Synthesis, crystal structure, photodegradation kinetics and photocatalytic activity of novel photocatalyst ZnBiYO4

ZnBiYO₄ was synthesized by a solid-state reaction method for the first time. The structural and photocatalytic properties of ZnBiYO₄ were characterized by X-ray diffraction, scanning electron microscopy, X-ray photoelectron spectroscopy and UV-Vis diffuse reflectance. ZnBiYO₄ crystallized with a tetragonal spinel structure with space group I41/A. The lattice parameters for ZnBiYO₄ were a = b = 11.176479 Å and c= 10.014323 Å. The band gap of ZnBiYO₄ was estimated to be 1.58 eV. The photocatalytic activity of ZnBiYO₄ was assessed by photodegradation of methyl orange under visible light irradiation. The results showed that ZnBiYO₄ had higher catalytic activity compared with N-doped TiO₂ under the same experimental conditions using visible light irradiation. The photocatalytic degradation of methyl orange with ZnBiYO₄ or N-doped TiO₂ as catalyst followed first-order reaction kinetics, and the first-order rate constant was 0.01575 and 0.00416 min^-1 for ZnBiYO₄ and N-doped TiO₂, respectively. After visible light irradiation for 220 min with ZnBiYO₄ as catalyst, complete removal and mineralization of methyl orange were observed. The reduction of total organic carbon, formation of inorganic products, SO₄^2- and NO₃^-, and evolution of CO₂ revealed the continuous mineralization of methyl orange during the photocatalytic process. The intermediate products were identified using liquid chromatography- mass spectrometry. The ZnBiYO₄/(visible light) photocatalysis system was found to be suitable for textile industry wastewater treatment and could be used to solve other environmental chemical pollution problems.     

废水中α-氯代环己基苯基甲酮的电化学降解

采用石墨电极对含α-氯代环己基苯基甲酮的氯化清洗水进行电化学降解。结果表明,电化学降解对COD的去除效果非常明显,并且随着电流密度增加,COD的去除效率逐渐升高,电流密度由15 mA/cm2增加至100 mA/cm2, COD的去除率从39.7%升高到72.3%;电化学降解作用下,水样可生化性显著提高,降解2 h后,(BOD5)/(COD)由原水的0.22提高到0.46;电化学降解过程中,COD的降解遵循零级反应动力学方程;此外,还对电化学降解过程中α-氯代环己基苯基甲酮的降解途径进行了推测。     

Ecotect在建筑玻璃幕墙光反射影响评价中的应用研究

将Ecotect软件应用到建筑玻璃幕墙光反射影响评价中,应用结果表明,Ecotect软件能准确地确定建筑玻璃幕墙反射光的影响范围,且能准确地确定幕墙遮阳设施或周围建筑的遮挡效果,这可大大加强建筑玻璃幕墙光反射影响评价的准确性.另外,Ecotect软件还可准确地分析出受影响的敏感目标或敏感目标受照反射光的来源,这可使幕墙设计者有针对性对受影响敏感目标或对敏感目标产生反射光影响的建筑玻璃幕墙立面采取预防控制措施,来降低或者消除光反射,从而从源头上减少或消除幕墙反射光对周围环境敏感目标的影响.     

Dynamic-risk-informed safety barrier management: An application to cost-effective barrier optimization based on data from multiple sources

An integrated approach for performance assessment and management of safety barriers in a systemic manner is needed concerning the prevention and mitigation of major accidents in chemical process industries. Particularly, the effects of safety barriers on system risk reduction should be assessed in a dynamic manner to support the decision-making on safety barrier establishments and improvements. A simulation approach, named Simulink-based Safety Barrier Modeling (SSBM), is proposed in this paper to conduct dynamic risk assessment of chemical facilities with the consideration of the degradation of safety barriers. The main functional features of the SSBM include i) the basic model structures of SSBM can be determined based on bow-tie diagrams, ii) multiple data (periodic proof test data, continuous condition-monitoring data, and accident precursor data) may be combined to update barrier failure probabilities and initiating event probabilities, iii) SSBM is able to handle uncertainty propagation in probabilistic risk assessment by using Monte Carlo simulations, and iv) cost-effectiveness analysis (CEA) and optimization algorithms are integrated to support the decision-making on safety barrier establishments and improvements. An illustrative case study is demonstrated to show the procedures of applying the SSBM on dynamic risk-informed safety barrier management and validate the feasibility of implementing the SSBM for cost-effective safety barrier optimization.     

Response to environmental flows in the lower Tarim River, Xinjiang, China: ground water

In China's west since the 1950s large-scale ecosystem degeneration has occurred through water diversions for agricultural purposes. Since 2000, 1038 x 10(6) m(3) of water have been released into the Tarim River with the result that water reached the terminal Taitema Lake for the first time in 30 years. This environmental flow raised water-table levels along 350 km of the river. To assess the response of the water-table, a comparison "pristine" site is compared with downstream monitored sites. The results show huge changes in water-table levels. The study verifies that the water-table is extremely responsive to environmental flows, that strong internal similarities exist along the length of the river, and that the effect on the water-table and hence likely riparian vegetation recovery can be tentatively predicted. The actual impacts of the restoration strategy are less than those originally expected politically, socially and within the scientific community. We make recommendations on more effective release strategies.     

蒙脱土原位生长MoS2复合材料光催化降解罗丹明B的机理研究

通过在Na⁺-MMT表面生长MoS₂来提高窄带隙半导体光生电子分离速率及稳定性.利用阳离子填充法及水热法成功制备了复合光催化剂Na⁺-MMT/MoS₂,并通过FT-IR、SEM、TEM、Raman、XRD、TG、XPS、UV-DRS和ESR等表征进一步证明了材料的成功负载及光、电化学性能. 同时,以有机染料罗丹明B为待降解染料来评价光催化剂的催化性能,发现其在80 min可有效降解罗丹明B,降解率达96%.经过5次循环使用后,Na⁺-MMT/MoS₂复合光催化剂仍具有较好的光催化性能.因此,利用MMT的表面电负性及稳定的片层结构负载MoS₂,可形成光生电子迁移通道进一步提高电荷迁移速率及光催化剂的稳定性.本研究可为黏土材料调控窄带隙半导体制备环境友好型光催化剂提供新思路.     

电活性生物膜阳极构建及其对2，4，6-三氯酚同步降解和产电

为实现氯酚（CPs）的高效降解和资源化利用,探究微生物燃料电池（MFC）体系优势功能菌,揭示生物降解路径.接种、驯化长春市南郊污水处理厂的厌氧活性污泥,获得生物膜阳极以构筑MFC-2,4,6-TCP体系,基于扫描电子电镜（SEM）、16S rRNA分析测序方法,考察生物膜阳极微生物的附着情况和优势菌种,基于电化学阻抗（EIS）、循环伏安（CV）和线性扫描伏安（LSV）等电化学分析手段,表征生物阳极的电化学性能和氧化还原能力.结果表明,生物膜阳极微生物种类丰富,其中Geobacter和Acinetobacter分别为MFC-2,4,6-TCP体系产电和降解驯化期的优势功能菌,体系最大输出电压可达0.55 V,最大功率密度为428.65 mW·m-2,对2,4,6-TCP的降解和矿化率可达97.5%和85.4%.随着MFC循环次数的增加,微生物代谢途径多样化,产电菌逐渐演替为协同菌,且优势功能菌对2,4,6-TCP降解的中间产物（环己醇）,其毒性远低于氯酚或苯酚,更利于被微生物利用.该结果可为氯酚废水的实际处理提供新策略和技术参考.     

g-C3N4/TiO2纳米管阵列光阳极的制备及其光电催化降解邻氯硝基苯

采用阳极氧化-涂覆煅烧法成功制备了g-C₃N₄/TiO₂纳米管阵列（g-C₃N₄/TNAs）光阳极,并通过扫描电镜、X射线衍射仪、X射线光电子能谱仪、紫外可见漫反射光谱仪、光致发光光谱仪和电化学工作站等表征分析了g-C₃N₄/TNAs光阳极的形貌、晶形结构、光学特性和光电化学性能.表征结果证实,g-C₃N₄的引入通过缩小禁带宽度扩宽了TNAs的可见光响应范围,提高了光电流密度和光生电子寿命,促进了光生电子和空穴的分离.g-C₃N₄/TNAs光阳极在光电催化体系内对邻氯硝基苯（o-CNB）的降解效率高于其在光催化和电催化体系中对o-CNB的降解效率,且具有良好的稳定性和可重复性.活性物质捕获实验、电子自旋共振测试和能带结构分析表明,g-C₃N₄/TNAs光阳极中TNAs和g-C₃N₄之间存在Z型异质结相互作用机制.在光电催化体系内降解o-CNB的主要活性物质是^?O₂^-、^?OH和光生空穴,而光生电子是次要的活性物质.     

FeS对CW-MFC系统降解活性艳红X-3B效果及过程的影响

在自行构建的人工湿地-微生物燃料电池(CW-MFC)系统中,以砾石填料为对照,研究了FeS对活性艳红X-3B脱色效果及降解过程的影响.结果表明,加在底层区域的FeS能够显著提高CW-MFC对活性艳红X-3B的脱色效果和系统产电性能.FeS的投加使得系统脱色率在进水活性艳红X-3B浓度200mg/L、葡萄糖浓度100mg/L条件下达到99.83%.在进水活性艳红X-3B浓度100mg/L、葡萄糖浓度200mg/L条件下,FeS组最大功率密度达到0.849W/m³.活性艳红X-3B在系统中的脱色主要发生在底层和阳极区域,由紫外-可见全波长扫描图谱和GC-MS扫描图谱可知FeS在该区域促进了偶氮双键的断裂,并有利于脱色产物苯胺、三嗪结构、萘环结构的进一步降解.     

Tribal communities,the forests,the fisher folk and the river: whither water justice?

Excessive exploitation of and skewed access to dwindling water resources raise serious water justice concerns. Environmental justice movements and related literature have raised critical questions regarding the unequal distribution of the costs and benefits of a development paradigm that is founded on excessive exploitation and appropriation of natural resources. This paper explores the growing relevance of a water justice framework that addresses both the social and ecological aspects of water use and appropriation, with reference to a four-decade long water conflict over the Chaliyar River in Kerala, South India. It highlights how ecosystem degradation and denial of justice go hand in hand. The paper argues that the framing and articulation of the conflict in a partisan manner led to the glossing over of certain critical features, thus preventing a full view of water injustices. It also failed to inform subsequent policies and practices in this regard.