Cartografia de zonamento geotécnico em frentes de escavação de maciços rochosos heterogéneos (túnel do Marão): aplicação da classificação geomecânica GSI|2013

Este estudo pretende discutir a validade da aplicação da mais recente versão do “GSI – Geological Strength Index” (Hoek et al., 2013) em maciços rochosos heterogéneos por aplicação num projecto de obra subterrânea em execução. O estudo envolveu a caracterização geológicageotécnica nas duas frentes de escavação da frente “Poente” da empreitada de construção do Túnel do Marão (N de Portugal) tendo sido cartografados 305 metros no conjunto das duas frentes em 74 avanços consecutivos. Para esta caracterização foram coligidos e uniformizados dados geológicos, geotécnicos e geomecânicos relativos aos levantamentos realizados a cada avanço. A técnica da amostragem linear foi aplicada para a cartografia das descontinuidades que permitiu estabelecer o grau de compartimentação do maciço rochoso. Além disso, procedeu‐se a um tratamento estatístico das descontinuidades, bem como dos parâmetros geológico‐geotécnicos e geomecânicos associados. Os zonamentos geotécnicos e geomecânicos das secções em análise foram realizados sempre em estreita ligação com o conhecimento das características do maciço in situ. Procurou‐se estabelecer termos de comparação entre a versão do GSI|2013 e as versões anteriores (GSI|98, GSI|2001) por aplicação para os avanços cartografados. Pretende‐se que este trabalho contribua para um maior conhecimento da mais recente versão do “Geological Strength Index” (2013) para a sua aplicabilidade em projectos de geoengenharia.

Hydrogeomechanics for rock engineering: coupling subsurface hydrogeomechanical assessement and hydrogeotechnical mapping on fracturated rock masses

The present work aims to achieve and further develop a hydrogeomechanical approach in Caldas da Cavaca hydromineral system rock mass (Aguiar da Beira, NW Portugal), and contribute to a better understanding of the hydrogeological conceptual site model. A collection of several data, namely geology, hydrogeology, rock and soil geotechnics, borehole hydraulics and hydrogeomechanics, was retrieved from three rock slopes (Lagoa, Amores and Cancela). To accomplish a comprehensive analysis and rock engineering conceptualisation of the site, a multi‐technical approach were used, such as, field and laboratory techniques, hydrogeotechnical mapping, hydrogeomechanical zoning and hydrogeomechanical scheme classifications and indexes. In addition, a hydrogeomechanical data analysis and assessment, such as Hydro‐Potential (HP)‐Value technique, JW Joint Water Reduction index, Hydraulic Classification (HC) System were applied on rock slopes. The hydrogeomechanical zone HGMZ 1 of Lagoa slope achieved higher hydraulic conductivities with poorer rock mass quality results, followed by the hydrogeomechanical zone HGMZ 2 of Lagoa slope, with poor to fair rock mass quality and lower hydraulic parameters. In addition, Amores slope had a fair to good rock mass quality and the lowest hydraulic conductivity. The hydrogeomechanical zone HGMZ 3 of Lagoa slope, and the hydrogeomechanical zones HGMZ 1 and HGMZ 2 of Cancela slope had a fair to poor rock mass quality but were completely dry. Geographical Information Systems (GIS) mapping technologies was used in overall hydrogeological and hydrogeomechanical data integration in order to improve the hydrogeological conceptual site model.

Delineating environmental groundwater vulnerability and protection zones mapping in fractured rock masses

Hard‐rock watersheds commonly exhibit complex geological bedrock and morphological features. Hydromineral resources have relevant economic value for the thermal spas industry. The present study aims to develop a groundwater vulnerability approach in Caldas da Cavaca hydromineral system (Aguiar da Beira, Central Portugal) which has a thermal tradition that dates back to the late 19th century, and contribute to a better understanding of the hydrogeological conceptual site model. In this work different layers were overlaid, generating several thematic maps to arrive at an integrated framework of several key‐sectors in Caldas da Cavaca site. Thus, to accomplish a comprehensive analysis and conceptualization of the site, a multi‐technical approach was used, such as, field and laboratory techniques, where several data was collected, like geotectonics, hydrology and hydrogeology, hydrogeomorphology, hydrogeophysical and hydrogeomechanical zoning aiming the application of the so‐called DISCO method. All these techniques were successfully performed and a groundwater vulnerability to contamination assessment, based on GOD‐S, DRASTIC‐Fm, SINTACS, SI and DISCO indexes methodology, was delineated. Geographical Information Systems (GIS) technology was on the basis to organise and integrate the geodatabases and to produce all the thematic maps. This multi‐technical approach highlights the importance of groundwater vulnerability to contamination mapping as a tool to support hydrogeological conceptualisation, contributing to better decision‐making of water resources management and sustainability.