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News: A study shows that hydroxymethanesulphonate (HMS), a secondary aerosol, forms in cold urban environments such as Fairbanks, Alaska. This discovery provides new insights into aerosol chemistry under extreme conditions and its impact on air quality.
About Hydroxymethanesulphonate Explaination
- It is a secondary aerosol which forms through chemical reactions involving formaldehyde and sulfur dioxide in the presence of liquid water.
- Role of Liquid Water- The reaction requires liquid water within aerosol particles. Even under extremely cold conditions, liquid water can persist in a supercooled state within aerosols, enabling the reaction to occur.
- Environmental conditions favoring HMS formation:
- Low temperatures: Inhibit ammonium volatilization, which reduces aerosol acidity and stabilizes sulfite ions.
- High ammonium ion concentrations: Help neutralize acidity, ensuring favorable conditions for HMS formation.
- Supercooled liquid water: Allows the chemical reaction to proceed at sub-zero temperatures.
- Impact on health and environment
- Air Quality: HMS contributes to the formation of secondary aerosols that increase PM2.5 pollution, negatively impacting air quality, especially in cold urban areas like Fairbanks, Alaska.
- Climate Impact: By influencing cloud formation and aerosol radiative properties, HMS can affect climate processes.
- Health Concerns: Increased PM2.5 levels associated with HMS can worsen respiratory and cardiovascular illnesses, particularly in polluted regions.
| Additional Facts Aerosols: Tiny solid or liquid particles suspended in the air.Examples– Dust, smoke, fog. PM2.5: Fine particulate matter with a diameter less than 2.5 micrometres (µm). |
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