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11.
Indra Purnama Farag Malhat Piyanuch Jaikaew Sri Noegrohati Bambang Rusdiarso 《毒物与环境化学》2013,95(8):1141-1152
The fate of azoxystrobin in soil under the effect of different temperature is of interest because application directions specify soil-surface treatments for number of agricultural pests. Temperature is an important factor governing the rate of degradation in soil pore. The purpose of this investigation was to understand better the effect of temperature on the degradation of azoxystrobin in Japanese Andisol soil. This was done through laboratory incubation of soil at three different temperatures (5 °C, 20 °C, 35 °C). First-order kinetics could be used to describe degradation of azoxystrobin under controlled condition of temperature (r2 ? 94). The results showed that, during the 120-day incubation period for azoxystrobin, 64%, 70%, and 78% of applied azoxystrobin were degraded at 5 °C, 20 °C, and 35 °C, respectively. By using the Arrhenius equation, the activation energy of degradation of azoxystrobin fungicide was calculated (7.48 ± 1.74 kJ mol?1) in soils, which confirm that temperature had a significant influence on the degradation rate. Q10 value of 1.11, for azoxystrobin, indicated that the response of fungicide dissipation to temperature was large. For azoxystrobin, there was a much larger difference in dissipation rates at 5 °C and 35 °C, indicating that biological and/or chemical degradation of azoxystrobin may have nearly reached its optimum at 35 °C. 相似文献
12.
The destruction of methylphosphonic acid (MPA), a final product by hydrolysis/neutralization of organophosphorus agents such
as sarin and VX (O-ethyl S-[2-(diisopropylamino)ethyl] methylphosphonothionate), was investigated in a a bench-scale, continuous
concentric vertical double wall reactor under supercritical water oxidation condition. The experiments were conducted at a temperature
range of 450–600°C and a fixed pressure of 25 MPa. Hydrogen peroxide was used as an oxidant. The destruction e ciency (DE) was
monitored by analyzing total organic carbon (TOC) and MPA concentrations using ion chromatography on the liquid e uent samples.
The results showed that the DE of MPA up to 99.999% was achieved at a reaction temperature of 600°C, oxygen concentration of 113%
storichiometric requirement, and reactor residence time of 8 sec. On the basis of the data derived from experiments, a global kinetic
rate equation for the DE of MPA and DE of TOC were developed by nonlinear regression analysis. The model predictions agreed well
with the experimental data. 相似文献