AI Article Synopsis
- Organic halogens are significant environmental concerns, and this study analyzes their gas phase diffusivities across various bath gases based on experimental measurements.
- The research shows that Fuller's semi-empirical method provides reliable estimations of these diffusivities, and it highlights that different molecules in the same gas tend to have similar mean free paths at the same conditions.
- A new method proposed in the study simplifies the calculation of gas phase diffusivities with fewer parameters, proving effective for estimating diffusivities for gases with unknown diffusion volumes.
Article Abstract
Organic halogens are of great environmental and climatic concern. In this work, we have compiled their gas phase diffusivities (pressure-normalized diffusion coefficients) in a variety of bath gases experimentally measured by previous studies. It is found that diffusivities estimated using Fuller's semi-empirical method agree very well with measured values for organic halogens. In addition, we find that at a given temperature and pressure, different molecules exhibit very similar mean free paths in the same bath gas, and then propose a method to estimate mean free paths in different bath gases. For example, the pressure-normalized mean free paths are estimated to be 90, 350, 90, 80, 120 nm atm in air (and N/O), He, argon, CO and CH, respectively, with estimated errors of around ±25%. A generic method, which requires less input parameter than Fuller's method, is proposed to calculate gas phase diffusivities. We find that gas phase diffusivities in He (and air as well) calculated using our method show fairly good agreement with those measured experimentally and estimated using Fuller's method. Our method is particularly useful for the estimation of gas phase diffusivities when the trace gas contains atoms whose diffusion volumes are not known.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6083652 | PMC |
| http://dx.doi.org/10.1098/rsos.171936 | DOI Listing |
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