绵农小麦种子巯基蛋白酶抑制剂的纯化及性质研究

绵农11号小麦种子磨粉后的胚和麸皮，经溶液浸取和硫酸铵分级沉淀获得巯基蛋白酶抑制剂（CPI）粗品，再经木瓜蛋白酶－Sepharose4B亲和层析，DEAE－Sepharose离子交换层析和SephadexG－100分子筛层析，可获得两种CPI．通过SDS－PAGE或凝胶过滤法测得其Mr分别为18800［简称CPI（H）］和10500［简称CPI（L）］．它们在PAGE，SDS－PAGE和HPLC上均为单一蛋白带．CPI（L）和CPI（H）对木瓜白酶的抑制活性（ID50）分别为7．8×10－6mol／L和3．40×10－6mol／L．对无花果蛋白酶的抑制活性分别为9．5×10－5mol／L和5．8×10－6mol／L；CPI（H）对菠萝蛋白酶有弱抑制作用，但CPI（L）则无抑制作用；无论是CPI（L）或CPI（H）对胰蛋白酶、胰凝乳蛋白酶和胃蛋白酶均无抑制作用．CPI（H）的N－末端为Ile．CPI（H）和CPI（L）在pH2．0～11．0范围内和90℃处理5min，两种CPI的抑制活性均无变化；CPI（H）和CPI（L）对木爪蛋白酶的抑制曲线经Dixon作图法，得出CPI（H）为反竞争性抑制类型，而CPI（L）为竞争性抑制类型，其Ki值为8．32×10－6mol／L．     

高Al13纳米聚合氯化铝的结构表征及混凝效果

采用AlCl36H2O和Na2CO3制备了聚合氯化铝(PAC),并采用SO42-/Ba2+沉淀-置换法分离提纯了其中的纳米Al13形态,应用27Al-NMR和XRD等现代实验技术对其中的Al13形态进行了分析表征,27Al-NMR结果表明,分离提纯后样品中的Al13含量明显高于PAC,XRD结果表明,Al13的衍射峰出现在2q角为5~25之间;混凝烧杯实验表明,纳米级PAC较传统的混凝剂AlCl3、Al2(SO4)3和PAC具有更好的除浊、脱色效果.     

南方天然水体DOM的化学分级、变化特征及三卤甲烷生成势(THMFP)特性研究

采用XAD树脂吸附法,在春季内(3～5月)连续对南方深圳水库中的水体溶解性有机物(DOM)进行化学分级表征.结果表明,天然水体DOM的总量和单个化学分级组分含量在一个季节会发生一定的波动,但总的分布特征在季节内未发生根本变化,即憎水酸(HoA)和亲水部分(HiM)浓度始终较高,而憎水碱(HoB)、憎水中性物(HoN)、弱憎水酸(WHoA)浓度则相对较低.同时,选取代表性时间点对DOM各化学分级组分进行了消毒副产物三卤甲烷生成势(THMFP)的研究,发现三卤甲烷(THMs)的主要前驱物为憎水和弱憎水有机部分,对THMFP的贡献共占约80%.进一步研究发现,憎水中性物、憎水酸、弱憎水酸的THMs生成能力较强,总体上与紫外吸收能力基本一致;但弱憎水酸表现略有不同,其SUVA(100×UV254/DOC)值并不十分突出,但三卤甲烷生成能力却明显较高,说明DOM的紫外吸收特性不能完全作为THMFP特性的替代指标.亲水物质(HiM)的SUVA值也不高,但其THMs生成能力接近憎水酸部分,值得水处理工艺研究重点关注.     

纳米氢氧化镁改性PVDF超滤膜的制备与表征

通过相转化法制备了纳米PVDF/Mg(OH)_2共混超滤膜,研究了负载Mg(OH)_2对PVDF膜结构和性能的影响。以牛血清蛋白(BSA)为模拟污染物进行超滤试验,测试膜的纯水通量和截留率;测定膜表面和水之间的接触角,进而定量分析比较膜表面的亲水性;利用微机电子控制万能试验机测试膜的机械性能;通过扫描电镜(SEM)、原子力显微镜(AFM)、X射线衍射仪(XRD)等方法表征膜表面特征。结果表明,添加纳米Mg(OH)_2的改性膜保持了原有膜的晶型结构,证明纳米Mg(OH)_2与PVDF材料有很好的相容效果。当纳米Mg(OH)_2添加量为0.8%(质量分数)时,改性效果达到最优。此时,接触角从73.1°降至59.6°,纯水通量为333.37 L/(m~2·h),较未改性前提高了126.3%,膜的拉伸最大力为6.8 N,断裂伸长率为16.2%,较未改性膜的机械性能有明显提高,膜的抗污染性也显著提高。     

Production,engine performance,combustion, emission characteristics and economic feasibility of biodiesel from waste cooking oil: A review

The depletion of fossil fuel reserves and increasing demands for diesel are considered to be important triggers for many of the initiatives that have been taken to search for possible sources for the production of biodiesel from materials available within the country. It is possible to produce biodiesel from waste/used cooking oils (WCO) that is comparable in quality to that of fresh vegetable oil. Not only does reuse of WCO, which can otherwise harm human health, reduce the burden on the government of treating oily wastewater, disposing of the waste, and maintaining public sewers, it also significantly lowers the production cost of biodiesel. In the process of frying, oil undergoes many reactions, leading to the formation of a number of undesirable compounds, such as polymers, free fatty acids, and many other chemicals. This poses challenges in the transesterification of WCO. This article covers different techniques in the production of biodiesel from WCO. It also compares combustion, emissions, and engine performance characteristics of biodiesel from WCO as well as factors affecting biodiesel production from WCO and its economic feasibility.     

Characterization of a new smog chamber for evaluating SAPRC gas-phase chemical mechanism

A new state-of-the-art indoor smog chamber facility (CAPS-ZJU) has been constructed and characterized at Zhejiang University, which is designed for chemical mechanism evaluation under well-controlled conditions. A series of characterization experiments were performed to validate the well-established experimental protocols, including temperature variation pattern, light spectrum and equivalent intensity (J_NO2), injection and mixing performance, as well as gases and particle wall loss. In addition, based on some characterization experiments, the auxiliary wall mechanism has been setup and examined. Fifty chamber experiments were performed across a broad range of experimental scenarios, and we demonstrated the ability to utilize these chamber data for evaluating SAPRC chemical mechanism. It was found that the SAPRC-11 can well predict the O₃ formation and NO oxidation for almost all propene runs, with 6 hr Δ(O₃ – NO) model error of –3% ± 7%, while the final O₃ was underestimated by ~20% for isoprene experiments. As for toluene and p-xylene experiments, it was confirmed that SAPRC-11 has significant improvement on aromatic chemistry than earlier version of SAPRC-07, although the aromatic decay rate was still underestimated to some extent. The model sensitivity test has been carried out, and the most sensitive parameters identified are the initial concentrations of reactants and the light intensity as well as HONO offgasing rate and O₃ wall loss rate. All of which demonstrated that CAPS-ZJU smog chamber could derive high quality experimental data, and could provide insights on chamber studies and chemical mechanism development.     

Surface characterization of metal oxides-supported activated carbon fiber catalysts for simultaneous catalytic hydrolysis of carbonyl sulfide and carbon disulfide

The sol–gel method was used to synthesize a series of metal oxides-supported activated carbon fiber (ACF) and the simultaneous catalytic hydrolysis activity of carbonyl sulfide (COS) and carbon disulfide (CS₂) at relatively low temperatures of 60°C was tested. The effects of preparation conditions on the catalyst properties were investigated, including the kinds and amount of metal oxides and calcination temperatures. The activity tests indicated that catalysts with 5 wt.% Ni after calcining at 400°C (Ni(5)/ACF(400)) had the best performance for the simultaneous catalytic hydrolysis of COS and CS₂. The surface and structure properties of prepared ACF were characterized by scanning electron microscope-energy disperse spectroscopy (SEM-EDS), Brunauer–Emmett–Teller (BET), X-ray diffraction (XRD), carbon dioxide-temperature programmed desorption (CO₂-TPD) and diffuse reflectance Fourier transform infrared reflection (DRFTIR). And the metal cation defects were researched by electron paramagnetic resonance (EPR) method. The characterization results showed that the supporting of Ni on the ACF made the ACF catalyst show alkaline and increased the specific surface area and the number of micropores, then improved catalytic hydrolysis activity. The DRFTIR results revealed that -OH species could facilitate the hydrolysis of COS and CS₂; -COO and -C–O species could facilitate the oxidation of catalytic hydrolysate H₂S. And the EPR results showed that high calcination temperature conditions provide more active reaction center for the COS and CS₂ adsorption.     

水环境中溶解性有机物溯源分析及分子结构表征概述

溶解性有机物(DOM)是地球上最大的碳基化合物反应性储层之一,涉及各种生物地化反应并且在污染物溶解度、毒性、生物利用度、流变性和分布中发挥重要作用。本文介绍了当前用于表征水环境中DOM的策略和工具,探讨了当前研究在技术限制(预处理过程复杂、仪器分辨率低、数据处理困)、结构复杂性、结构多变性等方面存在的诸多局限性。分析认为:已有研究主要侧重于溯源分析和分子结构特征解析,未来研究应该在不同的结构层面和角度开展,加强多学科融合、数据库创建、对照实验和协同工作。     

2020年春节期间天津市重污染天气污染特征分析

为了解春节期间重污染天气污染特征,基于城区点位2020年1月高时间分辨率的在线监测数据,开展天津市春节期间重污染分析.结果表明：区域污染物输送叠加本地污染物排放和不利气象条件导致春节重污染的发生,重污染期间天津市平均风速为0.97 m·s^-1,平均相对湿度为70%左右,边界层高度为210 m,水平和垂直扩散条件均较差.春节重污染期间,天津市PM_2.5、SO₂、NO₂和CO平均浓度分别为219、14、46 μg·m^-3和1.9 mg·m^-3,与春节前重污染相比,春节重污染期间污染程度有所降低,尤其是NO₂浓度下降明显.PM_2.5浓度空间分布表明,天津远郊区依然存在烟花爆竹燃放情况.春节重污染期间,城区PM_2.5中主要化学组分为二次无机离子（NO₃^-、SO₄^2-和NH₄⁺）、OC、K⁺和Cl^-,平均浓度分别为96.4、22.5、9.5和8.9 μg·m^-3,在PM_2.5中占比分别为41.3%、9.7%、4.1%和3.8%.与春节前重污染相比,受移动源减少、工业企业排放降低、工地停工影响,春节重污染期间NO₃^-、SO₄^2-、NH₄⁺、EC和Ca²⁺浓度及其在PM_2.5中占比明显下降;受烟花爆竹燃放影响,OC、K⁺、Cl^-和Mg²⁺浓度及其在PM_2.5中占比均上升.与清洁天气相比,春节重污染期间PM_2.5中二次无机化学转化明显增强.PMF解析结果表明,春节重污染期间,天津市城区PM_2.5的主要来源为二次无机盐、燃煤和工业、烟花爆竹及生物质燃烧、机动车和扬尘,贡献分担率分别为40.1%、30.6%、20.6%、6.9%和1.8%.与春节前重污染相比,春节重污染期间二次无机盐、机动车和扬尘贡献率分别下降25.5%、62.9%、71.4%,燃煤和工业贡献率上升51.5%,烟花爆竹及生物质燃烧源显著上升.无论是重污染还是非重污染,常态化还是特殊时期,二次无机盐、燃煤和工业排放始终是天津市PM_2.5最主要的来源,产业结构和能源结构的调整始终是天津大气污染防治的主要方向.     

农业排水沟渠硝态氮吸收动力学特征及相关性分析

为揭示农业排水沟渠NO_3~--N吸收动态变化特征,选择溴化钠(Na Br)为保守示踪剂、硝酸钾(KNO3)为添加营养盐,于2016年10月至2017年4月在合肥地区某一源头溪流开展5次示踪试验,并以TASCC方法和Michaelis-Menten(M-M)方程模拟NO_3~--N吸收动力学特征,结果表明,背景浓度条件下排水沟渠完全混合子渠段U_(amb)和V_(f-amb)的变化范围分别为11.40~69.13μg·(m~2·s)~(-1)[均值为34.45μg·(m~2·s)-1]、0.07~0.43 mm·s~(-1)(均值为0.24 mm·s~(-1)),相应地Sw-amb变化范围为92.51~405.74 m(均值为199.06 m),明显小于排水沟渠长度(也就是2.5 km),表明沟渠具有较强的NO_3~--N滞留潜力.M-M方程较好地拟合了NO_3~--N吸收动力学特征,参数Umax变化范围为158~1 280μg·(m~2·s)~(-1)[均值为631.13μg·(m~2·s)~(-1)],Km变化范围为0.16~5.52 mg·L~(-1)(均值为1.46 mg·L~(-1)).相关分析表明,Sw-amb与NO_3~--Namb呈显著负相关、Uamb与NO_3~--Namb呈极显著正相关,其它螺旋指标与NO_3~--N背景浓度的相关性均不明显;水文因素对NO_3~--N滞留影响也不显著,而沟渠槽道地貌特征指标Фw、ФA与大部分螺旋指标都呈显著相关性,表明槽道地貌特征对NO_3~--N滞留影响相对较为重要.