Evaluation of the Detailed Tropospheric Chemical Mechanism, MCM v3, Using Environmental Chamber Data: Butane and Its Degradation Products

机译：评价详细的对流层化学机制，MCM V3，使用环境室数据：丁烷及其降解产品

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The chemistry of ground level atmospheric ozone formation is highly complex and nonlinear and has many uncertainties. As a result no chemical model can be relied upon to give accurate predictions unless it has been evaluated by comparison with experimental data. There are essentially two ways in which a photochemical oxidant model can be evaluated. One compares the predictions of the complete model against field data taken during a historic ozone pollution episode. Another approach relies on the evaluation of individual pollutant compounds, separately. In the case of gas-phase chemical mechanisms, this means evaluating the predictions of the mechanism against results of environmental chamber experiments (Carter et ai, 1995a).

机译：地层大气臭氧形成的化学性质是高度复杂和非线性的，具有许多不确定性。结果，除非通过与实验数据进行比较，否则不能依赖化学模型来提供准确的预测。基本上有两种方式可以评估光化学氧化剂模型。一个比较历史臭氧污染集中拍摄的现场数据的完整模型的预测。另一种方法依赖于单独评估个体污染物化合物。在气相化学机制的情况下，这意味着评估环境室实验结果的机制的预测（Carter et Ai，1995a）。

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《NATO Advanced Research Workshop on Environmental Simulation Chambers: Application to Atmospheric Chemical Processes》|2006年||共12页
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P. G. Pinho; C.A. Pio; M. E. Jenkin;
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原文格式 PDF
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中图分类大气化学;
关键词
Butane; Environmental Chamber; Mechanisms; Modelling; Ozone; Troposphere;

机译：丁烷;环境室;机制;建模;臭氧;对流层;

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1. Evaluation of isoprene degradation in the detailed tropospheric chemical mechanism, MCM v3, using environmental chamber data [J] . Pinho PG, Pio CA, Jenkin ME Atmospheric environment . 2005,第7期

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2. Evaluation of alkene degradation in the detailed tropospheric chemistry mechanism, MCM v3, using environmental chamber data [J] . P.G. Pinho, C.A. Pio, W.P.L. Carter, Journal of Atmospheric Chemistry . 2006,第1期

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3. Evaluation of α- and β-pinene degradation in the detailed tropospheric chemistry mechanism, MCM v3.1, using environmental chamber data [J] . P. G. Pinho, C. A. Pio, W. P. L. Carter, Journal of Atmospheric Chemistry . 2007,第2期

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4. Evaluation of the Detailed Tropospheric Chemical Mechanism, MCM v3, Using Environmental Chamber Data: Butane and Its Degradation Products [C] . P. G. Pinho, C.A. Pio, M. E. Jenkin, NATO Advanced Research Workshop on Environmental Simulation Chambers: Application to Atmospheric Chemical Processes . 2006

机译：评价详细的对流层化学机制，MCM V3，使用环境室数据：丁烷及其降解产品
5. Chamber Validation of the Explicit Master Chemical Mechanism (MCM) and Application to Air Pollution Studies [D] . Pinho, Paulo Gabriel Fernandes de 2006

机译：分钟验证明确的母系化学机制（MCM）和空气污染研究的应用
6. Detailed product analysis during the low temperature oxidation of n-butane [O] . Olivier Herbinet, Frédérique Battin-Leclerc, Sarah Bax, -1

机译：正丁烷的低温氧化过程中的详细产品分析
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8. Possible atmospheric lifetimes and chemical reaction mechanisms for selected HCFCs, HFCs, CH3CCl3, and their degradation products against dissolution and/or degradation in seawater and cloudwater [R] . Wine, P. H., Chameides, W. L. 1990

机译：选定的HCFCs，HFCs，CH3CCl3及其降解产物可能的大气寿命和化学反应机制，防止海水和云水中的溶解和/或降解

Evaluation of the Detailed Tropospheric Chemical Mechanism, MCM v3, Using Environmental Chamber Data: Butane and Its Degradation Products

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