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CHEM 304 - 2/15/12 I.C Strat. Chemistry: Catalytic Ozone Depletion - Catalyst “Families” (HO x, NO x, ClO x ) - Reaction Paths/Cycles (#1, #2, #3) - Sources.

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Presentation on theme: "CHEM 304 - 2/15/12 I.C Strat. Chemistry: Catalytic Ozone Depletion - Catalyst “Families” (HO x, NO x, ClO x ) - Reaction Paths/Cycles (#1, #2, #3) - Sources."— Presentation transcript:

1 CHEM 304 - 2/15/12 I.C Strat. Chemistry: Catalytic Ozone Depletion - Catalyst “Families” (HO x, NO x, ClO x ) - Reaction Paths/Cycles (#1, #2, #3) - Sources of HO x, NO x, ClO x  Web updated today (HW #3, #4, and O 3 key)  QUIZ M on see – email/web for scope.

2 3 Main (1 + additional) Catalytic Families: “HO x ” : H, OH, HO 2 “NO x ” : NO, NO 2, (NO 3 - technically not included ) “ClO x ”: Cl, ClO, (ClO 2 ) “BrO x ”: Br, BrO, (BrO 2 - ? May not exist ? )

3 Write a 2-reaction path 1 cycle w/ X=NO. NO + O 3 —> NO 2 + O 2 NO 2 + O 3 —> NO + O 2

4 Write a 2-reaction path 2 “null” cycle w/ X=NO. NO + O 3 —> NO 2 + O 2 NO 2 + h —> NO + O

5 Write a 2-reaction path 3 cycle w/ X=OH. HO + O 3 —> HO 2 + O 2 HO 2 + O 3 —> HO + O 2

6 Some lingo regarding “Trace species” (e.g. pollutants, reactive substances, etc.) Source: reaction or process that release trace compound. Sink: Reaction or process that “permanently” removes trace compound. Reservoir: An entity (process, substance, physical feature) that temporarily holds a trace substance

7 Catalyst Sources: Substance must be resilient to these key (tropospheric) loss processes. 1)Wet Deposition or “rain out”: Is it H 2 O Soluble? 2)Reaction w/ OH: Does it have an H? 3)Photochemistry: Does it absorb >300nm?

8 Absorption spectra of CFC’s

9 Vertical Distribution of CFC’s…

10 Lifetimes of CFC’s and related compounds this graphic does not work

11 A real world question: How might you modify the structure of a CFC to yet reduce its contribution to stratospheric ClOx, yet retain, as much as possible, its physical properties? (Hint: How would you keep it out of the stratosphere …)

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