中空玻璃受热破裂行为规律研究

研究了单层玻璃厚度为6mm,两块玻璃间距为6mm的中空玻璃的受热响应规律,分析了向火面和背火面玻璃板的表面温度、玻璃板向火面中心点处的热通量、两块玻璃的破裂时间、裂纹形态以及玻璃脱落情况等。定义玻璃边长区域范围为[-0.5L,0.5L],则玻璃首次起裂点均位于被遮蔽边上,且在[-0.25L,0.25L]的范围内。进一步研究了遮蔽方式对中空玻璃破裂行为的影响,在本实验条件下,四边遮蔽的向火面玻璃最易破裂,且左右垂直遮蔽比上下水平遮蔽情况下脱落程度严重。     

聚偏氟乙烯共混改性膜对Cu2+吸附性能的研究

应用热诱导聚合和相转移技术,制备了具有离子交换性能的聚偏氟乙烯(PVDF)共混改性膜,采用XPS、XRD、SEM和FTIR表征了PVDF改性膜的结构和组成,分析了PVDF共混改性膜对水溶液中Cu²⁺的吸附性能,研究了PVDF共混改性膜对Cu²⁺的吸附热力学和吸附动力学 .结果表明,动力学吸附过程符合准二级动力学方程,等温吸附过程符合Langmuir模型.吸附过程的平均吸附能为8～16　kJ/mol,表明该吸附过程为离子交换反应.热力学参数ΔG⁰<0、ΔH⁰>0、ΔS0>0,证实了吸附过程为自发的吸热过程.PVDF共混改性膜经吸附/脱附4次循环后,对模拟废水中Cu²⁺和城市污水中Cu²⁺的吸附量分别大于0 .025 mg/cm^２和0 .015 mg/cm^２,脱附率超过95%.PVDF共混改性膜具有优良的吸附/脱附性能、良好的稳定性和潜在的应用前景.     

长江三角洲地区海相沉积物母质土壤对Cu的吸附解吸特性

分别以长江三角洲地区海相沉积物母质土壤的表层土和心层土为例,考察了其对重金属Cu的吸附、解吸及固定特性,目的是了解其在不同土壤结构的存在形态和迁移特性。研究表明：不同表层土和心层土的铜吸附容量可用Langmuir,Freundlich和Temkin吸附等温方程拟合,其中以Langmuir方程吻合度最高,回归计算出的最大吸附容量与实验结果基本一致;而其解吸动力学大部分符合指数方式。研究发现,大多数土壤的心层土的最大吸附容量大于表层土,解吸量小于表层土;表层土中对Cu的固定吸附量最大的是滩涂泥,最小的是滩砂泥;心层土中对Cu的固定吸附量最大的是滩潮土,最小的是滩砂泥。不同土壤对Cu的固定吸附量存在差异性,这与土壤自身的pH、OM等多种因素有关, 一般pH值大、OM值高的土壤对Cu的固定吸附量越大.     

一种纳米级不定形碳对水中四环素的吸附研究

研究了一种新型纳米级不定形碳对水中四环素的吸附作用.结果表明,在Li-Na-K碳酸盐的共熔体系中生成的碳粉对四环素表现出了良好的吸附性能.在298K下,碳粉对四环素的吸附行为更符合拟二级动力学模型和Freundlich吸附等温线,最大吸附容量达到127.76 mg·g-1.热力学计算结果表明,吸附过程是吸热的、自发的,以化学吸附为主.吸附行为表现出明显的p H依赖性,当溶液的起始p H在2~11,p H为4时碳粉对四环素的吸附量最大.溶液中的阳离子对吸附有一定的影响,但影响不大,随着阳离子浓度的增加,吸附量在一定程度上逐渐减小.离子交换作用可能是吸附的原理之一,还可能同时存在静电引力、氢键等作用.分别使用0.25 mol·L-1的Ca Cl2和Na Cl溶液进行解吸实验,解吸效率在7.42%~25%,解吸效率较低,说明吸附的化学作用较强.     

Removal,adsorption and desorption of pentachlorophenol (PCP) by filamentous fungi: Rhizopusarrhizus and Cunninghamella elegans in batch system

PCP was, and in some countries still is, one of the most frequently used fungicides and pesticides, specially in wood preservation. The extensive use is correlated with contamination of water and soil and it is detected in several compartments of the food chain.

Some Micromycetes are able to adsorb and degrade PCP, with two mechanisms involved: biosorption (including both adsorption and absorption) and biodegradation.

Our work is focused on the biosorption alone and biodegradation‐biosorption of PCP by respectively denatured and living R.arrhizus and C.elegans fungi.

Living fungi are cultivated in batch system and denaturation is obtained by drying (70°C) and grinding the fungi to a calibrated powder (200–400 μm). Kinetic studies are performed with 10 mg/1 PCP initial concentration. Adsorption capacity is measured at equilibrium concentration as high as about 400 mg/1 PCP.

The results show that: PCP adsorption, for the two fungi, follows a two steps process. R. arrhizus dead and living biomasses are able to bind respectively, 75 and 55% of a 10 mg/1 PCP initial concentration in 1 hour contact time and then 75 and 100% in 96 hours. For C.elegans, 70 and 28% in 1 hour and in 96 hours 70 and 90%, respectively.

The PCP binding by living fungi is higher than non living ones, but with a slower rate.

The maximum PCP adsorption capacity is about 24 mg/g of R.arrhizus dried biomasses and 16 mg/g for C.elegans ones, in 48 hours contact time. Isotherm curves follow the Langmuir model.

Desorption studies with methanol (to reuse biomasses) shows that it is a rapid phenomenon (about 100% in 24 hours for the two fungi).

An industrial and economical process to depollute contaminated water by PCP is possible by using cheap fungal by‐products from fermentation industries.     

Adsorption and desorption variability of four herbicides used in paddy rice production

This investigation was performed to determine the effect of physicochemical soil properties on penoxsulam, molinate, bentazon, and MCPA adsorption–desorption processes. Four soils from Melozal (35° 43′ S; 71° 41′ W), Parral (36° 08′ S; 71° 52′ W), San Carlos (36° 24′ S; 71° 57′ W), and Panimavida (35° 44′ S; 71° 24′ W) were utilized. Herbicide adsorption reached equilibrium after 4 h in all soils. The Freundlich L-type isotherm described the adsorption process, which showed a high affinity between herbicides and sorption sites mainly because of hydrophobic and H-bonds interaction. Penoxsulam showed the highest adsorption coefficients (4.23 ± 0.72 to 10.69 ± 1.58 mL g^?1) and were related to soil pH. Molinate showed K_d values between 1.72 ± 0.01 and 2.3 ± 0.01 mL g^?1and were related to soil pH and organic matter, specifically to the amount of humic substances. Bentazon had a high relationship with pH and humic substances and its K_d values were the lowest, ranging from 0.11 ± 0.01 to 0.42 ± 0.01 mL g^?1. MCPA K_d ranged from 0.14 ± 0.02 to 2.72 ± 0.01 mL g^?1, however its adsorption was related to humic acids and clay content. According to these results, the soil factors that could explain the sorption process of the studied herbicides under paddy rice soil conditions, were principally humic substances and soil pH. Considering the sorption variability observed in this study and the potential risk for groundwater contamination, it is necessary to develop weed rice management strategies that limit use of herbicides that exhibit low soil adsorption in areas with predisposing conditions to soil leaching.     

沸石分子筛和活性炭吸附/脱附甲苯性能对比

考察了甲苯在NaY型沸石分子筛(简写为NaY)、13X型沸石分子筛(简写为13X)、Hβ型沸石分子筛(简写为Hβ)、MCM-22型沸石分子筛(简写为MCM-22)和ZSM-5型沸石分子筛(简写为ZSM-5)上的吸附/脱附性能,同时与椰壳活性炭(AC)的吸附/脱附性能进行对比.结果表明,各吸附剂对甲苯的平衡吸附量大小依次为:AC>NaY>Hβ>13X>MCM-22>ZSM-5,甲苯从吸附剂表面脱附难易程度依次为:AC>NaY、13X>Hβ>MCM-22>ZSM-5>ZSM-5对甲苯的平衡吸附量和吸附强度都最小,这是由于甲苯无法进入ZSM-5的内部孔道造成的;在低甲苯质量浓度(<1 000 mg/m3)时.NaY平衡吸附量超过AC,因此NaY更适合应用在低浓度有机废气吸附治理中,Langmuir吸附方程比Freundlich吸附方程更符合沸石分子筛吸附甲苯的行为.     

造粒流化床颗粒污泥对溶解性有机物的吸附机理研究

造粒流化床对污染物的去除是由混凝沉淀和物理吸附协同作用完成的,然而对于溶解性污染物,混凝沉淀的效果不明显,根据作者的实验分析,物理吸附在溶解性污染的去除中发挥了重要的作用。作者利用静态实验的方法对流化床颗粒对葡萄糖的吸附和扩散传质过程进行了分析,并采用Langmuir方程、Freudlich方程和Weber-Morris颗粒扩散模型对实验数据进行了拟合。结果表明,颗粒对葡萄糖的吸附等温过程与Langmuir方程有很好的吻合性;颗粒对葡萄糖的吸附速度与颗粒内部的扩散过程有很好的相关性。     

交联羧甲基玉米淀粉对水溶液中铅离子吸附性能的优化研究

以玉米淀粉为原料,采用先醚化后交联改性工艺合成了交联羧甲基玉米淀粉吸附剂。在单因素试验的基础上,采用Box-Benhnken的中心组合试验设计及响应面分析法,研究了交联羧甲基玉米淀粉吸附剂用量、吸附时间和pH值3因素对水溶液中铅离子吸附效果的影响,得出了吸附剂对铅离子吸附效果的回归模型。结果表明,最佳吸附工艺参数为吸附剂用量0.22 g,pH值为6.6,吸附时间32.9 min,交联羧甲基玉米淀粉对铅离子吸附容量可达44.72 mg/g,铅离子去除率达到98.38%。常温下吸附动力学模型符合Freundlich等温式Q=0.4152C^0.9894。采用0.9 mol/L盐酸溶液作为解析液,铅离子回收率可达97.55%。     

Aluminum water treatment residuals as permeable reactive barrier sorbents to reduce phosphorus losses

Two aluminum water treatment residuals (Al-WTRs) from water treatment plants in Manatee County, FL and Punta Gorda, FL were evaluated as potential permeable reactive barrier (PRB) media to reduce groundwater phosphorus (P) losses. Short-term (<24 h) P sorption kinetics and long-term P sorption capacity were determined using batch equilibration studies. Phosphorus desorption was characterized following P loadings of 10, 20, 30, 40 and >70 g kg⁻¹. Sorption and desorption studies were conducted on the <2.0 mm material and three size fractions within the <2.0 mm material. The effect of dissolved organic carbon (DOC) on P retention was determined by reacting Al-WTRs with P-spiked groundwater samples of varying initial DOC concentrations. Phosphorus sorption kinetics were rapid for all size fractions of both Al-WTRs (>98% P sorption effectiveness at shaking times ?2 h). The effect of DOC was minimal at <150 mg DOC L⁻¹, but modest reductions (<22%) in P sorption effectiveness occurred at 587 mg DOC L⁻¹. The P sorption capacities of the Manatee and Punta Gorda Al-WTRs (<2.0 mm) are ∼44 g kg⁻¹ and >75 g kg⁻¹, respectively, and the lifespan of an Al-WTR PRB is likely many decades. Desorption was minimal (<2% of the P sorbed) for cumulative P loadings <40 g kg^-l, but increased (<9% of the P sorbed) at cumulative P loads >70 g kg⁻¹. The <2.0 mm Manatee and Punta Gorda Al-WTRs are regarded as ideal PRB media for P remediation.