谈谈英语学习方式的转变

很多学生现在对英语学习感到无所适从，他们觉得自己无论如何尽力也没有办法提高英语成绩。本文对这种情况的出现做了简单的分析，并提出了一些建议。     

Catalytic activity of Ru/Al2O3 for ozonation of dimethyl phthalate in aqueous solution

With dimethyl phthalate as the model pollutant and Ru/Al(2)O(3) as catalyst, this paper systemically investigates the removal of total organic carbon (TOC) of system. Our results have confirmed that Ru/Al(2)O(3) can significantly increase the effect of ozonation. TOC removal in 120 min can reach 72% while only 24% with ozone alone. The optimal catalyst preparing condition was 0.1 wt% Ru content, 600 degrees C calcination temperature, 0.5-1.0mm particle diameter, which is characterized by a high surface area and a large population of surface active sites. The contrasting experiments of ozone alone, catalyst adsorption after ozonation, and catalytic ozonation confirmed that catalytic reaction was the most important process to TOC removal in system with Ru/Al(2)O(3) as catalyst.     

贵州草海湿地溶解性有机物的光谱特征及其与PFASs的相关性分析

为描述草海湿地DOM（dissolved organic matter,溶解性有机物）荧光特征,探究其对PFASs（per-and polyfluoroalkyl substances,全氟及多氟化合物）环境行为造成的影响,利用超高效液相色谱-质谱联用技术和三维荧光光谱技术,结合平行因子分析,开展DOM光谱学特性研究,分析ρ（DOM）与ρ（PFASs）的相关关系.结果表明:①草海湿地中共解析出3类4种荧光组分,分别为类腐殖酸[λ_Ex（360 nm）/λ_Em（450 nm）]、长波段腐殖质[λ_Ex（400 nm）/λ_Em（510 nm）]、类富里酸[λ_Ex（330 nm）/λ_Em（400 nm）]和类色氨酸[λ_Ex（280 nm）/λ_Em（350 nm）],贡献率分别为48.6%、23.6%、22.9%和4.9%,其中类腐殖质总贡献率高达72.2%.在农业生产和人类活动的影响下,总荧光强度大致呈现从入湖区向出湖区逐渐降低、湖心区略高的趋势.②在草海湿地表层水中共检出了12种PFASs,ρ（PFASs）为233.18 ng/L,每种平均值为19.43 ng/L,PFBA（perfluorobutanoic acid,全氟丁酸）是主要污染物;草海湿地入湖区点源影响特征明显,生活污水和农业生产用水是主要的潜在污染源.③相关性分析结果显示,各荧光组分含量均与ρ（PFBS）（potassium perfluorobutanesulfonate,全氟丁烷磺酸）负相关;类色氨酸含量与ρ（PFHpA）（perfluororoheptanoic acid,全氟庚酸）负相关,与ρ（PFTriDA）（perfluorotrideanoic acid,全氟十三酸）则显著正相关.研究显示,草海湿地水体腐殖化程度高,外源特征明显,共检出12种PFASs,初步揭示了草海湿地水环境中ρ（DOM）与ρ（PFASs）的相关关系,其受水体性质及化合物结构等差异的影响,有待进一步开展深入研究.      

化学改性对碳纳米管催化剂结构和活性的影响

采用经过臭氧、空气和混酸（HNO3-H2SO4）化学改性的多壁碳纳米管（MWNTs）作为催化剂,用扫描电子显微镜（SEM）、FT—IR、Raman、XPS分析方法对MWNTs进行结构表征。在间歇式高压反应釜中,以改性后的MWNTs作为催化剂,开展了催化湿式氧化苯酚的活性研究。结果表明：经改性的MWNTs具有较高的催化活性。在155℃和总压2．5MPa,苯酚初始浓度为1000mg／L,催化剂投加量为0．4g／L的条件下,液相臭氧改性方法处理的MWNTs表现出了良好的催化活性,反应120min后苯酚的去除率为100％,溶液的矿化率为72％。改性的催化剂表面生成的含氧官能团是MWNTs在催化湿式氧化反应中具有高活性的重要原因。     

Nature Reserve and Ecotourism Development in China＇s Wuzhishan Mountain Region

As the protected areas of land and coastal environment, nature reserves are designed to address how to reconcile the conservation of biodiversity, the quest for economic and social development and the maintenance of cultural values. This paper establishes a framework for nature reserve development that seeks to incorporate ecotourism into its strategies. The overall purpose was to identify the information needs required for a comprehensive nature reserve that incorporates ecotourism related values. It also illustrates the utility of this framework in the context of the Wuzhishan Mountain Region of China. A literature review, the first phase of a visionary strategy and a subsequent gap analysis for available management information were undertaken in order to achieve this paper＇s purpose. Finally, recommendations axe pre-sented for integrating ecotourism into nature reserve development in the Wuzhishan Mountain Region.     

英语听力课教学探讨

在听、说、读、写、译五种技能中，听占首位，可见其重要性．但是对我校大多数学生来说，听力是最难的科目。听力的薄弱制约了学生其他各项能力的提高．本文分析了我校学生听力中存在的问题，分析了这些问题存在的原因，并就这些问题的解决提出了相应的建议。     

Catalytic ozonation of organic compounds in water over the catalyst of RuO2/ZrO2-CeO2

This research investigates the performances of RuO₂/ZrO₂-CeO₂ in catalytic ozonation for water treatment. The results show that RuO₂/ZrO₂-CeO₂ was active for the catalytic ozonation of oxalic acid and possessed higher stability than RuO₂/Al₂O₃ and Ru/AC. In the catalytic ozonation of dimethyl phthalate (DMP), RuO₂/ZrO₂-CeO₂ did not enhance the DMP degradation rate but significantly improved the total organic carbon (TOC) removal rate. The TOC removal in catalytic ozonation was 56% more than that in noncatalytic ozonation. However this does not mean the catalyst was very active because the contribution of catalysis to the overall TOC removal was only 30%. The adsorption of the intermediates on RuO₂/ZrO₂-CeO₂ played an important role on the overall TOC removal while the adsorption of DMP on it was negligible. This adsorption difference was due to their different ozonation rates. In the catalytic ozonation of disinfection byproduct precursors with RuO₂/ZrO₂-CeO₂, the reductions of the haloacetic acid and trihalomethane formation potentials (HAAFPs and THMFPs) for the natural water samples were 38%–57% and 50%–64%, respectively. The catalyst significantly promoted the reduction of HAAFPs but insignificantly improved the reduction of THMFPs as ozone reacts fast with the THMs precursors. These results illustrate the good promise of RuO₂/ZrO₂-CeO₂ in catalytic ozonation for water treatment.     

Nature Reserve and Ecotourism Development in China's Wuzhishan Mountain Region

Abstract

As the protected areas of land and coastal environment, nature reserves are designed to address how to reconcile the conservation of biodiversity, the quest for economic and social development and the maintenance of cultural values. This paper establishes a framework for nature reserve development that seeks to incorporate ecotourism into its strategies. The overall purpose was to identify the information needs required for a comprehensive nature reserve that incorporates ecotourism related values. It also illustrates the utility of this framework in the context of the Wuzhishan Mountain Region of China. A literature review, the first phase of a visionary strategy and a subsequent gap analysis for available management information were undertaken in order to achieve this paper's purpose. Finally, recommendations are presented for integrating ecotourism into nature reserve development in the Wuzhishan Mountain Region.     

Nature Reserve and Ecotourism Development in China’s Wuzhishan Mountain Region

As the protected areas of land and coastal environment, nature reserves are designed to address how to reconcile the con- servation of biodiversity, the quest for economic and social de- velopment and the maintenance of cultural values. This paper establishes a framework for nature reserve development that seeks to incorporate ecotourism into its strategies. The overall purpose was to identify the information needs required for a comprehen- sive nature reserve that incorporates ecotourism related values. It also illustrates the utility of this framework in the context of the Wuzhishan Mountain Region of China. A literature review, the first phase of a visionary strategy and a subsequent gap analysis for available management information were undertaken in order to achieve this paper’s purpose. Finally, recommendations are pre- sented for integrating ecotourism into nature reserve development in the Wuzhishan Mountain Region     

Catalytic wet air oxidation of phenol with functionalized carbon materials as catalysts：Reaction mechanism and pathway

The development of highly active carbon material catalysts in catalytic wet air oxidation（CWAO）has attracted a great deal of attention. In this study different carbon material catalysts（multi-walled carbon nanotubes,carbon fibers and graphite） were developed to enhance the CWAO of phenol in aqueous solution. The functionalized carbon materials exhibited excellent catalytic activity in the CWAO of phenol. After 60 min reaction,the removal of phenol was nearly100% over the functionalized multi-walled carbon,while it was only 14% over the purified multi-walled carbon under the same reaction conditions. Carboxylic acid groups introduced on the surface of the functionalized carbon materials play an important role in the catalytic activity in CWAO. They can promote the production of free radicals,which act as strong oxidants in CWAO. Based on the analysis of the intermediates produced in the CWAO reactions,a new reaction pathway for the CWAO of phenol was proposed in this study. There are some differences between the proposed reaction pathway and that reported in the literature. First,maleic acid is transformed directly into malonic acid. Second,acetic acid is oxidized into an unknown intermediate,which is then oxidized into CO2 and H2O. Finally,formic acid and oxalic acid can mutually interconvert when conditions are favorable.