The International Continental Scientific Drilling Program (ICDP) performed a dual-phase scientific drilling project called Collisional Orogeny in the Scandinavian Caledonides (COSC), to investigate mountain-building processes in the central Scandinavian Caledonides. The borehole COSC-1 was drilled through the Lower Seve Nappe, as the first of two 2.5 km deep drill holes close to Åre, central Sweden. As support for the COSC drilling project, an extensive seismic survey took place in 2014 in and around the newly drilled borehole COSC-1. The active seismic survey, among others, consisted of a high-resolution Zero-Offset Vertical Seismic Profiling (ZOVSP) experiment where seismic receivers were placed inside the borehole. For the seismic source signal a hydraulic hammer source (VIBSIST 3000) was used and activated over a period of 20 s as a sequence of impacts with increasing hit frequency. The wavefield was recorded in the borehole by 15 three-component receivers using a Sercel Slimwave geophone chain with an inter-tool spacing of 10 m. The ZOVSP was designed to result in a geophone spacing of 2 m over the whole borehole length. The source was about 30 meters away from the borehole. For component rotation, a check shot position was located about 1.9 km away from the borehole. This data set contains two data sets: (1) the decoded, pre-processed three-component shot gather, and (2) the final-processed shot gather of only the vertical component.
The Collisional Orogeny in the Scandinavian Caledonides (COSC) scientific drilling project focuses on mountain building processes in a major mid-Paleozoic orogen in western Scandinavia and its comparison with modern analogues. The transport and emplacement of subduction-related highgrade continent-ocean transition (COT) complexes onto the Baltoscandian platform and their influence on the underlying allochthons and basement is being studied in a section provided by two fully cored 2.5 km deep drill holes. These operational data sets concern the second drill site, COSC-2 (boreholes ICDP 5054-2-A and 5054-2-B), drilled from mid April to early August 2020. COSC-2 is located approximately 20 km eastsoutheast of COSC-1, close to the southern shore of Lake Liten between Järpen and Mörsil in Jämtland, Sweden. COSC-2 drilling started at a tectonostratigraphic level slightly below that at COSC-1’s total depth. It has sampled the Lower Allochthon, the main Caledonian décollement and the underlying basement of the Fennoscandian Shield, including its Neoproterozoic and possibly older sedimentary cover. COSC-2 A reached 2276 m driller's depth with nearly 100 % core recovery between 100 m and total depth. COSC-2 B, with a driller’s depth of 116 m, covers the uppermost part of the section that was not cored in COSC-2 A. The operational data sets include the drill core documentation from the drilling information system (mDIS), full round core scans, MSCL data sets, a preliminary core description and the geophysical downhole logging data that were acquired during and subsequent to the drilling operations. All downhole logs and core depth were subject to depth correction to a common depth master (cf. operational report for detailed information). The COSC-2 drill core is archived at the Core Repository for Scientific Drilling at the Federal Institute for Geosciences and Natural Resources (BGR), Wilhelmstr. 25–30, 13593 Berlin (Spandau), Germany.
This is an updated version of Lorenz et al. (2015) and includes corrected locations of the boreholes and the core depths (for details see Lorenz et al., 2019,http://doi.org/10.2312/ICDP.5054.002), and newly provides access to the core scans in high resolution (uncompressed jpg format).The Collisional Orogeny in the Scandinavian Caledonides (COSC) scientific drilling project focuses on mountain building processes in a major mid-Paleozoic orogen in western Scandinavia and its comparison with modern analogues. The transport and emplacement of subduction-related highgrade continent-ocean transition (COT) complexes onto the Baltoscandian platform and their influence on the underlying allochthons and basement will be studied in a section provided by two fully cored 2.5 km deep drill holes. This operational report concerns the first drill hole, COSC-1 (ICDP 5054-1-A), drilled from early May to late August 2014.COSC-1 is located in the vicinity of the abandoned Fröå mine, close to the town of Åre in Jämtland, Sweden and was planned to sample a thick section of the Seve Nappe and to penetrate its basal thrust zone into the underlying lower grade metamorphosed allochthon. Despite substantial technical problems, the drill hole reached 2495.8 m driller's depth and nearly 100 % core recovery was achieved. Surprising was the homogeneity of the Seve Nappe rocks, the unexpected thickness of its basal thrust zone (> 500 m) and that the drill hole, therefore, did not penetrate the bottom of the thrust zone. However, lower grade metasedimentary rocks were encountered in the lowermost part of the drill hole together with tens of metres thick mylonites that are, unexpectedly, rich in large garnets.The drill core was documented on-site and XRF scanned off site. During various stages of the drilling, the borehole was documented by comprehensive downhole logging. The operational report provides an overview over the COSC-1 operations from drilling preparations to the sampling party and describes the available datasets and sample material.
The International Continental Scientific Drilling Program (ICDP) performed a dual-phase scientific drilling project to investigate mountain-building processes called Collisional Orogeny in the Scandinavian Caledonides (COSC). The borehole COSC-1 was drilled through the Lower Seve Nappe, as the first of two 2.5 km deep drill holes close to Åre, central Sweden. The recovered rocks comprise a 1650 m thick suite of high grade gneisses and amphibolites with clear Seve Nappe affinities, while the lower 850 m comprise rather homogenous mylonitic gneisses with interfingered K-rich phyllonite bands of cm to several m size and some intercalated amphibolites. The different lithologies all crosscut the core in a subhorizontal direction with foliation of gneisses and phyllonites in the same direction. Albite and garnet porphyroblasts with pressure shadows show syn-deformational growth and the same sub-horizontal alignment. The focus of this study was to detect chemical and mineralogical differences in mylonitic and host rocks and to relate these differences to either metasomatism and deformation or inherited source rock variance. Another goal of this work is to compare chemical core scanning instruments. For this purpose two different X-Ray Fluorescence (XRF) techniques, Laser Induced Breakdown Spectroscopy (LIBS) and hyperspectral imaging served to measure seven samples from the lower 850 m of the COSC-1 core. This data publication comprises the datasets gained in the course of this study. The metadata (OF WHAT?) will be presented in an additional file including XRF data from the Avaatech XRF core scanner in a txt.file as well as datasets of the other used devices in original file formats.
The Collisional Orogeny in the Scandinavian Caledonides (COSC) scientific drilling project focuses on mountain building processes in a major mid-Paleozoic orogen in western Scandinavia and its comparison with modern analogues. The transport and emplacement of subduction-related highgrade continent-ocean transition (COT) complexes onto the Baltoscandian platform and their influence on the underlying allochthons and basement will be studied in a section provided by two fully cored 2.5 km deep drill holes. This operational report concerns the first drill hole, COSC-1 (ICDP 5054-1-A), drilled from early May to late August 2014.COSC-1 is located in the vicinity of the abandoned Fröå mine, close to the town of Åre in Jämtland, Sweden and was planned to sample a thick section of the Seve Nappe and to penetrate its basal thrust zone into the underlying lower grade metamorphosed allochthon. Despite substantial technical problems, the drill hole reached 2495.8 m driller's depth and nearly 100 % core recovery was achieved. Surprising was the homogeneity of the Seve Nappe rocks, the unexpected thickness of its basal thrust zone (> 500 m) and that the drill hole, therefore, did not penetrate the bottom of the thrust zone. However, lower grade metasedimentary rocks were encountered in the lowermost part of the drill hole together with tens of metres thick mylonites that are, unexpectedly, rich in large garnets.The drill core was documented on-site and XRF scanned off site. During various stages of the drilling, the borehole was documented by comprehensive downhole logging. This operational report provides an overview over the COSC-1 operations from drilling preparations to the sampling party and describes the available datasets and sample material.
Objective: Development and test operation of a new waste utilization system (radiation boiler) and of further new components for pressurized entrained flow gasification (PRENFLO). The new components besides the radiation boiler were a candle filter (dry dedusting of PRENFLO raw gas), a fly ash recycle system, a catalytic COS hydrolysis and a raw gas desulfurization system (MDEA process). General Information: The partial oxidation of solid fuels according to the entrained-flow principle (PRENFLO process) is an exothermic process, approx. 20 per cent of the gross calorific value of the fuel being converted into sensible heat. Utilization of this large quantity of heat released is indispensible for the energetically optimum of the PRENFLO process in industrial-scale applications. The raw gas leaves the gasifier at a temperature of approx. 1400 deg. C, highly laden - about 160 g/m3 (24 bar) with small molten or doughy ash particles. The heat utilization concept realized to date at Krupp Koppers comprises the cooling of raw gas at the outlet of the gasifier with quench gas to temperatures of less than 1000 deg. C resulting in higher heat losses at temperatures below 250 deg. C. The hot gas quenching can be avoided by using the new waste heat utilization system for dust-laden PRENFLO raw gas with high optical density. It is based on a radiation boiler with built-in heat exchange elements, the arrangement of which takes account of the temperature and flow profile of the hot raw gas leaving the reactor. Results from the operation of a 48 t/d PRENFLO plant with regard to slag separation in the gasifier, effectiveness of mechanical dedusting devices, decoupling of radiation boiler from gasifier to take account of the vibrational properties (mechanical cleaning device for heat exchangers), and theoretical investigations on heat exchange for optically dense fluids indicated the possibilities of preventing energy losses by quench gas cooling of raw gas. Optimization of the system with regard to the spacing of the heat exchange elements, the cleaning and the geometry of the system result in lower overall height and anticipate efficiency improvements if the system is applied in a CC-power plant. The dry dedusting of PRENFLO gas allows fly ash recycling to the gasifier, thereby a total slagging of the coal ash and a total carbon conversion can be achieved. A high effective filtering system reduces heat losses with the raw gas, when hot dedusted gas from the filter is recycled as quench gas. A candle filter and a pneumatic fly ash recycle system was planned, built and tested. For the desulfurization of the PRENFLO gas a catalytic COS hydrolysis (conversion of COS to H2S) and a H2S absorber (MDEA process) were installed in the test plant to proof the reliability of these process stages for PRENFLO gas in a wide range of operating conditions and to take account of the gas and solid traces in the gas to be treated. Testing and optimization of the waste heat...
Modeling the involved stakeholders' characteristic goals, strategies and rules of behavior allows to estimate efficacy or potential risks of past and actual engineering- and management concepts. The study is driven by the observable shift from security- to cost-centered strategies of utilities and the difficulty to gain flexibility while balancing technical and financial needs of an uncertain future. An agent-based model is developed, calibrated with domain knowledge from involved experts, documented in a rule-catalogue, and validated in part with real data sets of a water utility. Despite the complexity of the depicted system, simple model rules are able to reproduce in general the development of both capacity and cost related parameters. Scenario simulations show the effects of different strategies on key-parameters such as capacity, water price or financial dept.
Develop and evaluate appropriate and efficient biological processes, based on the use of higher plants and agronomic techniques to remove, contain or render environmental contaminants toxic metals and recalcitrant organic pollutants in wastewaters and sites heavily impacted by industry.
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