微波辅助白腐真菌煤炭脱硫试验研究

将微波技术与生物技术相结合用于煤炭脱硫,采用微波功率1 000 W、辐照时间80 s对煤样进行辐照处理后,考察了初始pH值、煤粉粒径和煤浆浓度对微波辅助白腐真菌脱硫效果的影响,以及脱硫过程中硫化物的转化规律。研究结果表明,微波辐照作用能够缩短脱硫周期,提高有机硫的脱除率。在初始pH值为4.5,煤粉粒径为80～120目,煤浆浓度为10%,浸出时间为3 d的条件下,煤中的全硫、无机硫和有机硫脱除率分别达到52.06%、51.61%和54.22%。     

大气环境变化对污染土壤中PBDEs自然降解过程的影响研究

以模拟电子垃圾拆解区污染土壤中的多溴联苯醚(PBDEs)为研究对象,采用室内模拟的方法,考察了臭氧浓度的上升及光照条件、温度和土壤pH值等环境因素对土壤中PBDEs自然降解过程的影响.研究结果表明:臭氧浓度的升高能明显促进PBDEs的自然降解,且臭氧浓度越高BDE-209的降解率越高,随着土壤深度增加,BDE-209去除率则相应降低,10 mg·L-1的臭氧在2 h内对深层土壤中BDE-209的去除率可达99%.光照强度为1.0 m W·cm-2的持续紫外光照条件下,土壤中BDE-209的降解现象较为明显,且光降解速率随光强的增强而增大.40℃的夏季地面高温及pH=9.0的弱碱性土壤均有利于PBDEs的自然降解.此外,PBDEs的降解过程是逐步脱溴的过程.PBDEs的降解过程既包括了BDE-209的降解,也包括了中间产物(BDE-28、BDE-47、BDE-99、BDE-100、BDE-153、BDE-154和BDE-183)的降解.当BDE-209去除率达到一定程度且中间产物逐渐积累达一定量时,中间产物的降解反应逐渐成为主导反应,导致PBDEs总量逐渐降低.     

Ultraviolet irradiation induced oxidative stress and response of antioxidant system in an intertidal macroalgae Corallina officinalis L.

The response of the antioxidant defense system of an intertidal macroalgae Corallina officinalis L. to different dosages of UV-B irradiation was investigated. Results showed that superoxide dimutase (SOD) and peroxidase (POX) increased and then maintained at a relatively stable level when subjected to UV-B irradiation. Catalase (CAT) activity under medium dosage of UV-B irradiation (Muv) and high dosage of UV-B irradiation (Huv) treatments were significantly decreased. Ascorbate peroxidase (APX) activity first remained unaltered and then increased in Huv treatment. In addition, the assay on isozymes was carried out using non-denaturing polyacrylamide gel electrophoresis (PAGE). The activities of some SOD isoforms were altered by UV-B. Two new bands (POX V and POX Ⅶ) appeared upon exposure to all three UV-B dosages. CAT Ⅲ activity was increased by low dosage of UV-B irradiation (Luv),whereas CAT Ⅲ and CAT Ⅳ disappeared when the alga was exposed to Muv and Huv. Two bands of APX (APX Ⅵ and APX Ⅶ)were increased and a new band (APX X) was observed under Huv exposure. H2O2 and thiobarbituric acid reacting substance (TBARS)increased under Muv and Huv treatments. Overall, UV-B protection mechanisms are partly inducible and to a certain extent sufficient to prevent the accumulation of damage in C officinalis.     

程序升温微波辐照法解吸活性炭上吸附的甲苯

利用微波辐照作为加热手段,采用程序升温的方法对活性炭上吸附的甲苯进行解吸。程序升温条件为：初始温度及升温幅度为100℃,每个温度点保持10min,终温500℃保持5min。实验结果表明,程序升温解吸45min,甲苯解吸率达91％。程序升温和400℃恒温微波辐照解吸两种方法对比发现,甲苯解吸率达90％的时间基本相当,但程序升温解吸的能量消耗更小,能量利用率更高。     

氯酚溶液的γ辐照还原降解研究

氯酚由于氯取代基产生的诱导效应,使其容易受到亲核粒子的攻击而被还原降解.通过测定γ辐照前后氯酚母体、Cl-离子以及反应中间产物的浓度变化,研究了4种氯酚水溶液(4-CP、2-CP、2,4-DCP、2,4,6-TCP)与水合电子ea-q反应的降解脱氯过程.结果表明,在水合电子ea-q还原体系中,4种氯酚的降解脱氯顺序依次为:2,4,6-TCP>2,4-DCP>2-CP>4-CP,多氯酚比单氯酚容易降解脱氯,邻位上的氯原子要比对位上的氯原子更容易去除,苯酚和Cl-是氯酚反应降解的最终产物.另外,4种氯酚的降解和脱氯过程皆遵循一级反应动力学特征,4-CP、2-CP、2,4-DCP和2,4,6-TCP的降解反应常数分别是0.154、0.253、0.750和1.188 kGy-1,脱氯反应常数分别为0.137、0.219、0.251和0.306 kGy-1.     

河道硬化对傍河地下水源补给结构及范围的影响

为研究傍河地下水的水均衡状况,以及傍河水源井群补给范围受河道硬化的影响,选取张家口盆地的Y傍河地下水源地为研究对象.采用数值模拟法建立研究区地下水数值模型,通过水均衡分析探究河道硬化对傍河地下水水均衡状况造成的影响;利用MODPATH对水源井群进行质点反向示踪模拟,获得井口质点向前追踪1 000 d的补给范围,对比水源井群补给范围并结合历史与近期水质数据分析河道硬化造成的影响.结果表明:①傍河地下水水均衡情况显示,主要的补给项为边界流入和降雨入渗,二者补给量分别为208.04×103与35.91×103 m3/d,占比分别为82.88%与14.31%;主要的排泄项为边界流出与地下水开采,二者排泄量分别为152.12×103与95.40×103 m3/d,占比分别为60.60%与38.01%.②河道硬化对傍河地下水水均衡的影响表现为河水对地下水的入渗量减少了46.79×103 m3/d,入渗量减幅为86.91%,且地下水停止了对河水的排泄,补给范围地下水水位下降了2~6 m.③河道硬化对傍河水源井群补给范围的影响表现为井群1 000 d的补给范围沿河流方向上减少了271 m,垂直河流的最宽距离增加了210 m,面积增加了0.77 km2,补给区域向远离河岸的方向发生偏移.④河道硬化对傍河地下水水质影响表现为河道硬化后傍河地下水pH、总硬度、氨氮浓度等均下降,有效减少了地表水污染物的入渗,但地下水的化学环境发生改变,潜在风险增加.研究显示,河道硬化极大地阻碍了河流与地下水之间的相互作用,严重影响了傍河地下水源的补给量和补给范围,使水源井群的补给区域发生偏移,给傍河地下水水源安全带来新的潜在风险.      

Fe-Ni-Si三元合金辐照诱发的Ni-Si团簇形核及生长演变机制

目的 探索辐照条件下Ni与Si元素的相互作用对RPV合金中团簇形成演变的影响.方法 对PRV合金的三元模型合金Fe-Ni-Si做离子辐照实验,并采用原子探针技术对团簇进行分析,采用纳米压痕技术进行硬度分析.结果 纳米压痕的结果表明,材料的硬度随辐照剂量的升高而增大.原子探针结果表明,辐照后材料中产生了Ni-Si溶质团簇...     

高固体污泥微波热水解特性变化

考察浓度7%、9%和13%的高固体污泥微波热水解特性,通过生化产甲烷潜能(BMP)实验,分析热处理污泥厌氧消化性能的变化.结果表明,微波加热升温速度快,污泥中悬浮性挥发固体(VSS)和悬浮固体(SS)溶解,液相COD、TOC、氨氮、TN和TP浓度增大, pH值降低.水解效率受污泥浓度影响显著,浓度13%的污泥VSS和SS溶解率低于7%和9%的污泥.170℃热水解5min,9%污泥的VSS和SS溶解率分别为23%和18%, SCOD浓度为41g/L, TOC和氨氮浓度达到30g/L和1g/L.热水解污泥厌氧消化性能提高,9%污泥的产气量在170℃、5min和10min比未处理污泥增加27%和30.8%.热水解时间对提高消化性能影响不大,热水解由5 min到10min,120℃、150℃和170℃的产气量分别增加4%、3.6%和5.7%.     

Factors influencing the photodegradation of N -nitrosodimethylamine in drinking water

In order to provide basic data for practical application, photodegradation experiment of N-nitrosodimethylamine (NDMA) in aqueous solution was carried out with a low-pressure Hg lamp. Effects of the initial concentration of NDMA, solution pH, dissolved oxygen, and the presence of humic acid on NDMA photodegradation were investigated. NDMA at various initial concentrations selected in this study was almost completely photodegraded by UV irradiation within 20 min, except that at 1.07 mmol/L, NDMA could be photodegraded almost completely in the acidic and neutral solutions, while the removal efficiency decreased remarkably in the alkaline solution. Dissolved oxygen enhanced the NDMA photodegradation, and the presence of humic acid inhibited the degradation of NDMA. Depending on the initial concentration of NDMA, NDMA photodegradation by UV obeyed the pseudo-first-order kinetics. Dimethylamine, nitrite, and nitrate were detected as the photodegradation products of NDMA. ¹O₂ was found to be the reactive oxygen species present in the NDMA photodegradation process by UV, based on the inhibiting experiments using tert-butanol and sodium azide.     

利用辐照预处理麦秆作为反硝化固体碳源的研究

采用经辐照预处理的秸秆作为反硝化微生物的固体碳源和生物膜载体反硝化脱氮,以考察辐照预处理是否可以提高麦秆作为固体碳源反硝化的性能.静态试验结果表明,辐照预处理可以使麦秆作为固体碳源反硝化的反硝化速率提高20%,在硝酸氮初始浓度65.3 mg/L时,辐照剂量300 kGy的麦秆的反硝化速率可以达到0.087　mg/(g·h),硝酸氮去除率在90%以上.部分试验结果通过麦秆的表面结构红外分析和扫描电镜观察得到了证实.