• Diffusion of gas mixtures in the sI hydrate structure 

      Waage, Magnus Heskestad; Trinh, Thuat; van Erp, Titus Sebastiaan (Journal article; Peer reviewed, 2018)
      Replacing methane with carbon dioxide in gas hydrates has been suggested as a way of harvesting methane, while at the same time storing carbon dioxide. Experimental evidence suggests that this process is facilitated if gas ...
    • Harnessing thermoelectric power from transient heat sources: Waste heat recovery from silicon production 

      Savani, Isha; Waage, Magnus Heskestad; Børset, Marit Takla; Kjelstrup, Signe; Wilhelmsen, Øivind (Journal article; Peer reviewed, 2017)
      Thermoelectric generators (TEGs) are compact and robust devices for converting heat into electrical power. In this work, we investigate the response of a bismuth-telluride based TEG to the transient environment of a silicon ...
    • Molecular Simulations of Gas Hydrates: Stability and Transport Properties 

      Waage, Magnus Heskestad (Doctoral theses at NTNU;2018:213, Doctoral thesis, 2018)
      At high pressures, mixtures of water and gas can form a crystalline compund called a gas hydrate. A considerable amount of methane hydrate exists at the sea floor and in permafrost regions. It is desirable to harvest this ...
    • Phase Diagram of Methane and Carbon Dioxide Hydrates Computed by Monte Carlo Simulations 

      Waage, Magnus Heskestad; Vlugt, Thijs J.H.; Kjelstrup, Signe (Journal article, 2017)
      Molecular Monte Carlo simulations are used to compute the three-phase (hydrate–liquid water–gas) equilibrium lines of methane and carbon dioxide hydrates, using the Transferable Potentials for Phase Equilibria model for ...
    • Radiative corrections to van der Waals interaction in fluids 

      Waage, Magnus Heskestad (Master thesis, 2012)
      The van der Waals interaction energy is derived for a homogenous fluid of polarizable particles. Low-temperature corrections to the van der Waals interaction energy are computed numerically for three cases: Dilute media ...