Future directions for H sub x O sub y detection, executive summary
Abstract
New methods for the measurement of OH radicals were assessed as were currently available and possible future methods for the other H sub x O sub y species, HO2 and H2O2. The workshop participants were invited from different groups: modelers of atmospheric photochemistry, experimentalists measuring H sub x O y species with laser and nonlaser methods, and chemists and physicists familiar with such experiments but not involved in atmospheric monitoring. There were three major conclusions from the workshop concerning the OH radical. First, it was felt that local measurements made by laser techniques would be ready within 2 or 3 years to furnish reliable measurements at the level of 1,000,000 cu. cm. Second, measurements at this level of sensitivity and with attainable levels of precision could indeed be used to make useful and interesting tests of the fast photochemistry of the troposphere. It is important, however, that the measurements be carefully designed, with respect to spatial and temporal averaging, if there is to be a meaningful comparison between results from two experimental methods or a measurement and a model. Third, nonlocal measurements using released reactants and tracers would also be very useful. These could be made on a regional or global basis, although they still require experimental design including choice of compounds.
- Publication:
-
In its Future Directions for H sub x O sub y Detection p 1-30 (SEE N87-15528 07-46
- Pub Date:
- December 1986
- Bibcode:
- 1986fdbs.nasa....1.
- Keywords:
-
- Atmospheric Composition;
- Chemical Analysis;
- Hydroxyl Radicals;
- Troposphere;
- Hydrogen Peroxide;
- Photochemical Reactions;
- Water;
- Geophysics