包埋法处理抗生素废水的试验研究

采用包埋活性污泥对抗生素废水进行了试验研究,以COD、BOD5、NH3-N和TN去除率为指标,考察包埋活性污泥处理抗生素废水的可行性,结果表明,COD、BOD5、NH3-N和TN去除率分别为68.02%、78.80%、45.00%和49.11%.说明包埋法处理抗生素废水是可行的,尤其是去除TN上具有一定的优势.     

Evaluation of the RAMS continuous monitor for determination of PM2.5 mass including semi-volatile material in Philadelphia,PA

The real-time ambient mass sampler (RAMS) is a continuous monitor based on particle concentrator, denuder, drier, and tapered element oscillating microbalance (TEOM) monitor technology. It is designed to measure PM2.5 mass, including the semi-volatile species NH4NO3 and semi-volatile organic material, but not to measure PM2.5 water content. The performance of the RAMS in an urban environment with high humidity was evaluated during the July 1999 NARSTO-Northeast Oxidant and Particles Study (NEOPS) intensive study at the Baxter water treatment plant in Philadelphia, PA. The results obtained with the RAMS were compared to mass measurements made with a TEOM monitor and to constructed mass obtained with a Particle Concentrator-Brigham Young University Organic Sampling System (PC-BOSS) sampler designed to determine the chemical composition of fine particles, including the semi-volatile species. An average of 28% of the fine particulate material present during the study was semi-volatile organic material lost from a filter during particle collection, and 1% was NH4NO3 that was also lost from the particles during sampling. The remaining mass was dominantly nonvolatile (NH4)2SO4 (31%) and organic material (37%), with minor amounts of soot, crustal material, and nonvolatile NH4NO3. Comparison of the RAMS and PC-BOSS results indicated that the RAMS correctly monitored for fine particulate mass, including the semivolatile material. In contrast, the heated filter of the TEOM monitor did not measure the semi-volatile material. The comparison of the RAMS and PC-BOSS data had a precision of +/-4.1 microg/m3 (+/-9.6%). The precision of the RAMS data was limited by the uncertainty in the blank correction for the reversible adsorption of water by the charcoal-impregnated cellulose sorbent filter of the RAMS monitor. The precision of the measurement of fine particulate components by the PC-BOSS was +/-6-8%.     

Physiological aspects of vetiver grass for rehabilitation in abandoned metalliferous mine wastes

Physiological aspects of why vetiver grass (Vetiveria zizanioides L.) can be tolerant to heavy metals and be used as an alternative method for rehabilitation of abandoned metalliferous mine wastelands have been investigated. The results showed that high proportions of lead and zinc (Pb/Zn) tailing greatly inhibited the leaf growth, dry matter accumulation, and photosynthesis of leaves, but stimulated the accumulation of proline and abscisic acid (ABA), and enhanced the activities of superoxide dismutase (SOD), peroxidase (POD) and catalase (CAT), implying that different mechanisms to detoxify active oxygen species (AOS) existed in different parts of plants. Physiological responses to heavy metal treatments differed greatly between roots and shoots. Nitrogen fertilizer application could greatly alleviate the adverse effects of high proportions of Pb/Zn tailing on vetiver grass growth.     

土壤中残留苯磺隆的高效液相色谱分析

本文报道了一种固相萃取净化，高效液相色谱测定土壤中苯磺隆的残留分析方法，不同土壤的添加回收率平均为８３．３％，８６．３％，７７．２％，线性范围２．５５－５１０ｎｇ，利用本法分析苯磺隆，精确、简便、快速。     

黄杆菌P3-2降解对硫磷的质粒

黄杆菌(Flavobacterium sp.)P3-2具有水解对硫磷农药的能力.该菌在L.B培养基或以乙酸、乙醇或甘油为碳源的合成培养基上能产生对硫磷水解酶.用碱裂解法从P3-2菌株中分离出一种质粒(PAR).P3-2菌株经丝裂霉素C处理后,消除质粒的原菌株丧失了产生对硫磷水解酶的性能.用蔗糖梯度离心纯化的质粒DNA经EcoRI和BamHI消化,分别产生16和2个DNA片段、以EcoRI消化λDNA产生的6个片段的分子量作标准,测得PAR质粒的分子量约为37.16×10~6 dalton.在电镜下观察呈环状的DNA分子.     

衡山地区酸性降水来源和成因的研究

运用大气物理和大气化学相结合的方法,通过对衡山气态污染物、大气气溶胶、云水和降水的同步综合观测和分析,探讨了衡山地区酸性降水的来源和成因,指出衡山地区的酸性降水与大气污染物的传输有关.     

西南酸雨地区土壤中铝溶出规律的探讨

本文介绍了实验室动态模拟结果,对西南地区酸性沉降引起的土壤铝淋溶过程予以探讨。通过计算机推算拟合,提出了预测土壤中铝淋溶容量计算法。运用正交实验法,研究了近似于天然的动态过程中影响铝淋溶的主要因素及各因素间的相关性。得到了当降雨pH<6.0时,酸性土或弱酸性土中铝溶量和时间呈指数关系,以及影响铝溶出因素主要是酸雨的pH值、土壤的缓冲能力和环境温度等结论。     

生活垃圾焚烧飞灰中重金属浸出影响研究

通过浸出液pH测定、全量测定以及(HJ/T 299-2007)硫酸硝酸法和(HJ/T 300-2007)醋酸缓冲溶液法浸提,对生活垃圾焚烧飞灰中重金属浸出特性进行了实验研究.结果表明浸出pH条件、飞灰中重金属含量以及重金属分布形态是影响浸出浓度的主要因素.相比于硫酸硝酸法,醋酸缓冲溶液法重金属提取效率明显较高,尤其是铜锌镉铬.垃圾焚烧飞灰潜在环境风险较大,在填埋处理及综合利用时应充分考虑其浸出特性.     

Metal ferrites nanoparticles for catalytic and photocatalytic ozonation in wastewater treatment: a review

Environmental Chemistry Letters - The discharge of various pollutant-rich wastewater in large volumes without adequate treatment seriously endangers the environment. Catalytic and photocatalytic...     

Evaluation of the RAMS Continuous Monitor for Determination of PM2.5 Mass Including Semi-Volatile Material in Philadelphia,PA

Abstract

The real-time ambient mass sampler (RAMS) is a continuous monitor based on particle concentrator, denuder, drier, and tapered element oscillating microbalance (TEOM) monitor technology. It is designed to measure PM_2.5 mass, including the semi-volatile species NH₄NO₃ and semi-volatile organic material, but not to measure PM_2.5 water content. The performance of the RAMS in an urban environment with high humidity was evaluated during the July 1999 NARSTO-Northeast Oxidant and Particles Study (NEOPS) intensive study at the Baxter water treatment plant in Philadelphia, PA. The results obtained with the RAMS were compared to mass measurements made with a TEOM monitor and to constructed mass obtained with a Particle Concentrator-Brigham Young University Organic Sampling System (PC-BOSS) sampler designed to determine the chemical composition of fine particles, including the semi-volatile species. An average of 28% of the fine particulate material present during the study was semi-volatile organic material lost from a filter during particle collection, and 1% was NH₄NO₃ that was also lost from the particles during sampling. The remaining mass was dominantly nonvolatile (NH₄)₂SO₄ (31%) and organic material (37%), with minor amounts of soot, crustal material, and nonvolatile NH₄NO₃. Comparison of the RAMS and PC-BOSS results indicated that the RAMS correctly monitored for fine particulate mass, including the semi-volatile material. In contrast, the heated filter of the TEOM monitor did not measure the semi-volatile material. The comparison of the RAMS and PC-BOSS data had a precision of ±4.1 μg/m³ (±9.6%). The precision of the RAMS data was limited by the uncertainty in the blank correction for the reversible adsorption of water by the charcoal-impregnated cellulose sorbent filter of the RAMS monitor. The precision of the measurement of fine par-ticulate components by the PC-BOSS was ±6-8%.