Your search keyword '"Thomson, Erik S."' showing total 2 results

1. Development and characterization of the Portable Ice Nucleation Chamber 2 (PINCii).

Author

Castarède, Dimitri, Brasseur, Zoé, Wu, Yusheng, Kanji, Zamin A., Hartmann, Markus, Ahonen, Lauri, Bilde, Merete, Kulmala, Markku, Petäjä, Tuukka, Pettersson, Jan B. C., Sierau, Berko, Stetzer, Olaf, Stratmann, Frank, Svenningsson, Birgitta, Swietlicki, Erik, Thu Nguyen, Quynh, Duplissy, Jonathan, and Thomson, Erik S.

Subjects

ICE crystals, NUCLEATION, HUMIDITY, CRYSTAL growth, ICE

Abstract

The Portable Ice Nucleation Chamber 2 (PINCii) is a newly developed continuous flow diffusion chamber (CFDC) for measuring ice nucleating particles (INPs). PINCii is a vertically oriented parallel-plate CFDC that has been engineered to improve upon the limitations of previous generations of CFDCs. This work presents a detailed description of the PINCii instrument and the upgrades that make it unique compared with other operational CFDCs. The PINCii design offers several possibilities for improved INP measurements. Notably, a specific icing procedure results in low background particle counts, which demonstrates the potential for PINCii to measure INPs at low concentrations (<10 L -1). High-spatial-resolution wall-temperature mapping enables the identification of temperature inhomogeneities on the chamber walls. This feature is used to introduce and discuss a new method for analyzing CFDC data based on the most extreme lamina conditions present within the chamber, which represent conditions most likely to trigger ice nucleation. A temperature gradient can be maintained throughout the evaporation section in addition to the main chamber, which enables PINCii to be used to study droplet activation processes or to extend ice crystal growth. A series of both liquid droplet activation and ice nucleation experiments were conducted at temperature and saturation conditions that span the spectrum of PINCii's operational conditions (-50≤ temperature ≤-15 ∘ C and 100 ≤ relative humidity with respect to ice ≤160 %) to demonstrate the instrument's capabilities. In addition, typical sources of uncertainty in CFDCs, including particle background, particle loss, and variations in aerosol lamina temperature and relative humidity, are quantified and discussed for PINCii. [ABSTRACT FROM AUTHOR]

Published

2023

2. Re-evaluating the Frankfurt isothermal static diffusion chamber for ice nucleation.

Author

Schrod, Jann, Danielczok, Anja, Weber, Daniel, Ebert, Martin, Thomson, Erik S., and Bingemer, Heinz G.

Subjects

NUCLEATION, REMOTE sensing of the atmosphere, ATMOSPHERIC spectra

Abstract

Recently significant advances have been made in the collection, detection and characterization of ice nucleating particles (INPs). Ice nuclei are particles that facilitate the heterogeneous formation of ice within the atmospheric aerosol by lowering the free energy barrier to spontaneous nucleation and growth of ice from atmospheric water and/or vapor. The Frankfurt isostatic diffusion chamber (FRankfurt Ice nucleation Deposition freezinG Experiment: FRIDGE) is an INP collection and offline detection system that has become widely deployed and shows additional potential for ambient measurements. Since its initial development FRIDGE has gone through several iterations and improvements. Here we describe improvements that have been made in the collection and analysis techniques. We detail the uncertainties inherent in the measurement method and suggest a systematic method of error analysis for FRIDGE measurements. Thus what is presented herein should serve as a foundation for the dissemination of all current and future measurements using FRIDGE instrumentation. [ABSTRACT FROM AUTHOR]

Published

2016