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Fastställande av lineamentens karaktär med avseende på bergkvalitet enligt Qbas och RMRbas inför tunnel-konstruktion i Solna, Stockholm samt kvalitetsutvärdering av Astrock hyperdata report / Determining the Characteristics of the Lineaments in Terms of Rock Quality According to Qbase and RMRbase Prior to Tunnel Construction in Solna, Stockholm, and Quality Evaluation of Astrock Hyperdata ReportBurefalk Strauss, Martin, Rosko, Samuel January 2016 (has links)
Sweden's population is increasing every year, which means that cities must adapt their infrastructure to be able to follow the demographic trend. In the current situation, Stockholm plans a major expansion of its metro network where evaluating the bedrock quality is of paramount importance. For the new SL metro connection project Gula linjen that stretches between Odenplan and Arenastaden in Solna, the company WSP has previously done quality surveys of the bedrock in the area and dimensioning of the reinforcements in the planned tunnels. Previous survey of the lineaments and weakness zones in the area has been done by means of core drilling and observations in the field. This study examines if the lineaments in the area are associated to any structures below ground surface in the bedrock by examining rock samples from drill cores. A digital presentation tool called Astrock hyperdata report is evaluated in this study by comparing manual measurements of the orientation of the joints in drill cores and the software´s measurements. The studied bedrock in the drill cores varies in quality from very poor to very good. Further examinations of zones of particularly poor rock quality done in this study suggest that the two identified lineaments have different characteristics. The north-west/south-east lineament which runs parallel to the planned metro route is indicated to represent the surface trace of a water-bearing fracture zone in the bedrock. The lineament with the E/W direction is dominated by structures and fault rocks, such as fault gouge and crushed rock in the drill cores, which indicates a brittle deformation zone. For the Gula linjen project, this information becomes useful as the underground reinforcements such as bolting and grouting have to / Sveriges befolkning ökar varje år, vilket gör att städer måste anpassas och expandera för att kunna följa den demografiska utvecklingen. I Stockholm planeras i dagsläget en stor utbyggnad av dess tunnelbanenätverk där det sker mycket arbete kring utvärdering av berggrunden för att göra detta möjligt. För Stockholms lokaltrafiks (SL) tunnelbaneprojektet Gula linjen som ska gå mellan Odenplan och Solna har företaget WSP tidigare gjort kvalitetsundersökningar av berggrunden i området samt dimensioneringar av förstärkningar i de planerade tunnlarna. Studier av svaghetzoner och lineamenten i området har gjorts med hjälp av kärnborrning och fältobservationer. Denna studie undersöker om lineamenten som finns i området är kopplade till strukturer längre ner i berggrunden genom att undersöka bergprov i form av borrkärnor. Som komplement har det digitala redovisningsverktyget Astrock hyperdata report använts för att kunna jämföra strukturer i berget med de egna mätningarna i studien. Programmet kommer även att utvärderas i studien. De erhållna värdena från undersökningen på borrkärnorna varierar i kvalitet från väldigt dålig till väldigt bra. Närmare studier på zoner av särskilt dålig kvalitet tyder på att de båda lineamenten karaktäriseras av olika typer av strukturer. Det nordväst-/sydöstliga lineamentet, som går parallellt med den planerade tunnelbanesträckan, domineras av strukturer som tyder på att lineamentet representerar en vattenförande sprickzon under markytan. I lineamentet med öst-västlig riktning dominerar strukturer som tyder på förekomsten av en förkastningszon. För projektet Gula linjen blir denna information användbar då den vattenförande sprickzonen kan innebära att tunnelförstärkning med injektering måste göras för ytterligare skydd mot vatteninträngning.
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Determination and applications of rock quality designation (RQD)Zhang, Lianyang 06 1900 (has links)
Characterization of rock masses and evaluation of their mechanical properties are important and challenging tasks in rock mechanics and rock engineering. Since in many cases rock quality designation (RQD) is the only rock mass classification index available, this paper outlines the key aspects on determination of RQD and evaluates the empirical methods based on RQD for determining the deformation modulus and unconfined compressive strength of rock masses. First, various methods for determining RQD are presented and the effects of different factors on determination of RQD are highlighted. Then, the empirical methods based on RQD for determining the deformation modulus and unconfined compressive strength of rock masses are briefly reviewed. Finally, the empirical methods based on RQD are used to determine the deformation modulus and unconfined compressive strength of rock masses at five different sites including 13 cases, and the results are compared with those obtained by other empirical methods based on rock mass classification indices such as rock mass rating (RMR), Q-system (Q) and geological strength index (GSI). It is shown that the empirical methods based on RQD tend to give deformation modulus values close to the lower bound (conservative) and unconfined compressive strength values in the middle of the corresponding values from different empirical methods based on RMR, Q and GSI. The empirical methods based on RQD provide a convenient way for estimating the mechanical properties of rock masses but, whenever possible, they should be used together with other empirical methods based on RMR, Q and GSI. (C) 2016 Institute of Rock and Soil Mechanics, Chinese Academy of Sciences. Production and hosting by Elsevier B.V.
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Rörelseriktning på förkastningszoner i Stocksund och Södermalm / Displacement in Fault Zones in Stocksund and SödermalmOlausson, Hanna January 2018 (has links)
Stockholm stad är inne i en expansiv fas. En växande befolkning ökar inte bara behovet av ett mer ansvarsfullt markanvändande utan också en välfungerande infrastruktur. Med avseende på detta så har det de senaste åren skett och fortsätter ske, en rad större projekt som inkluderar arbete både direkt i och i nära anslutning till berg. Detta ställer höga krav på förståelse för det berg man jobbar i och därför utförs noggranna geologiska undersökningar innan ett projektarbete tar vid. Denna studie fokuserar på två sådana områden där mycket infrastrukturell aktivitet i berg har förekommit de senaste åren. Undersökningsområde nummer 1 är Stocksund och innehåller data som tagits fram i samband med utbyggnaden av elnätet i projekt City link. Område nummer 2 är Slussen på Södermalm med information som erhållits i samband med ombyggnationen av trafikplatsen. Då omfattande förundersökningar och kartläggningar har gjorts för respektive område har redan befintliga data kunnat användas på nytt i detta arbete. Studien har som syfte att undersöka tidigare förkastningar och deras rörelseriktningar i området. För att göra detta har borrkärnor från respektive lokal analyserats för att hitta rörelseindikatorer som kan påvisa hur förkastningen såg ut när den skedde. Slickenside är en typ av rörelseindikator som kan användas för detta ändamål. I varje borrkärna hittades fem stycken ytor som uppvisade slickenside och som därför har undersökts vidare. / The city of Stockholm is in a phase of expansion. A growing population does not only increase the need of a more responsible usage of land areal but also the need of a high functioning infrastructure. Due to this development a lot of large-scale projects including work in direct and in close contact to rock have been performed or are currently underway. This demands a great deal of knowledge on the certain rock-types involved in said projects and therefore thorough geological investigation takes places before any project can start. This study will focus on two of these areas where a lot of infrastructural activity in rocks have taken place during recent years. Examination area one is in Stocksund and contains data that was maintained in connection with the expansion of the power grid called project “City link”. Area two is located in Slussen, Södermalm where the information comes from the major reconstruction of the traffic juncture. Since several investigations and surveys have been conducted, old data from earlier projects has proven useful for this study. The study aims to investigate previous faults and their sense of movement in the area. In order to do so, drill cores from each site have been analyzed in order to find sense indicators that can provide information about the fault. Slickenside is a kinematic indicator that can be used for this. Each area had one drill core and in each of them five slickensides were identified and examined further.
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Source rock characterization of the organic rich intervals of the Taranaki Basin, Offshore New ZealandAmansure, Giovanni Ricardo January 2015 (has links)
>Magister Scientiae - MSc / The Taranaki Basin is a large (ca. 330,000 km²) sedimentary basin found along the west coast of the northern island of New Zealand. The basin lies partly onshore but mostly offshore below the broad continental shelf to the west of central North Island. The Taranaki Basin is the first sedimentary basin to be explored in New Zealand and is currently New Zealand’s only hydrocarbon producing basin, with approximately 418 million barrels (MMbbl) of oil and 6190 billion cubic feet (bcf) of gas produced by the end of 2011. Most of New Zealand’s known oil and gas accumulations are geochemically typed to coaly facies of Late Cretaceous and Paleogene ages. The main objective of this thesis is to characterize the source rock quality of the organic rich intervals of the Taranaki Basin, namely, the Wainui Member of the North Cape Formation and the Rakopi Formation. The Rakopi Formation comprises terrestrially deposited coal measures, while the North Cape Formation is generally composed of marine rocks. These Formations make up the Pakawau Group. The objective will be achieved using two key methods. Firstly, the derivation of TOC logs using Passey’s log overlay method (Passey et al., 1990) and secondly, the generation of source rock quality maps (i.e. source rock richness mapping and source potential index mapping). This will integrate concepts relating to petrophysical wireline logs, seismic interpretation, core log information, geochemical analysis, depth mapping and isopach mapping. The results obtained from this study confirms the petroleum potential of the organic rich intervals of the Taranaki Basin. Using Passey’s method it was shown that excellent average percent TOC values are encountered for both the Wainui Member of the North Cape Formation and the Rakopi Formation. From source potential index mapping, it can be concluded that the Rakopi formation has a high source potential index (>1000SPI) on the continental shelf, which indicates that it has excellent potential for petroleum generation. The Wainui Member however, shows less potential for petroleum generation on the shelf, this being attributed to generally low net thicknesses on the shelf.
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