Atmospheric Degradation of Organic Substances: Data for by Walter Klöpffer, Burkhard Wagner, Klaus Günter Steinhäuser

By Walter Klöpffer, Burkhard Wagner, Klaus Günter Steinhäuser

This compilation at the degradation of 1,100 commercially very important chemical items is the 1st booklet to make this data publicly available in a single e-book. the information and annotations were painstakingly assembled over a 10-year interval in a collaboration among academia and regulatory gurus. The paintings explains intimately the equipment, together with computational ones, for the environmental review of unstable and semi-volatile ingredients, and is rounded off with information tables of decay rates.A key source for brands and regulators of such substances.See all Editorial reports

Show description

Read Online or Download Atmospheric Degradation of Organic Substances: Data for Persistence and Long-range Transport Potential PDF

Similar physics books

New Developments in Semiconductor Physics

This quantity comprises lecture notes and chosen contributed papers awarded on the overseas summer season university on New advancements in Semiconductor Physics held on the college of Szeged, July 1-6, 1979. the most important a part of the contributions during this quantity is expounded to the recent experimental technics and theoretical principles utilized in study of recent semiconductor fabrics, commonly III-V semiconductors.

Extra resources for Atmospheric Degradation of Organic Substances: Data for Persistence and Long-range Transport Potential

Sample text

It has therefore been nicknamed “the OH of the night” [33a]. Early measurements of the mixing ratios of NO3 were in the range of 10– 100 pptv7). 7 × 109 NO3 radicals cm–3 In strongly polluted air, [NO3] as a function of time shows a sharp maximum in the early hours of the night, whereas in relatively clean air a more constant trend at a lower level is observed [32]. 3) [213], the maximum was observed after midnight, the average NO3 concentration measured was about 108 cm–3. Nitrogen trioxide and nitrogen dioxide form an equilibrium in the absence of light (Eq.

Atmospheric Transport and Air-surface Exchange of Pesticides. Water, Air, Soil Pollut. 115 (1999) 115–166. ; Hites, R. ; Palm, W. ; Seiber, J. : Transformation of Pesticides in the Atmosphere: A State of the Art. Water, Air, Soil Pollut. 115 (1999) 218–243. ; Howard, P. ; Orlando, J. ; Wallington, T. : Quantitative Determination of Persistence in Air. ; Howard, P. ; Larson, R. ; van der Meent D. ): Evaluation of Persistence and Longrange Transport of Organic Chemicals on the Environment. SETAC Publication, Pensacola 2000, Chapter 2, pp.

J. Aerosol. Sci. 18 (1987) 849–852. 82 Palm, W. ; Krüger, H. : OH Radical Reactivity of Airborne Terbutylazine Adsorbed on Inert Aerosol. Environ. Sci. Technol. 31 (1997) 3389–3396. 83 Palm, W. ; Krüger, H. : Atmospheric Degradation of Semivolatile Aerosol-borne Pesticide: Reaction of OH with Pyrifenox (an Oxime-Ether), Absorbed on SiO2. Chemosphere 38 (1999) 1241–1252. 84 Palm, W. : OH Radical Reactivity of Pesticides Adsorbed on Aerosol Materials: First Results of Experiments with Filter Samples.

Download PDF sample

Rated 4.49 of 5 – based on 25 votes