�ݺ�ߣshows by User: alexandreragomes

�ݺ�ߣshows by User: alexandreragomes / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: alexandreragomes / Thu, 06 Sep 2018 00:32:47 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: alexandreragomes 2018 A. R.A, GOMES - Observ method in urban tunnelling - Sydney 2018 /slideshow/2018-a-ra-gomes-observ-method-in-urban-tunnelling-sydney-2018/113121272 2018agomesobservmethodurbantunnelling-eaatssydney21feb-180906003247
The design and construction of any underground infrastructure must inevitably deal with the inherent uncertainties associated with the ground characteristics and variability, constraints in terms of ground investigation methods and design tools, and the limitations to accurately determine tunnelling-induced ground response and potential impact to adjacent infrastructure. In view of the above, the use of the observational method is a key component in the modern design and construction of underground works, especially when those are excavated through variable and complex geology and shallow overburden conditions in an urban setting. The lecture presents a comprehensive overview of international best practices on the use of the observational method in urban tunnelling, including a discussion on why it is necessary and how it is planned and implemented in the framework of an integral geotechnical risk management. The importance and the actual use (and misuse) of the observational method in urban tunnelling is illustrated by means of worldwide case-histories.]]>
The design and construction of any underground infrastructure must inevitably deal with the inherent uncertainties associated with the ground characteristics and variability, constraints in terms of ground investigation methods and design tools, and the limitations to accurately determine tunnelling-induced ground response and potential impact to adjacent infrastructure. In view of the above, the use of the observational method is a key component in the modern design and construction of underground works, especially when those are excavated through variable and complex geology and shallow overburden conditions in an urban setting. The lecture presents a comprehensive overview of international best practices on the use of the observational method in urban tunnelling, including a discussion on why it is necessary and how it is planned and implemented in the framework of an integral geotechnical risk management. The importance and the actual use (and misuse) of the observational method in urban tunnelling is illustrated by means of worldwide case-histories.]]> Thu, 06 Sep 2018 00:32:47 GMT /slideshow/2018-a-ra-gomes-observ-method-in-urban-tunnelling-sydney-2018/113121272 alexandreragomes@slideshare.net(alexandreragomes) 2018 A. R.A, GOMES - Observ method in urban tunnelling - Sydney 2018 alexandreragomes The design and construction of any underground infrastructure must inevitably deal with the inherent uncertainties associated with the ground characteristics and variability, constraints in terms of ground investigation methods and design tools, and the limitations to accurately determine tunnelling-induced ground response and potential impact to adjacent infrastructure. In view of the above, the use of the observational method is a key component in the modern design and construction of underground works, especially when those are excavated through variable and complex geology and shallow overburden conditions in an urban setting. The lecture presents a comprehensive overview of international best practices on the use of the observational method in urban tunnelling, including a discussion on why it is necessary and how it is planned and implemented in the framework of an integral geotechnical risk management. The importance and the actual use (and misuse) of the observational method in urban tunnelling is illustrated by means of worldwide case-histories. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2018agomesobservmethodurbantunnelling-eaatssydney21feb-180906003247-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> The design and construction of any underground infrastructure must inevitably deal with the inherent uncertainties associated with the ground characteristics and variability, constraints in terms of ground investigation methods and design tools, and the limitations to accurately determine tunnelling-induced ground response and potential impact to adjacent infrastructure. In view of the above, the use of the observational method is a key component in the modern design and construction of underground works, especially when those are excavated through variable and complex geology and shallow overburden conditions in an urban setting. The lecture presents a comprehensive overview of international best practices on the use of the observational method in urban tunnelling, including a discussion on why it is necessary and how it is planned and implemented in the framework of an integral geotechnical risk management. The importance and the actual use (and misuse) of the observational method in urban tunnelling is illustrated by means of worldwide case-histories.

2018 A. R.A, GOMES - Observ method in urban tunnelling - Sydney 2018 from Alexandre R.A. Gomes

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0 https://cdn.slidesharecdn.com/profile-photo-alexandreragomes-48x48.jpg?cb=1723166171 30 years international experience in the design and construction of tunnel and underground works and applied geotechnical and geomechanical engineering. During his career, Alex has worked on major tunnel projects across Europe, Asia, Australasia and the Americas, gaining an impressive and extensive experience in a broad range of tunnelling conditions, methodologies and project types, including involvement in projects for 11 subway and 6 railway systems, 16 road tunnels, over 17 mining underground infrastructure projects and 12 hydropower plant projects, among other projects for utilities and water. www.smec.com