超临界水氧化技术及在废水处理中的应用

超临界水氧化法是一种很有前途的废水处理方法。介绍了超临界水的性质、超临界水氧化技术的原理及在废水处理中的应用,并对该技术存在的问题和发展前景进行了探讨。     

Mechanisms for simultaneous ozonation of sulfamethoxazole and natural organic matters in secondary effluent from sewage treatment plant

• SMX was mainly degraded by hydrolysis, isoxazole oxidation and double-bond addition. • Isoxazole oxidation and bond addition products were formed by direct ozonation. • Hydroxylated products were produced by indirect oxidation. • NOM mainly affected the degradation of SMX by consuming ^•OH rather than O₃. • Inhibitory effect of NOM on SMX removal was related to the components’ aromaticity. Sulfamethoxazole (SMX) is commonly detected in wastewater and cannot be completely decomposed during conventional treatment processes. Ozone (O₃) is often used in water treatment. This study explored the influence of natural organic matters (NOM) in secondary effluent of a sewage treatment plant on the ozonation pathways of SMX. The changes in NOM components during ozonation were also analyzed. SMX was primarily degraded by hydrolysis, isoxazole-ring opening, and double-bond addition, whereas hydroxylation was not the principal route given the low maximum abundances of the hydroxylated products, with m/z of 269 and 287. The hydroxylation process occurred mainly through indirect oxidation because the maximum abundances of the products reduced by about 70% after the radical quencher was added, whereas isoxazole-ring opening and double-bond addition processes mainly depended on direct oxidation, which was unaffected by the quencher. NOM mainly affected the degradation of micropollutants by consuming ^•OH rather than O₃ molecules, resulting in the 63%–85% decrease in indirect oxidation products. The NOM in the effluent were also degraded simultaneously during ozonation, and the components with larger aromaticity were more likely degraded through direct oxidation. The dependences of the three main components of NOM in the effluent on indirect oxidation followed the sequence: humic-like substances>fluvic-like substances>protein-like substances. This study reveals the ozonation mechanism of SMX in secondary effluent and provides a theoretical basis for the control of SMX and its degradation products in actual water treatment.     

Mapping loci that control lateral spike development in Tibetan barley by bulked segregant analysis (BSA)北大核心CSCD

Fertility of lateral spikelets determines the two-rowed or six-rowed spikes of barley (Hordeum vulgare L.), which results in significantly different grain yields. The change in row type from two-rowed to six-rowed shows remarkable domestication characteristics. The Qinghai-Tibet plateau has abundant resources of wild and cultivated barley, and is considered one of the centers of domestication and genetic diversity of cultivated barley. In order to obtain a primary understanding of the genetic basis of lateral spike development regulation and the domestication process in cultivated Tibetan barley, an F2 segregation population was constructed by crossing the two-rowed wild barley accession ZYM0083 with the six-rowed landraces Linzhiheiliuleng. Genetic analysis showed that the row type was controlled by a single gene. Using the specific-locus amplified fragment sequencing (SLAF-seq) technology and bulked segregant analysis (BSA), two DNA pools from 22 two-rowed spike individuals and 22 six-rowed spike individuals of the F2 population were constructed and sequenced. A total of 456 691 SLAF tags were obtained. By adopting the ED and SNP index for association analysis, three candidate regions with a 53.84-Mb interval and containing 536 genes were obtained. Four-hundred thirteen, 189, and 160 annotated genes were acquired by GO, KEGG, and COG libraries, respectively. Loci that control lateral spike development in Tibetan barley were primarily mapped by SLAF-seq, and the results presented in this study will facilitate the fine mapping and cloning of target genes. © 2018 Science Press. All rights reserved.     

Duckweed Landoltia punctata purifies micro-polluted surface water and produces starch北大核心CSCD

Aquatic plant duckweed has remarkable potential in nutritional water purification and starch accumulation; at present, it has received increasing attention. This study aimed to investigate the ability of duckweed in nutrient recovery from micro-polluted surface water; further, the starch accumulation capacity of duckweed was evaluated. The results showed that duckweed can achieve better depth treatment of the micro-polluted surface water, within 1-day treatment, by duckweed. Ammonia nitrogen and total phosphorus status of Class V and worse than class V water was improved to a superior level; moreover, the nitrogen and phosphorus removal rates were 98.5% and 82.9%, respectively. In addition, duckweed can rapidly accumulate starch during water treatment. The starch content of duckweed was 28.38% and 21.57% (dry weight) in Class V and worse than class V wastewater after 3 days of treatment, respectively, and reached 52.15% and 49.58% on day 15. Moreover, additional carbon dioxide (CO2) supplementation promoted the starch production. The starch content increased by 55.7% compared with that of control, and the average starch accumulation rate increased by 2.72 times in 3 days. Therefore, duckweed can not only rapidly purify micro-polluted water, but also accumulate a large amount of starch. This study forms the basis for wastewater treatment and post-treatment utilization of duckweed biomass. © 2018 Science Press. All rights reserved.     

多氯联苯羟基化代谢物及其雌激素效应研究进展

多氯联苯作为一种环境内分泌干扰物,具有一定的雌激素干扰效应,导致动物雌激素水平紊乱或功能异常,从而影响生殖、发育或行为。羟基多氯联苯是多氯联苯最主要的活性代谢产物,已经在动物和人体组织中被检出。羟基多氯联苯的化学性质和分子空间构象使其雌激素干扰效应可能较母体化合物更强。因此,它们对人类和动物机体的潜在影响以及由此带来的新的毒理学问题成为内分泌干扰研究领域的热点之一,相关的毒性作用机制需要进一步探索。本文对多氯联苯的代谢途径、羟基多氯联苯在生物体内的暴露水平、雌激素干扰效应及作用机制进行综述。     

湖北农村燃柴和燃煤家庭大气多环芳烃污染特征和呼吸暴露风险

以具有致癌毒性的多环芳烃(polycyclic aromatic hydrocarbons,PAHs)为对象,本研究于2014年1月(冬季)在湖北恩施农村地区使用煤炭和薪柴的家庭中同步采集了室内外空气样品,分析了室内外空气中28种PAHs(∑PAH28)的浓度水平、成分谱和粒径分布,重点比较了不同燃料家庭的污染特征差异,并据此估算了暴露人群的健康风险。结果表明,在燃煤家庭,∑PAH28的室内和室外浓度分别是(507±449) ng·m~(-3)和(120±18) ng·m~(-3);而在燃柴家庭,其室内和室外∑PAH28浓度分别是(849±421) ng·m~(-3)和(268±44) ng·m~(-3)。受室内排放源影响,室内PAHs浓度显著高于室外,室内外∑PAH28浓度比值在2～13。颗粒态PAHs主要集中在细颗粒物上,PM1.0(空气动力学直径小于1.0μm)上的PAHs占到颗粒态PAHs的50%～80%。燃煤家庭的居民因PAHs呼吸暴露导致的终生致癌风险的中位数是1.8×10~(-5)(四分位距是1.2×10~(-5)～3.1×10~(-5)),使用薪柴的家庭人群暴露风险7.1×10~(-5)(6.5×10~(-5)～7.8×10~(-5))。无论是燃煤还是薪柴的家庭,居民因PAHs呼吸暴露导致的终生致癌风险均超过10-6的可接受风险水平,表明该地区的高浓度PAHs污染致使当地人群存在较高的致癌风险。     

SmMnO3钙钛矿型氧化物的制备及其催化氧化甲苯性能

采用溶胶-凝胶法制备了SmMnO3钙钛矿型氧化物,将其作为催化剂,在固定床反应器中研究了催化剂的焙烧温度和混合气体积空速对甲苯催化氧化效果的影响,并通过XRD、SEM、XPS、H2-TPR等技术表征了催化剂的微结构及化学性质.结果表明:催化剂对甲苯的催化氧化活性随焙烧温度升高而提高;焙烧温度为800℃时制备的催化剂(S...     

基于GSM/GPRS和3S技术的环境应急应用

介绍了应用GSM\GPRS和3S等高新技术建立的环境应急远程指挥系统。该系统能够实现对环境突发事件的远程监控和管理,提高了我国对环境突发事件的应急反应能力,在我国环保行业是一个新的尝试。文中对系统的设计、工作原理、数据组织、功能、实现和应用情况等进行了详细的阐述。     

提取七叶皂苷钠的废水处理

提取七叶皂苷钠废水中含有七叶皂苷钠、淀粉、色素、胶质。其中七叶皂苷钠易起泡,不易回收和处理,本文采用加抑泡剂(YP1),深度处理回收釜残液,使综合废水浓度降低,经水解酸化3h,好氧生物处理6h,出水CODCr<100mgL,达到国家规定的排放标准。     

陶瓷行业白烟废气治理的初步研究

简述了陶瓷废气处理的技术方案、工艺流程及其废气净化装置的结构组成。以某陶瓷厂白烟废气治理为实例,废气净化装置对废气中白烟的去除效果明显,SO2和烟尘浓度从处理前的568·8mg/Nm3和324·6mg/Nm3降低到76·2·0mg/Nm3和122·4mg/Nm3,去除率分别达到86·6%和54·6%,处理后的SO2和烟尘排放浓度都达到《工业窑炉大气污染物排放标准》(GB/9078-1996)的二级标准。试验结果表明,该废气净化装置及技术解决了陶瓷行业废气的白烟污染,并具有较好的脱硫除尘效果。