封面
声明
致谢
中文摘要
英文摘要
目录
变量注释表
1 引言
1.1 研究背景(Research Background)
1.2 我国燃油蒸发污染排放控制现状( The Gasoline-vapor Emission Control of Pollution in China)
1.3 车辆燃油蒸发排放的控制( Fuel Evaporative Emission of Vehicles)
1.4 汽油吸附用活性炭(Activated Carbon for Gasoline Adsorption)
1.5国内外对汽油吸附炭的研究(Domestic and Overseas Research on the Preparation of Activated Carbon for Adsorbing Gasoline-vapor)
1.6本课题的研究内容(The Advantages of Coal-based Activated Carbon)
2 实验及分析测试方法
2.1 实验原料(Raw Materials)
2.2 实验试剂(Experimental Reagents)
2.3 实验仪器与设备(Experimental Apparatus and Devices)
2.4 活性炭的制备(Preparation of Activated Carbon)
2.5分析测试方法(Analytical Test Methods)
3 工艺条件对活性炭性能的影响
3.1 烧失率对活性炭性能的影响( Influence of Burn-off on Properties of the Activated Carbon)
3.2 配煤比例对活性炭性能的影响(Influence of Coal Blending Ratio on Properties of the Activated Carbon)
3.3 活化温度对活性炭性能的影响( Influence of Activation Temperature on Properties of the Activated Carbon)
3.4 炭化温度对活性炭性能的影响(Influence of Carbonization Temperature on Properties of the Activated Carbon)
3.5 炭化升温速率对活性炭性能的影响( Influence of Carbonization Heating Rate on Properties of the Activated Carbon)
3.6 本章总结(Brief Summary)
4 活性炭孔隙结构与丁烷吸附性能的关系
4.1 比表面积与丁烷吸附性能的关系(The Relationships between Surface Area and Butane Adsorption Properties of the Activated Carbon)
4.2 总孔容与丁烷吸附性能的关系( The Relationships between Total Volume and Butane Adsorption Properties of the Activated Carbon)
4.3 平均孔径与丁烷吸附性能的关系(The Relationships between Average Pore Diameter and Butane Adsorption Properties of the Activated Carbon) Average Pore Diameter and Butane Adsorption Properties of the Activated Carbon)
4.4 适合丁烷吸附的最佳孔径(The Optimum Pore Size for the Adsorption of Butane)
4.5 本章小结(Brief Summary)
5 活性炭常规指标与丁烷吸附性能的关系
5.1 碘值与丁烷吸附性能的关系( The Relationships between Iodine Number and Butane Adsorption Properties of the Activated Carbon)
5.2 亚甲基蓝值与丁烷吸附性能的关系( The Relationships
between Methylene Blue Adsorption and Butane Adsorption Properties of the Activated Carbon)
5.3 焦糖脱色率与丁烷吸附性能的关系( The Relationships between Caramel Adsorption and Butane Adsorption Properties of the Activated Carbon)
5.4 本章小结(Brief Summary)
6 活性炭吸附丁烷动力学研究
6.1 吸附时间和吸附温度对丁烷吸附的影响( The Effect of Adsorption Time and Temperature on Adsorption of Butane onto the Activated Carbon)
6.2 丁烷气体流量对丁烷吸附的影响(The Effect of Butane Flow Rate on Adsorption of Butane onto the Activated Carbon)
6.3 脱附时间和脱附温度对丁烷脱附的影响( The Effect of Desorption Time and Temperature on the Desorption of Butane from the Activated Carbon)
6.4 氮气流量对丁烷脱附的影响(The Effect of Nitrogen Flow Rate on Desorption of Butane from the Activated Carbon) Desorption of Butane from the Activated Carbon)
6.5 活性炭吸附丁烷的动力学研究(Study on Adsorption Kinetics of the Activated Carbon for Butane)
6.6 本章小结(Brief Summary)
7 结论与展望
7.1 结论(Conclusions)
7.2 展望(Prospects)
参考文献
作者简历
学位论文数据集