions, i.e. transverse, longitudinal and vertical directions. The vibration measurements were found to be much lesser than permissible limits, and hence, the structure is safe. The site details, pile details and pile hammer details were collected and are modelled in Plaxis to confirm that the field measurements taken were proper.
References
More filters
TL;DR: In this article, the feasibility of conducting a detailed analysis of pile driving using a finite element technique is examined, taking into account the non-linear behaviour of undrained clayey soil and tracing the penetration of the pile into the soil.
Abstract: The feasibility of conducting a detailed analysis of pile driving using a finite element technique is examined in this paper, taking into account the non-linear behaviour of undrained clayey soil and tracing the penetration of the pile into the soil. A three-dimensional model is used for this purpose, which is handled by two-dimensional analysis due to the axisymmetric nature of the problem. A non-linear time-domain dynamic analysis is performed in which the hammer blows on the pile are represented by a periodic forcing function, and the pile penetration is treated using a frictional contact slideline algorithm. The model is applied 10 the driving of a concrete pile in a clayey soil.
83 citations
Journal Article•
TL;DR: In this article, the authors present and discuss factors and working procedures that influence vibrations caused by pile driving, based on three current field tests and formerly presented experience from literature, and conclude that the factors have the highest impact on ground vibrations due to pile driving are the geotechnical conditions, the vibration generated at the source, the distance from the source and the installation method.
Abstract: Vibrations due to pile and sheet pile driving are part of a complex process involving several factors that influence both vibration magnitude and frequency. Better understanding and prediction of the vibrations generated will greatly benefit the civil engineering practice as well as the construction industry. An important component in understanding vibrations due to pile driving is to comprehend and understand working procedures and the influence of different factors. The objective is to present and discuss factors and working procedures that influence vibrations caused by pile driving, based on three current field tests and formerly presented experience from literature. It is concluded that the factors have the highest impact on ground vibrations due to pile driving are the geotechnical conditions, the vibration generated at the source, the distance from the source and the installation method.
5 citations