Publications
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New and accurate thermodynamic property data of CO
2 -EGS relevant working fluids with data fitted to existing thermodynamic models Read publication - Two-capillary viscometer for temperatures and pressures relevant to CO2 capture, transport, and storage—operation and improved analysis at high pressure Read publication
- A two-capillary viscometer for temperatures up to 473 K and pressures up to 100 MPa—operation and verification at low pressure
- Measurements of the Viscosity of Hydrogen and a (Hydrogen + Methane) Mixture with a Two-Capillary Viscometer Read publication
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Depressurization of CO
2 in a pipe: Effect of initial state on non-equilibrium two-phase flow Read publication - A new facility for viscosity and density measurements for CO2 – rich mixtures relevant for CO2 transport and storage
- Experiments and modelling of choked flow of CO2 in orifices and nozzles Read publication
- Investigation of non-equilibrium effects during the depressurization of carbon dioxide Read publication
- Heat transfer characteristics of CO2 condensation on common heat exchanger materials: Method development and experimental results Read publication
- A new facility on accurate viscosity and density measurements Read publication
Other
- A new facility for viscosity measurements of CO2- rich mixtures at conditions relevant to CO2 capture, transport, and storage
- Depressurization of dense phase CO2 in pipes at different initial temperatures: Non-equilibrium effects
- Analysis of pressure and temperature dynamics during depressurization of a pipe filled with a CO2-HE or CO2-N2 mixture
- Impact of CO2 impurities and additives on thermophysical properties in CCS (ImpreCCS): Viscosity & density measurement
- Nanostructured surfaces for efficient liquefaction of CO2
- A new experimental facility for decompression of CO2 and CO2-rich mixtures
- Need and Measurements of Accurate Thermodynamic Data for CCS
- Efficient Liquefaction of Carbon Dioxide on Superomniphobic Surfaces
- Accurate Phase Equilibrium Measurements for CCS Using an Analytical Method
- Superlyophobic surfaces for increased heat transfer during condensation of CO₂
