Dennis van der Voort scite author profile

The Pi Cloud Chamber offers a unique opportunity to study aerosol-cloud microphysics interactions in a steady-state, turbulent environment. In this work, an atmospheric large-eddy simulation (LES) model with spectral bin microphysics is scaled down to simulate these interactions, allowing comparison with experimental results. A simple scalar flux budget model is developed and used to explore the effect of sidewalls on the bulk mixing temperature, water vapor mixing ratio, and supersaturation. The scaled simulation and the simple scalar flux budget model produce comparable bulk mixing scalar values. The LES dynamics results are compared with particle image velocimetry measurements of turbulent kinetic energy, energy dissipation rates, and large-scale oscillation frequencies from the cloud chamber. These simulated results match quantitatively to experimental results. Finally, with the bin microphysics included the LES is able to simulate steady-state cloud conditions and broadening of the cloud droplet size distributions with decreasing droplet number concentration, as observed in the experiments. The results further suggest that collision-coalescence does not contribute significantly to this broadening. This opens a path for further detailed intercomparison of laboratory and simulation results for model validation and exploration of specific physical processes.

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Luminescence of the europium(3+) ion in zirconium(4+) compounds

Voort¹,

Blasse²

1991

Chem. Mater.

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The luminescence of the Eu3+ ion in some Zr4+ compounds is reported in order to study the influence of the effectively negative charge of the Eu3+ ion on the quantum efficiency for charge-transfer excitation.This effectively negative charge of the Eu3+ ion does not in principle enhance radiationless relaxation rates in the excited charge-transfer state, but the presence of vacancies in the structure may lower the efficiency considerably. For the Eu3+ luminescence in Zr02 and ZrPzO, the quantum efficiencies amount to about 30% and 60%, respectively. In these compounds the presence of vacancies may account for these values. In LizZr03:Eu3+ with a relatively low Li+ concentration it seems as though the partial incorporation of the Eu3+ ions on a Li+ site accounts for the low efficiency (about 10% at room temperature). The incorporation of the Mg2+ ion as a charge compensator in the LizZro3 lattice increases the quantum efficiency up to at least 60%.

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Efficient Eu3+ luminescence in non-lanthanide host lattices

Alarcón

Voort

Blasse

1992

Materials Research Bulletin

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The luminescence of europium in strontium borates

Schipper

Voort

Berg

et al. 1993

Materials Chemistry and Physics

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The luminescence of europium(III) and cerium(III) in calcium sulfate: Activators with an effective charge

Voort

Blasse

1990

Journal of Solid State Chemistry

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