Research Article
Removal Dynamics of Nitric Oxide (NO) Pollutant Gas by Pulse-Discharged Plasma Technique
Table 3
Reaction paths and the corresponding reaction rate coefficients [
21–
26].
| Reaction path | k/cm3s−1 |
| + N2 → + 2e | | + N2 → N + N + e | | + NO → N + O() + e | | + NO → + 2e | | + → N + O() | | + → N2 | | + NO+→ O(3P) + N(2D) | | + NO → + O(3P) | | + O2 → NO+ + O(3P) | | + N → N+ + N2 | | + O(3P) → NO+ + N | | N + NO2 → N2 + O(3P) + O(3P) | | O(3P) + NO + N2 → NO2 + N2 | | N2(A) + O2 → N2 + O(3P) + O(3P) | | N2(A) + NO → NO + N2 | | N2(A) + N2 → N2 + N2 | | N2(A) + NO2→ NO + O(3P) + N2 | | NO2 + O(3P) → NO + O2 | | O(3P) + O(3P) + O2 → O2 + O2 | | N2(B) + O2→ N2(A) + O2 | | N(2D) + O2→ NO + O(1D) | | N(2D) + NO → N2 + O(3P) | | O(1D) + NO → N + O2 | | + N2 → N+ + N + 2e | | + N2 → N2(A) + e | | + N → N+ + 2e | | + N+ → N | | + NO+ → NO | | + NO → NO+ + N | | + NO2 → NO+ + NO | | + O2 → NO+ + NO | | + NO → NO+ + N2 | | N + NO → N2 + O(3P) | | N + NO2 → 2NO | | N + O2 → NO + O(3P) | | N2(A) + O(3P) → NO + N(2D) | | N2(A) + N2(A) → N2 + N2(C) | | N2(A) + O(3P) → N2 + O(1D) | | O(1D) + O2 → O(3P) + O2 | | O(3P) + O(3P) + N2 → O2 + N2 | | N2(B) + N2 → N2(A) + N2 | | N2(B) + NO → N2(A) + NO | | N2(C) + N2 → N2(B) + N2 | | N(2D) + O2 → NO + O(3P) | | N(2D) + N2 → N + N2 | | O(1D) + N2 → O(3P) + N2 | |
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Its unit is cm6s−1.
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