我国消防标准体系分析

为明确我国消防标准体系发展的方向和重点,分别从消防标准的数量、标龄、类型、属性和采标情况等5个方面对我国消防标准体系进行分析,并与国际标准化组织、欧盟标准化委员会和美国的消防标准体系进行了比较。研究结果表明:我国消防标准体系整体适用性在不断增强;需制定周期性标准复审计划;消防基础试验类和管理类标准应成为下一步消防标准制修订的重点;消防强制性标准所占比例有待进一步下调;需建立国际标准动态跟踪机制,同时应注重将我国先进的消防标准转化为国际标准。     

Identification of potential electrotrophic microbial community in paddy soils by enrichment of microbial electrolysis cell biocathodes

Electrotrophs are microbes that can receive electrons directly from cathode in a microbial electrolysis cell (MEC). They not only participate in organic biosynthesis, but also be crucial in cathode-based bioremediation. However, little is known about the electrotrophic community in paddy soils. Here, the putative electrotrophs were enriched by cathodes of MECs constructed from five paddy soils with various properties using bicarbonate as an electron acceptor, and identified by 16S rRNA-gene based Illumina sequencing. The electrons were gradually consumed on the cathodes, and 25%–45% of which were recovered to reduce bicarbonate to acetic acid during MEC operation. Firmicutes was the dominant bacterial phylum on the cathodes, and Bacillus genus within this phylum was greatly enriched and was the most abundant population among the detected putative electrotrophs for almost all soils. Furthermore, several other members of Firmicutes and Proteobacteria may also participate in electrotrophic process in different soils. Soil pH, amorphous iron and electrical conductivity significantly influenced the putative electrotrophic bacterial community, which explained about 33.5% of the community structural variation. This study provides a basis for understanding the microbial diversity of putative electrotrophs in paddy soils, and highlights the importance of soil properties in shaping the community of putative electrotrophs.     

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.      

Improvement of the antifouling characteristics in a bioreactor of polypropylene microporous membrane by the adsorption of Tween 20

Surface modification by physical adsorption of Tween 20 was accomplished on polypropylene microporous membranes (PPMMs). Attenuated total reflection-Fourier transform infrared spectroscopy (ATR/FT-IR) and scanning electron microscope (SEM) were used to characterize the chemical and morphological changes on the membrane surfaces. Water contact angles and relative pure water fluxes were measured. The data showed that the hydrophilic performance for the modified membranes increased with the increase in the adsorption amount of Tween 20 onto the surface or into the pores of polypropylene microporous membranes. To test the antifouling property of the membranes by the adsorption of Tween 20 in a membrane bioreactor (MBR), filtration for active sludge was performed using synthetic wastewater. With the help of the data of water fluxes and the FE-SEM photos of the modified PPMMs before or after operating in a MBR for about 12 d, the PPMMs with monolayer adsorption of Tween 20 showed higher remained flux and stronger antifouling ability than unmodified membrane and other modification membranes studied.     

知识产权法律体系在环保行业中的应用探讨

目前知识产权保护在我国建设创新型国家过程中已引起高度重视。结合环保领域知识产权领域的重大案例,通过对当前我国环保企业自身存在的问题以及加入WTO后给我国环保企业知识产权工作带来的影响进行了具体分析,从知识产权法律体系在环保行业中的应用的角度提出了解决现有问题的方法和思路。     

新型聚乙烯包装材料的可环境消纳性能研究

借助人工加速老化实验箱、户外暴晒架、自然土壤填埋坑等实验方法，采用力学性能测试、扫描电镜、热－红联用仪和乌氏粘度计等测试方法对所研制的新型聚乙烯（PE）塑料包装材料的可环境消纳性能进行探讨。实验结果表明，该材料自然暴露35d，羰基指数（CI）为45，光照10d后自然土壤掩埋，一年后CI为70，粘均分子质量Mη降到3678；生物降解性能达到3级；进行焚烧处理，尤其是在受光照后进行焚烧，可完全燃烧，不产生有害气体或粉尘。     

机械强化污泥回流式一体化活性污泥法的运行机理研究

活性污泥通过机械搅拌强化污泥内循环回流,提高了污泥的活性,并且使污泥浓度可达到4.5kg/m3,用该机械强化污泥回流式一体化活性污泥法处理小区生活污水,当水力停留时间为3h,溶解氧为2.2mg/L,机械搅拌速度为250r/min时,CODcr、氨氮去除率均可达到83% 以上,出水达到国家污水排放一级标准.该一体化活性污泥法简单易行,运行成本低,投资小,操作维护方便,是生活小区生活污水适宜的处理工艺技术.     

污水处理厂污泥脱水滤液循环利用的研究

对污水处理厂污泥机械脱水滤液进行了循环利用研究。将滤液与剩余污泥（mlsss≤13000mg／l）按1比4的比例均匀混合。然后加入到沉淀器中进行重力浓缩试验，结果表明：它能够改善污泥的浓缩脱水性能，加快污泥的沉淀速度，增大浓缩污泥的浓度；生产运行数据分析显示：污泥脱水滤液与剩余污泥混合液进入浓缩池后，上清液更加清澈，污泥的固体负荷率显著提高，这既可降低污泥的处理成本，亦可减少污泥处理系统的基建投资，为污泥处理系统的工艺优化开辟了新途径。     

海水环境下玻璃纤维增强复合材料力学性能演化规律研究

目的 研究海水环境下海流能发电机组叶片用玻璃纤维复合材料力学性能的变化规律.方法 在实验室内通过海水浸泡试验、拉伸试验、弯曲试验以及剪切试验,测定叶片用玻璃纤维树脂基复合材料的吸水特性,以及在人工海水介质中各项力学性能参数的演变规律.结果 随着浸泡时间的增加,玻璃纤维树脂基复合材料吸水率先逐步增大、后趋于稳定,总吸水率约0.075％.抗拉强度呈先降低、后提高、又降低的趋势,抗拉强度最高可超过1100 MPa,最小值约为940 MPa.弹性模量和弯曲强度呈逐渐降低的趋势,弹性模量降幅约9.5％,弯曲强度降幅约为30％.弯曲模量变化起伏不定,变化幅度在15％以内.材料剪切强度呈先增大、后降低的趋势,最小值为189 MPa,较初始值高10 MPa.剪切模量呈先降低、后提高的现象,在浸泡28 d时,剪切模量最小,为16.4 GPa.结论 玻璃纤维增强树脂基复合材料经过长期海水浸泡后,拉伸及抗剪切性能略有降低,但降幅不大,抗弯性能下降明显,需要在叶片结构设计和强度计算时,充分考虑抗弯性能衰减的负面影响.     

论我国自然资源产权制度的改革

我国自然资源产权制度长期以来界定不清晰和不合理，造成自然资源配置的效率损失很大，本文根据许多实例和交易成本理论来说明５０年代中期以来我国自然资源的一些主要产权制度的利弊，并提出未来改革的一些设想。