Concept and application of anaerobic suspended granular sludge bed （SGSB） reactor for wastewater treatment

Bed expansion serves an important function in the design and operation of an upflow anaerobic reactor. An analysis of the flow pattern of expanded granular sludge bed （EGSB） reactors shows that most EGSB reactors do not behave as expanded bed reactors, as is widely perceived. Rather, these reactors behave as fluidized bed reactors based on the classic chemical reactor theory. In this paper, four bed expansion modes, divided as static bed, expanded bed, suspended bed, and fluidized bed, for bioreactors are proposed. A high-rate anaerobic suspended granular sludge bed （SGSB） reactor was then developed. The SGSB reactor is an upflow anaerobic reactor, and its expansion degree can be easily controlled within a range to maintain the suspended status of the sludge bed by controlling upfiow velocity. The results of the full-scale reactor confirmed that the use of SGSB reactors is advantageous. The full-scale SGSB reactor runs stably and achieves high COD removal efficiency （about 90%） at high loading rates （average 40 kg-COD·m^-3·d^-1, maximum to 52 kg·COD·m^-3 ·d^-1） based on the SGSB theory, and its expansion degree is between 22% and 37%.     

煤化工项目竣工环保自主验收对策建议

介绍了建设项目竣工环保自主验收制度的由来,总结了煤化工企业开展项目竣工环保自主验收面临的主要困难,提出了做好煤化工项目竣工环保自主验收工作的对策建议。指出：建设单位应从充分认识自身环保主体责任、做好排污许可证实施的技术储备、完成竣工环保示范任务、持续加强环保技术开发及投入等方面做好自主验收工作。     

Plant biomass allocation strategies of the dominant species in an alpine meadow of northwestern Sichuan,China北大核心CSCD

Plant biomass partitioning is an important driver of whole-plant net carbon gain, as biomass allocation could directly affect plant's future growth and reproduction. Alpine meadow in the northwestern Sichuan was impressed by the abundant community structure and species diversity. This study on biomass allocation pattern of different functional types and lifeforms might help understand plant life-history strategy of alpine meadow plants. We investigated 72 dominant herbaceous species for their compartments, biomass, and morphological traits during 2012-2014. These plants were sampled from natural grassland, disturbed grassland, and wintergreen grassland; they belonged to three functional types (grass, sedge, and forb) and two lifeforms (annual and perennial). The scaling relationships between functional traits of these plants were analyzed using Model type II regression method to estimate the parameters of the allometric equations. (1) Biomass allocation proportion of components significantly differed among grasses, sedges, and forbs owing to phylogeny: grasses had the highest stem biomass percentage, sedges had higher root biomass percentage, and forbs had higher leaf biomass percentage, but the scaling relationships were not significantly different, and isometric scaling was noted between biomass components for the three functional types. (2) Moreover, plant lifeforms affected the biomass allocation proportion of components, owing to the shorter or longer turnover rate and investment strategy between annual and perennial species. Annuals allocated more biomass to the stem and reproduction organs, but perennials invested more biomass to the leaves and roots. (3) In addition, plants from different grassland types differed in both biomass and morphology traits. Moreover, forbs from natural grassland and wintergreen grassland had higher leaf and reproductive biomass, but those from disturbed grasslands had higher stem biomass. Our results suggest that the functional type and lifeform decide the inherent scaling relationships between components of plants, but anthropogenic disturbance significantly impacted the quantity of component biomass. This study has important theoretical and practical significance to understand the response of alpine plants to climate change and anthropogenic disturbance as well as to help in the scientific management of alpine meadow. © 2018 Science Press. All rights reserved.     

Effects of phosphorus sources on volatile organic compound emissions from <Emphasis Type="Italic">Microcystis flos</Emphasis>-<Emphasis Type="Italic">aquae</Emphasis> and their toxic effects on <Emphasis Type="Italic">Chlamydomonas reinhardtii</Emphasis>

There is diverse phosphorus (P) in eutrophicated waters, but it is considered as a crucial nutrient for cyanobacteria growth due to its easy precipitation as insoluble salts. To uncover the effects of complex P nutrients on the emission of volatile organic compounds (VOCs) from cyanobacteria and their toxic effects on other algae, the VOCs from Microcystis flos-aquae supplied with different types and amount of P nutrients were analyzed, and the effects of VOCs and their two main compounds on Chlamydomonas reinhardtii growth were investigated. When M. flos-aquae cells were supplied with K₂HPO₄, sodium pyrophosphate and sodium hexametaphosphate as the sole P source, 27, 23 and 29 compounds were found, respectively, including furans, sulfocompounds, terpenoids, benzenes, aldehydes, hydrocarbons and esters. With K₂HPO₄ as the sole P source, the VOC emission increased with reducing P amount, and the maximum emission was found under Non-P condition. In the treatments of M. flos-aquae VOCs under Non-P condition and two main terpenoids (eucalyptol and limonene) in the VOCs, remarkable decreases were found in C. reinhardtii cell growth, photosynthetic pigment content and photosynthetic abilities. Therefore, we deduce that multiple P nutrients in eutrophicated waters induce different VOC emissions from cyanobacteria, and P amount reduction caused by natural precipitation and algal massive growth results in more VOC emissions. These VOCs play toxic roles in cyanobacteria becoming dominant species, and eucalyptol and limonene are two toxic agents.     

基于等效桁架模型的基坑双排桩结构计算模型研究

在基坑双排桩支护体系中,由于前、后排桩桩间土的存在,导致其受力及变形机理变得非常复杂,而当前规程及其它常见的双排桩计算模型中,仅采用水平构件等效桩间土的作用不够完善。通过引入等效桁架模型,将前、后排桩桩间土等效为平面桁架结构,进而提出一种基坑双排桩支护结构的改进计算模型。再利用MATLAB自行编制相应的计算程序包,将该计算程序包应用到1个典型的算例分析中,对提出的基坑双排桩改进计算模型的合理性及可行性进行验证。结果表明,引入桩间土等效桁架模型后,由于考虑了桩间土的剪切变形效应和桩侧摩阻力,基坑双排桩计算模型的计算精度和合理性有了进一步提高。     

河道治理类工程环境影响评价——以北京市大兴区天堂河为例

本文以天堂河河道治理工程为例,综述了河道治理类工程施工期、运行期可能产生的各项环境影响,并提出相应的环境保护对策措施,旨在为以后的河道治理类工程环境影响评价提供参考。     

滚筒洗衣机箱体振动与噪声控制

为了减小滚筒洗衣机箱体的振动噪声,对滚筒洗衣机箱体进行了模态试验并识别出模态参数。然后建立了箱体的有限元模型,对其进行了计算模态分析。有限元分析结果与试验结果吻合较好,验证了有限元模型的正确性。依据模态分析结果,对洗衣机箱体进行改进,通过建立有限元模性进行谐响应分析,证明提高箱体刚度可以收到减振降噪效果。     

利用数学模拟方法分析硝化MBR系统中SMP转换过程

为深入了解膜生物反应器(MBR)中微生物代谢产物(SMP)的生成降解以及利用情况,研究了以NH4Cl为惟一能源物质的硝化MBR反应器中SMP浓度以及分子量(MW)变化情况,并运用活性污泥模型3(ASM3)准确地计算出微生物利用底物相关的溶解性产物(UAP)和微生物死亡相关的溶解性产物(BAP)的量分别是多少,最终证明硝化系统中产生的SMP可作为能源物质被异养菌进一步利用,而且相较于BAP而言UAP更易于被生物降解,得出结论 BAP是SMP中的主要污染成分。     

基于物联网的农村污水监测系统设计研究

针对农村污水排放点多、面广、分散、量小等特点,提出了一种利用物联网技术进行农村污水排放情况进行实时监测的系统。通过在农村集中区域部署一定量的环境传感器节点,利用无线网络传输特性,将污水排放情况传输至监测中心。综合利用物联网感知层、网络层及应用层的相关技术,介绍了感知层传感器节点的监测原理,并提出了应用层监控软件的设计方案。该系统可以有效、实时地监测污水排放流量大小、污染程度等情况,对环境监测部门具有一定的决策支持作用。     

超声辅助沉淀法制备γ-Bi_2MoO_6及其光催化性能

以Bi(NO3)3·5H2O和(NH4)6Mo7O24·4H2O为原料,采用超声辅助沉淀法制备了纳米可见光催化剂γ-Bi2Mo O6,用XRD,SEM,UV-Vis技术对其进行了表征,并以罗丹明B为目标降解物,考察了γ-Bi2Mo O6的可见光催化性能。表征结果显示,产物为高纯度正交结构的纳米γ-Bi2Mo O6,分散性良好。光催化实验结果表明:超声辅助沉淀法制备的γ-Bi2Mo O6的可见光催化活性优于普通沉淀法制备的产品;以超声辅助沉淀法制备的γ-Bi2Mo O6为光催化剂,在初始罗丹明B质量浓度为10 mg/L、初始溶液p H为7.2、γ-Bi2Mo O6加入量为10 g/L的最优条件下,反应180 min时的罗丹明B降解率达到97.48%。