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    • CEMCAP – Making CO2 Capture Retrofittable to Cement Plants 

      Jordal, Aina Benedikte Kristin; Voldsund, Mari; Størset, Sigmund Østtveit; Fleiger, Kristina; Ruppert, Johannes; Spörl, Reinhold; Hornberger, Matthias; Cinti, Giovanni (Journal article; Peer reviewed, 2017)
      CEMCAP (http://www.sintef.no/cemcap/) is an EU Horizon 2020 project that aims at maturing CO2 capture technologies suitable for retrofitting to existing cement plants by undertaking pilot-scale demonstration under industrially ...

    • Cement Placement: An Overview of Fluid Displacement Techniques and Modelling 

      Foroushan, Hanieh K.; Lund, Bjørnar; Ytrehus, Jan David; Saasen, Arild (Peer reviewed; Journal article, 2021)
      During drilling operations, effective displacement of fluids can provide high-quality cementing jobs, ensuring zonal isolation and strong bonding of cement with casing and formation. Poor cement placements due to incomplete ...

    • Cement Self-Healing as a Result of CO2 Leakage 

      Kjøller, Claus; Lykourgos, Sigalas; Frykman, Peter; Bjørge, Ruben; Torsæter, Malin (Peer reviewed; Journal article, 2016)
      Avoiding CO2 leakages from storage reservoirs is crucial to ensure safe and cost-efficient Carbon Capture and Storage (CCS). This can only be done if effort is made to maintain well integrity throughout the entire life-cycle ...

    • CenBio : Bioenergy Innovation Centre - Final report 

      Sevault, Alexis; Becidan, Michael; Jordanger, Einar (Research report, 2017)

    • CenSES energy scenarios : design process and scenario description 

      Jaehnert, Stefan (SINTEF Energi. Rapport;TR A7590, Research report, 2016)

    • Centimeter-Sized Monolayer CVD Graphene with High Power Factor for Scalable Thermoelectric Applications 

      Schrade, Matthias; Xing, Wen; Thorshaug, Knut; Belle, Branson (Peer reviewed; Journal article, 2022)
      Among the many extraordinary qualities of graphene, its thermoelectric properties have attracted significant interest, for example, in active cooling applications. Here, we report on the thermoelectric transport properties ...

    • Centralized vs Decentralized Production Planning in ETO Environments: A Theoretical Discussion 

      Nujen, Bella B.; Alfnes, Erlend; Mwesiumo, Deodat Edward; Gran, Erik (Chapter, 2022)
      The characteristics of ETO production call for further analysis to investigate the implications of traditional (deterministic) systems of planning i.e., centralized, and hierarchal, compared with decentralized systems. ...

    • Cerman: Software for simulating streamer propagation in dielectric liquids based on the Townsend–Meek criterion 

      Madshaven, Inge; Hestad, Øystein Leif Gurandsrud; Åstrand, Per-Olof (Peer reviewed; Journal article, 2021)
      We present a software to simulate the propagation of positive streamers in dielectric liquids. Such liquids are commonly used for electric insulation of high-power equipment. We simulate electrical breakdown in a needle–plane ...

    • Certifying the public image? Reputational gains of certification in Norwegian salmon aquaculture 

      Olsen, Marit Schei; Thorvaldsen, Trine; Osmundsen, Tonje C. (Peer reviewed; Journal article, 2021)
      The Norwegian aquaculture industry faces pressure from stakeholders, the public, and government to ensure sustainable production. Sustainability is closely linked with solving key environmental challenges. Standards such ...

    • A CFD analysis for the performance assessment of a novel design of plates-in-tank latent storage unit for freezing applications 

      Selvnes, Håkon; Allouche, Yosr; Sevault, Alexis; Hafner, Armin (Science et technique du froid;2019-1, Chapter; Peer reviewed, 2019)

    • CFD APPROACH TO SIMULATE TWO PHASE FLOW INLINE-SEPARATOR COUPLING IBM, LES, LAGRANGIAN TRACKING AND VOF METHODS 

      ATMANI, Hanane; ZAMANSKY, Rémi; CLIMENT, Eric; LEGENDRE, Dominique (SINTEF Proceedings;6, Chapter; Peer reviewed, 2020)
      x Inline fluid separation using a swirl element is a recent technology for oil/gas processing. Centrifugal forces up to 100 times the gravitational acceleration separate the phases, leaving the heavy phase close to the ...

    • CFD based study of dense medium drum separation processes 

      Eggers, Arne; Baelmans, Martine; Vanierschot, Maarten (SINTEF Proceedings;2, Chapter; Conference object; Peer reviewed, 2017)
      Dense Medium Drum (DMD) separation is applied particularly in the coal and recycling industries. Characteristic of the process is a separation based on density, driven by the buoyancy and gravitational forces acting on an ...

    • CFD Erosion Modeling of Blind Tees 

      Sanchis, Arnaud; Skorgen, Alexander (SINTEF Proceedings;2, Chapter; Conference object; Peer reviewed, 2017)
      In subsea components such as Production Trees (XT) where the production flow path is machined out of steel blocks, the flow changes direction abruptly at blind tees or sharp elbows, causing increased erosion risks compared ...

    • CFD modeling of a commercial‐size circle‐draft biomass gasifier 

      Liu, Hui; Cattolica, Robert J.; Seiser, Reinhard; Liao, Chang-hsien; Summers, Matthew (SINTEF Proceedings;2, Chapter; Conference object; Peer reviewed, 2017)
      This work was focused on a commercial-size (2MWth.) circle-draft biomass gasifier. In this work a threedimensional transient CFD (computational fluid dynamics) model was established to simulate the circledraft biomass ...

    • CFD modeling of dynamic emulsion stability 

      Patil, A.V.; Johansen, S.T. (SINTEF Proceedings;2, Chapter; Conference object; Peer reviewed, 2017)
      Assuring transport and separation of oil and water crude emulsions is of significant importance to the oil and gas industries. The crude oil, due to its profuse chemical composition, has complex dispersion and emulsion ...

    • CFD modeling of oil-water separation efficiency in three-phase separators 

      Oshinowo, Lanre; Elsaadawy, Ehab; Vilagines, Regis (SINTEF Proceedings;1, Chapter; Conference object; Peer reviewed, 2015)
      Variations in oil properties or water content influence the rate of crude oil-water separation. This presents a challenge for separator operations when conditions change as fields mature, and for the design of new internals ...

    • CFD modelling of an accidental release of a methane and hydrogen sulfide mixture in an offshore platform 

      Ledda, Gianmario; Moscatello, Alberto; Uggenti, Anna Chiara; Gerboni, Raffaella; Carpignano, Andrea (SINTEF Proceedings;6, Chapter; Peer reviewed, 2020)
      Oil & Gas plants are complex systems involving dangerous substances, potential origin of severe accidental scenarios. Therefore, according to Directive 2013/30/EU, a Risk Assessment (RA) is mandatory. A fundamental step ...

    • CFD modelling of gas entrainment at a propagating slug front 

      Hua, Jinsong; Nordbø, Jørgen; Foss, Martin (SINTEF Proceedings;1, Chapter, 2015)
      Slug flow is encountered frequently during multiphase fluid transport in pipes. The gas entrainment process at a slug front significantly affects the hydrodynamic behaviour of slug flows. Due to the complexity of the flow ...

    • CFD modelling to predict mass transfer in pulsed sieve plate extraction columns 

      Sen, Nirvik; Singh, K.K.; Patwardhan, A.W.; Mukhopadhyay, S.; Shenoy, K.T.; Mohan, S. (SINTEF Proceedings;2, Chapter; Conference object; Peer reviewed, 2017)
      A 2D CFD-PBM based numerical model to predict interphase mass transfer in a Pulsed Sieve Plate Column (PSPC) is reported. The model is based on Euler-Euler interpenetrating continuum approach. Drag law due to Schiller and ...

    • CFD Simulation Delivered as SaaS for Building and HVAC Design Testing 

      Wilde, Jon (SINTEF Proceedings;5, Chapter; Peer reviewed; Conference object, 2020)
      This paper discusses the application of cloud-based simulation in the early stages of an HVAC and building design process. Its goal is to show the benefits of the technology through a thermal comfort case study. The ...