- Atmospheric chemical reactivity and ozone-forming potentials of potential CFC replacements.
Article
Bib No.:
- 273047
Authors:
- Hayman, G.D.
- Derwent, R.G.
Publication Date:
- 1997
Place of Publication:
- Washington
Publisher:
- American Chemical Society
Physical Description:
- pp.327-336
Citation:
- Environmental Science and Technology VOL. 31 NO. 2
Parent Details:
- VOL. 31 NO. 2
Media Type:
- Article
Collection:
- Library Collection
Language:
- English
Abstract:
- The Montreal Protocol will lead to the eventual phase-out of the production of chlorofluorocarbons (CFCs) and other halogenated organic compounds that are implicated in the depletion of stratospheric ozone. Hydrochlorofluorocarbons (HCFCs) and hydrofluorocarbons (HFCs have been developed at potential "in-kind" replacement compounds. To ensure that these compounds are acceptable, industry and regulatory agencies are assessing the safety, toxicology, and environmental impact of the HCFCs and HFCs before widespread production is commenced. One of the environmental issues concerns the contribution that the HCFCs and HFCs make to photochemical ozone production. Photochemical ozone creation potentials (POCPs) have been calculated using a photochemical trajectory model. The POCPs of the HCFCs and HFCs are low, indicating that these compounds do not have a large potential to contribute to ground-level ozone formation. This results from their low reactivity compared to the other, more reactive, organic compounds present during a photochemical episode. HCFCs and HFCs also contribute to stratospheric ozone depletion and climate change. While ...