固相微萃取技术在环境监测分析中的应用进展

样品前处理是整个样品分析过程中的关键一环,其目的在于减少杂质对待测物的干扰及对目标物进行富集。固相微萃取技术是集采样、萃取、富集、进样于一体的样品前处理新技术。近年来,固相微萃取技术在环境污染物监测分析领域得到了广泛应用,该文章系统地综述了固相微萃取技术在不同环境基质(水体、大气、土壤及沉积物)预处理的方法,比较了不同类型涂层材料(如纳米材料、离子液体等)与装置形式(如内部冷却固相微萃取、箭形固相微萃取等)的优缺点及应用范围。针对现阶段固相微萃取技术应用于不同环境基质中存在的问题和不足,提出进一步研究的方向。     

HPLC法测定水和废水中的醛酮类化合物

将水样用1mol／L柠檬酸缓冲液调节至酸性(pH=3),其中醛酮类化合物与2,4-二硝基苯肼(DNPH)发生衍生化反应,生成稳定的化合物——腙,经C18固相萃取小柱富集、乙腈淋洗后,用带有二极管阵列检测器的高效液相色谱仪(HPLC)经32 min完成15种醛酮类化合物定性、定量分析。当测定样品为100mL时,检测限均为μg／L级,其中丙酮最高为16μg／L,丁醛最低为1.1μg／L,一般在2μg／L～6μg／L之间。     

固相微萃取—气相色谱法测定水中痕量硝基苯类化合物

建立了固相微萃取种类与气相色谱联用测定地下水中12种硝基苯类化合物的分析方法,对萃取头种类、萃取时间、萃取温度、进样口衬管种类等分析条件进行了优化。实验结果表明,该方法的检出限为0.001~0.050 μg/L,线性范围0.005~500 μg/L（相关系数大于0.997）,加标回收率为72.1%~122.0%,相对标准偏差为3.65%~12.60%。应用该方法对地下水及地表水样品进行分析,结果表明该方法具有环保、灵敏、快速、简便等特点,适用于水中痕量硝基苯、硝基甲苯类化合物和硝基氯苯类化合物的测定。     

高效液相色谱法测定土壤中多环芳烃的条件优化

研究了加速溶剂萃取(ASE)、固相萃取柱净化(SPE)、高效液相色谱仪(HPLC)联合测定土壤中16种多环芳烃(PAHs)的分析方法,选择以正己烷/丙酮(1+1,V/V)作为ASE提取溶剂,提取液经SPE硅胶小柱净化,正己烷/二氯甲烷(1+1,V/V)进行洗脱,洗脱体积为10 m L,洗脱液经旋转蒸发浓缩至近干,过0.22μm有机滤膜,用乙腈定容至1 m L,最后用HPLC-紫外检测器对提取液中16种PAHs进行定量分析。土壤中16种PAHs的方法检出限为2.8~4.9μg/kg,加标回收率为81.9%~102%,相对标准偏差为2.5%~6.2%,完全满足土壤中PAHs分析的质量控制要求,该法稳定性好、准确度高、可操作性强,适合于土壤样品中16种PAHs的准确测定。     

顶空固相微萃取-气相色谱法测定饮用水中的百菌清

建立了顶空固相微萃取(HS-SPME)-气相色谱法(GC-ECD)分析饮用水中百菌清的方法。对HS-SPME的各项参数进行了优化:萃取纤维应选择弱极性的聚二甲基硅氧烷(PDMS,100μm),水样分析前应加入一定量的H2SO4溶液和Na Cl固体,调节pH和离子强度,可显著提高萃取效率。萃取温度70℃,萃取时间30 min,搅拌速度250 r/min,解吸时间3 min。根据优化后的条件,从线性、检出限、回收率、精密度等方面对整个方法进行了验证,结果表明,该方法线性良好,相关系数大于0.999,回收率与精密度均符合要求。取样量为10.0 mL时,检出限为0.09μg/L,可完全满足饮用水分析的需要。     

Fabrication and characterization of electrospun porous cellulose acetate nanofibrous mats incorporated with capric acid as form-stable phase change materials for storing/retrieving thermal energy

Electrospun cellulose acetate (CA) nanofibrous mats incorporated with capric acid was studied to fabricate form-stable phase change materials (PCMs) for storing/retrieving thermal energy. Electrospun CA nanofibrous mats with different porous structures and specific surface areas were firstly prepared through regulating the volume ratio of mixture solvent of acetone/dichloromethane (DCM). Effects of different volume ratio of mixture solvent and mat thickness on the morphological structure, specific surface area, and absorption capacity of CA nanofibrous mats were systematically investigated. The results indicated that CA nanofibrous mats were highly porous on the surface; hence, they were capable of absorbing a large amount of capric acid. The maximum absorption capacity of CA mats via electrospinning with volume ratio of acetone/DCM being 5/5 was ~95.8 wt%, due to its higher specific surface area of ~17.1 m²/g. The specific surface area and capric acid absorption capacity of CA nanofibrous mats increased with the increases of mat thickness. As the thickness of nanofibrous mats increased from 10 to 85 μm, the corresponding specific surface area and capric acid absorption capacity of mats increased respectively from 7.2 to 29.0 m²/g and 92.1 to 98.5%. Morphological structures, as well as the properties of thermal energy storage and thermal insulation of the fabricated form-stable PCMs, were studied by scanning electron microscopy, differential scanning calorimetry, and measurement of freezing times, respectively. The results indicated that the resulting form-stable PCMs could well maintain their phase transition characteristics and demonstrated great thermal energy storage capability and temperature regulation ability.     

Energy and exergy analysis of a heat storage tank with a novel eutectic phase change material layer of a solar heater system

Solar energy is one of the most important renewable energy sources, but it is not available every time and every season. Thus, storing of solar energy is important. One of the popular methods of heat storage is use of phase change materials (PCMs) which have large thermal energy storage capacity. In this study, the heat storage tank in a domestic solar water heating system was chosen as control volume. The experiments were performed in the province of Elaz?g, Turkey, in November when solar radiation was weak due to cloudy sky. The heat storage tank of the system was modified to fill PCM between insulation and hot water part. A few PCMs which are Potassium Fluoride, Lithium Metaborate Dihydrate, Strontium Hydroxide Octahydrate, Barium Hydroxide Octahydrate, Aluminum Ammonium Sulfate, and Sodium Hydrogen Phosphate were analyzed to proper operating conditions using a Differential Scanning Calorimeter (DSC) and the best PCM was obtained with the Aluminum Ammonium Sulfate and Sodium Hydrogen Phosphate mixture. Thus, eutectic PCM was obtained and used in a heat storage tank of the solar water heating system. Energy and exergy analysis of heat storage tank was performed with and without the PCM. Energy and exergy analysis has shown that the heat storage tank with the PCM is more efficient than without the PCM and the maximum exergy efficiency was obtained as 22% with the heat storage tank with the PCM.     

改进的二相厌氧消化系统的特性研究

研究填充酸化反应器及其与ＵＡＳＢ甲烷化反应器组成的二相厌氧消化系统的运行特性,填充酸化反应器启动方便酸化速率高,抗水力冲击和ｐＨ波动的能力强,ＣＯＤ容积负荷达２００ｋｇ／（ｍ＾３．ｄ）,采用预调碱工艺,二相消化运行正常,可高效地处理酿酒废水,在进为ＣＯＤ浓度１０００－７０００ｍｇ／Ｌ,ＣＯＤ负荷４０ｋｇ／（ｍ＾３．ｄ）时,出料ＣＯＤ浓度小于２００ｍｇ／Ｌ对抗生素生产废水也有较好的处理效果。     

淡水沉积物的生物测试方法研究

描述了淡水沉积物毒性的生物测试方法。沉积物基质可以通过直接采样法和掺入法制备,储存会影响其生物可利用性。全底泥相,间隙水相和复溶相是目前沉积物毒理学研究常用的试验相,其中,间隙水相被认为是进行沉积物毒理学研究较为理想的试验相。同时推荐采用离心法制备间隙水。此外,为增加试验结果的可比性,文中还讨论了试验生物的选择问题。      

利用天敌控制水葫芦疯长研究

从产地引入象甲,研究它在高海拔低纬度———昆明的生活习性,经安全性、适应性、控制效果的试验研究,证实水葫芦象甲对23个科、46种植物不产生危害,只取食水葫芦,是单食性昆虫。象甲对水葫芦重量控制率平均为54.3％,株高控制率为42.4％,根长控制率为19.2％,叶片控制率为10.6％,植株分蘖控制率达32％。象甲在昆明具有良好的生物学适应性。对控制滇池水葫芦疯长,恢复生物多样性、保持生态平衡具有重要价值。