荧光灯管芯柱玻璃中金属铅的机械化学硫化

以硫化钠为硫化剂,机械化学硫化荧光灯管芯柱玻璃中金属铅,实现金属铅向硫化铅快速转化.通过单因素实验,考察了不同机械化学硫化条件,即球磨时间、球磨转速和球料比对硫化率的影响,并通过XRD、SEM和粒度对硫化产物进行表征.结果表明,硫化率随球磨时间和球磨转速的增大而增大,随球料比的增大先增大后减小,当球磨转速为750r/min、球磨时间为120min、球料比为50：1g/g时,荧光灯管芯柱玻璃中金属铅的硫化率可达96.18%.XRD结果表明,荧光灯管芯柱玻璃中金属铅的机械化学硫化产物为PbS、SEM和粒度结果表明,荧光灯管芯柱玻璃的粒径随球磨转速和球磨时间的增加而减小.     

游离亚硝酸抑制硝化杆菌属(Nitrobacter)活性动力学研究

为探究游离亚硝酸（FNA）对亚硝酸盐氧化细菌中硝化杆菌属（Nitrobacter）活性抑制动力学影响,采用序批式活性污泥（SBR）反应器,在通过改变系统进水FNA浓度达到富集Nitrobacter基础上,以富含Nitrobacter污泥为对象（宏基因组物种注释和丰度分析显示上Nitrobacter占细菌总数40.3%）,基于批次试验,考察不同FNA浓度梯度下亚硝酸盐氧化过程比亚硝态氮氧化速率（SNiOR）变化规律,进而拟合FNA抑制Nitrobacter活性抑制动力学模型,并进行统计学分析.结果表明,当FNA≤0.1mg/L时,随着FNA浓度升高,SNiOR迅速升高.当FNA>0.1mg/L时,SNiOR随着FNA浓度升高而降低.尤其当FNA浓度高于0.7mg/L时,SNiOR始终维持在0gN/（gVSS·d）,表明Nitrobacter活性统被完全抑制.统计学分析结果显示相对于Haldane、Aiba、Edwards-1#、Edwards-2#、Luong抑制动力学模型,Han-Levenspiel模型最适合描述FNA对Nitrobacter活性的抑制影响.其统计学常数：残差平方和（RSS）为0.02、可决系数（R²）为0.90、拟合方程的方差检验统计量F值为78.1、可信度P值为3.29×10^-12,其动力学常数值分别为：最大比亚硝态氮氧化速率（r_max）为1.57gN/（gVSS·d）;半饱和常数（K_S）为0.01mg/L;临界抑制常数（S_m）为0.66mg/L.     

生物酶强化厌氧消化去除污泥中的PhACs

为降低污水污泥中药理活性化合物（PhACs）产生的环境风险,利用生物方法强化污泥厌氧消化,提高其去除效果.以CFA（氯贝酸）、TCS（三氯生）、DCF（双氯芬酸）、CBZ（卡马西平）4种典型的PhACs为目标污染物,利用气相色谱-质谱联用仪（GC-MS）定量分析污泥中的目标物,探究外加生物酶联合污泥厌氧消化法强化对PhACs的作用效果.结果表明,随着SRT（污泥停留时间）的增大,目标物的去除率有一定程度的增大,特别是在高温条件下,当SRT由7 d增至20 d时,CFA的去除率增长了45%;木瓜蛋白酶对中高温系统中CBZ的去除效果最佳,分别为63.8%和67.5%,同时对4种目标物总的去除率最高,分别为57.3%和61.8%;添加溶菌酶试验中,4种目标物去除效果差异较大,中温、高温系统中对TCS的去除效果最佳为81.7%和80.9%,去除效果最差的是CBZ,去除率为40.4%和33.5%;纤维素酶处理中,4种目标物的去除率均小于60%.混合生物酶试验中,高温条件下更易去除PhACs.研究显示,生物酶强化污泥厌氧消化能有效去除污水污泥中的PhACs.      

污染指数变化率在城市环境质量综合评价中的应用

本文通过计算城市各环境单元的污染指数、综合污染指数及其变化率，用比较直观的数字来表示城市的综合环境质量及其动态变化，从而提高了环境质量统计数据的可比性和可用性。     

不同基质配比对农村生活垃圾厌氧发酵效率及稳定性的影响

以典型农村生活垃圾餐厨垃圾(Food Waste,FW)与纸类垃圾(Paper Waste,PW)为基质,通过中温(35℃)批次厌氧共发酵试验,探明不同配比的基质在厌氧共发酵4阶段(水解阶段、酸化阶段、乙酸化阶段、产甲烷阶段)的动力学特性,再结合挥发性脂肪酸(Volatile fatty acids,VFAs)在系统运行过程中的变化,确定FW与PW的最佳配比。结果表明,水解阶段是纸类垃圾的主要限速步骤,而VFAs积累限制了餐厨垃圾甲烷化进程的提高,且VFAs积累主要以丙酸与丁酸为主。当w(FW)≥35%时,产甲烷速率随VFAs质量浓度增大而线性减小,过高的VFAs质量浓度抑制了产甲烷菌的活性。FW与PW最佳基质配比为35∶65(质量比),在此条件下反应速率最为突出,系统运行高效,VFAs能及时被产甲烷菌利用,无有机酸积累,系统运行平稳。     

混凝土高温爆裂性能影响因素及预防措施综述

对混凝土高温爆裂成因进行总结,综述高温下混凝土内部蒸汽压力的测试手段、降低混凝土内部蒸汽压力方法、提高混凝土在高温中的抗高温爆裂性能的方法,以及总结了升温速率对混凝土高温爆裂的影响,并提出了几种预防混凝土高温爆裂的措施,为混凝土高温爆裂研究提供依据。     

Gender response and safe carrying load limit for sugar industry workers

This study investigates the safe carrying load limit in relation to gender of workers in the sugar industry. A total of 632 workers (male and female) were interviewed following a physiological and psycho-physiological methodology. All of these workers were in the age groups of 21–30, 31–40 and ≥41 years. In this study, for the physiological methodology, both field and laboratory data were collected, which included heart rate, heart rate variability, energy expenditure and maximum rate of oxygen consumption. Information regarding hemoglobin content, weight, age, lean body weight, etc., was recorded to know the physical health of the workers. In the psycho-physiological evaluation, load-carrying limits were determined by the psychophysical rating of the load by workers from the selected age groups. By considering the physiological stresses and psycho-physiological evaluation, the safe carrying load limit was determined in head and back mode for male and female workers as per their age groups.     

Assessment of energy balance against the nutritional status of women carriers in the brickfields of West Bengal

The Indian brick industry is an unorganized sector in which large numbers of migrant women workers are employed. A survey was conducted on 62 women workers working in different brickfields of West Bengal to assess their physiological workload, nutritional profile, total energy expenditure and energy balance. Energy intake was calculated using physiological fuel values of carbohydrate, fat and protein. From the results it is seen that 13% of the sample population falls under severe (grade III) chronic energy deficiency. The average daily consumption of the workers was comparatively lower than their daily energy expenditure, considering the nature of the job which falls under heavy to extremely heavy categories. This negative energy balance is effectively observed in the nutritional anthropometry data. Thus, an immediate ergonomics intervention with better nutrition should be implemented to improve the health status of the workers so they can safely continue to work for a longer period.     

Hp-β-环糊精包络臭氧氧化去除水中PPCPs研究

为提高臭氧的稳定性,采用臭氧化Hp-β-环糊精溶液的方法对臭氧进行包络。考察了臭氧/Hp-β-环糊精包络物的氧化特性,臭氧化量和Hp-β-环糊精浓度对臭氧/Hp-β-环糊精包络物氧化能力的影响,并研究了臭氧/Hp-β-环糊精包络物对二级出水中添加的10种药品和个人护理用品(PPCPs)的去除效果。结果表明:臭氧/Hp-β-环糊精包络物具有持续的氧化能力,增加臭氧化量或Hp-β-环糊精浓度可显著提升臭氧/Hp-β-环糊精包络物的氧化能力。臭氧/Hp-β-环糊精包络物有较强的氧化性;向0.7 g/L的Hp-β-环糊精溶液中通入6 mg臭氧后,PPCPs的去除率为50%~70%,去除率受PPCPs分子结构影响。臭氧/Hp-β-环糊精包络物氧化可与其他氧化技术联合应用于污染物去除或用作臭氧化后的持续氧化。     

Aerobic N2O emission for activated sludge acclimated under different aeration rates in the multiple anoxic and aerobic process

Nitrous oxide (N₂O) is a potent greenhouse gas that can be emitted during biological nitrogen removal. N₂O emission was examined in a multiple anoxic and aerobic process at the aeration rates of 600 mL/min sequencing batch reactor (SBR_L) and 1200 mL/min (SBR_H). The nitrogen removal percentage was 89% in SBR_L and 71% in SBR_H, respectively. N₂O emission mainly occurred during the aerobic phase, and the N₂O emission factor was 10.1% in SBR_L and 2.3% in SBR_H, respectively. In all batch experiments, the N₂O emission potential was high in SBR_L compared with SBR_H. In SBR_L, with increasing aeration rates, the N₂O emission factor decreased during nitrification, while it increased during denitrification and simultaneous nitrification and denitrification (SND). By contrast, in SBR_H the N₂O emission factor during nitrification, denitrification and SND was relatively low and changed little with increasing aeration rates. The microbial competition affected the N₂O emission during biological nitrogen removal.