生物炭/铁酸镧磁性复合材料的制备及对亚甲基蓝的吸附性能

为获得吸附性能良好、便于回收利用的新型吸附剂以处理染料废水,采用超声辅助溶胶-凝胶法将铁酸镧(LaFeO_3)经过一步热解负载于生物炭制得生物炭/LaFeO_3磁性复合材料(BC/FL)。其表面形态、结构和组成分析表明:BC/FL的比表面积、总孔容及平均孔径分别为34.67m2/g、0.041cm3/g和7.82nm,磁饱和强度达到40.283A/m,表面含有C=O、C=C=N、C≡C等官能团。批量吸附实验表明,25℃下,当亚甲基蓝(MB)的初始质量浓度为30mg/L时,BC/FL的最佳投加量为1.5g/L,吸附反应在120min达到平衡,去除率可达92.3%,且吸附效果基本不受pH影响。BC/FL对MB的吸附符合准二级动力学模型,Langmuir模型可描述其等温吸附过程。化学吸附占主导地位,主要机理为静电吸附、氢键和π-π共轭作用。吸附反应为单分子层吸附且为自发的吸热过程。     

Photocatalytic reactions of phenanthrene at TiO2/water interfaces

The photocatalytic oxidation of phenanthrene was investigated in aqueous TiO2 suspensions under UV light irradiation. Chemical oxygen demand (COD) measurements, UV-Vis spectrophotometer, IR spectrometer and gas chromatography-mass spectrometry (GC-MS) analytical techniques were used to monitor the reaction process. Some factors affecting the photodegradation rate were studied and some aromatic intermediates were detected during the reaction process. Fast and complete mineralization of phenanthrene was achieved in this reaction system.     

藻渣添加对玉米秸秆厌氧发酵特征的影响

厌氧发酵是农业废弃物资源化的有效途径之一.将农业废弃物同其他富含氮元素的有机废物混合发酵能够有效地提高产气效率.以玉米秸秆为例,尝试利用藻渣作为添加剂,提高农业废弃物厌氧发酵的性能.实验主要研究了混合发酵比例对沼气产量、甲烷产量、沼渣沼液特征的影响.当玉米秸秆、藻渣和接种污泥的挥发性固体质量分数为10:2:2时,沼气产率最高可达421.0 mL/g,甲烷产率为218.7 mL/g.沼渣组分分析表明,纤维素和半纤维素降解效率分别为83.7%和68.4%,和对照相比纤维素的降解效率显著提高.结果表明,藻渣的添加能够有效地促进玉米秸秆厌氧发酵产甲烷过程.     

海洋石油工程新型溢油监测系统的研究

随着海洋石油的开采力度的加大,海上平台溢油事故也不断发生。在对传统监测方式的不足和海上溢油监测技术未来发展的趋势进行了综合考虑之后,开发了一套基于紫外诱导荧光探测技术的溢油监测系统。监测系统主要由检测终端、数据采集及异常报警系统和计算机处理及显示终端3个子模块组成,可以实现对海上平台潜在油污染源头信息的实时收集、传输、预警等功能。     

Deep learning architecture for air quality predictions

With the rapid development of urbanization and industrialization, many developing countries are suffering from heavy air pollution. Governments and citizens have expressed increasing concern regarding air pollution because it affects human health and sustainable development worldwide. Current air quality prediction methods mainly use shallow models; however, these methods produce unsatisfactory results, which inspired us to investigate methods of predicting air quality based on deep architecture models. In this paper, a novel spatiotemporal deep learning (STDL)-based air quality prediction method that inherently considers spatial and temporal correlations is proposed. A stacked autoencoder (SAE) model is used to extract inherent air quality features, and it is trained in a greedy layer-wise manner. Compared with traditional time series prediction models, our model can predict the air quality of all stations simultaneously and shows the temporal stability in all seasons. Moreover, a comparison with the spatiotemporal artificial neural network (STANN), auto regression moving average (ARMA), and support vector regression (SVR) models demonstrates that the proposed method of performing air quality predictions has a superior performance.     

污泥的粘度与浓度、温度三者关系式的实验推导

通过融合污泥粘度与污泥浓度关系式、污泥粘度与温度关系式,得到一个新的关系式:污泥粘度与污泥浓度、温度的关系式,并通过实验数据拟合出各项参数,拟合效果比较理想.得出的污泥粘度与污泥浓度、温度的关系式对了解污泥的粘度变化非常有帮助,同时,该关系式也将为污泥处理、处置方案的制定提供参考依据.     

硫化亚铁活化过一硫酸盐降解含表面活性剂水溶液中三氯乙烯的效果与机制

采用硫化亚铁(FeS)活化过一硫酸盐(PMS)降解含表面活性剂吐温-80(TW-80)水溶液中的三氯乙烯(TCE),考察了PMS和FeS投加量、TW-80浓度、溶液初始pH、无机阴离子(Cl^–和HCO₃^–)对TCE降解的影响,确定了PMS/FeS体系中的主导自由基及TCE降解机理,验证了PMS/FeS体系处理实际地下水中含TW-80的TCE效果。结果表明：增加PMS或FeS投加量有利于TCE的降解,但当其投加剂量分别超过0.8 mmol·L^–1和0.6 g·L^–1时,TCE降解反而受到抑制,且TCE的降解率随TW-80浓度的增加而下降;PMS/FeS体系对pH有较宽的适用范围,在pH=11时受到抑制,Cl^–和HCO₃^–对TCE降解有抑制作用;通过自由基淬灭实验和电子顺磁共振实验确定了SO₄^–·、HO·和O₂^–·是PMS/FeS体系中的主导自由基;相比于其他氯代烃,该体系对四氯乙烯和四氯化碳也有较好的降解效果;实际地下水的处理结果证实PMS/FeS体系在实际应用中具有潜力和优势。     

生物质灰结渣和腐蚀特性

针对目前生物质燃料燃烧过程中存在的灰结渣和受热面腐蚀问题,通过分析生物质灰的元素成分、矿物组成、理化特性及熔融特性等,探讨了灰结渣的形成过程和受热面腐蚀的机理。研究表明:生物质燃烧灰结渣的主要原因为碱金属硫酸盐及氯化物的形成降低了飞灰熔点,增加了飞灰的表面黏性,黏结在受热面表面形成结渣;此外,由于燃料中的氯化物在高温下参与氧化还原反应生成HCl和Cl₂,再与金属受热面发生化学反应,形成了受热面腐蚀。通过研究燃料成分、炉膛温度、过量空气系数、受热面材质等因素对结渣和受热面腐蚀的影响,得出可以采用生物质与煤混烧、加入添加剂、水洗及金属表面防腐等防治措施避免或减少结渣和腐蚀现象发生。     

Effects of seawater salinity on nitrite accumulation in short-range nitrification to nitrite as end product

The effect of seawater salinity on nitrite accumulation in short-range nitrification to nitrite as the end product was studied by using a SBR. Experimental results indicated that the growth of nitrobacteria was inhibited and very high levels of nitrite accumulation at different salinities were achieved under the conditions of 25--28℃, pH 7.5--8.0, and the influent ammonia nitrogen of 40--70mg/L when seawater flow used to flush toilet was less than 35% (salinity 12393 mg/L, Cl^- 6778mg/L) of total domestic wastewater flow, which is mainly ascribed to much high chlorine concentration of seawater. Results showed that high seawater salinity is available for short-range nitrification to nitrite as the end product. When the seawater flow used to flush toilet accounting for above 70% of the total domestic wastewater flow, the removal efficiency of ammonia was still above 80% despite the removal of organics declined obviously(less than 60% ). It was found that the effect of seawater salinity on the removal of organics was negative rather than positive one as shown for ammonia removal.     

莱州湾西南部岸线变迁对海域水动力影响的数值研究

20世纪70年代以来,盐田、养殖围堤、港口堤坝建设等开发活动使莱州湾西南部岸线变迁尤为显著,从而引起了海湾水动力环境的改变。为探究近50年莱州湾水动力环境对海湾西南部岸线变迁的响应,本文建立二维数值模型,研究莱州湾西南部3个时段岸线变迁对海湾潮流、纳潮量和水交换的影响。结果表明,1968－2020年莱州湾西南部流速变化以减小为主,流速变化较大的区域主要位于盐田或养殖围垦区和新建港口附近海域。近50年,莱州湾纳潮量呈逐年减小趋势,大潮、中潮、小潮和全潮平均纳潮量分别减少5.85%、7.28%、8.85%和6.47%,围填海是导致纳潮量减小的主要原因。1968－2010年莱州湾整体的水交换能力有所提高,2010－2020年则相差很小;从局部看,1990－2020年港口附近海域的水交换能力均显著降低。