基于实验模拟的广州市餐饮油烟VOCs排放特征及风险评估

随着城市餐饮行业的快速发展,餐饮源已逐渐成为大气挥发性有机物（VOCs）的主要来源之一。为深入了解广州市餐饮油烟的排放特征,科学制定广州市餐饮源的减排对策,在实验室搭建烹饪平台模拟烹饪过程,探讨不同油温、食用油种类和菜系类型对烹饪油烟排放VOCs组分的影响,并采集广州市典型商圈川菜馆、湘菜馆、粤菜馆、越南菜馆4家餐馆排放的餐饮油烟废气,利用气相色谱质谱仪分析研究4家餐馆油烟废气VOCs组分特征。结果表明：不同食用油、不同油温和不同菜系下所产生的VOCs浓度及组分特征存在较大差异。烹饪油烟VOCs的排放质量浓度与温度呈正相关。东南亚和川菜烹饪方式产生的油烟VOCs均以羰基化合物为主,而油炸类烹饪方式（炸薯条）则以羰基化合物和烷烃类同为主导。炸薯条、东南亚菜和川菜烹饪油烟VOCs的羰基化合物中,乙醛占比突出。乙醛在猪油油烟中占比最高（60.4%）,其次是花生油（53%）。对比环境空气样品,部分醛类物质（丁烯醛、甲基丙烯醛、苯甲醛、戊醛和己醛）在餐饮油烟VOCs中均有检出。结合实验模拟和外场监测结果表明,静电式的油烟净化器可以有效去除乙醛。苯系物在餐饮油烟废气中检出浓度的最小值均高于周边环境样品。4家餐馆中仅湘菜馆的油烟废气中苯的致癌风险＞10^-4,有显著致致癌风险。建议应依据餐饮油烟VOCs关键组分和污染类型,对餐饮行业进行规范科学的管理。     

强电离放电脱除NO的化学反应动力学模拟

强电离放电脱除NO是集化学、物理学和环境工程学为一体的交叉学科,其脱除过程本质上是等离子体中进行的一系列微观过程,难以通过实验进行直接研究。故通过建立强电离放电脱除模拟烟气中NO的化学模型并运用MATLAB对其进行数值模拟以探讨NO的去除机理。数值模拟结果表明,在800 μs内产生大量·O和·OH,而仅产生少量·N,由此可知NO的去除主要是通过与·O和·OH的氧化反应生成HNO3实现的,在脱除过程中NO先被氧化成NO2,再进一步被转化成HNO3。同时,通过实验验证了所建立模型的合理性。实验结果表明：随着NO初始浓度的增加,NO脱除效率逐渐下降;随着含氧量的增加,NO脱除效率显著增大。     

城市富营养化水域的生物治理和凤眼莲抑制藻类生长的机理

应用凤眼莲生态系统治理了上海市区一条富营养化河浜,使水质改善,由于藻类生长受到控制而水变澄清。凤眼莲抑制藻类生长的作用机制除了对光和矿质营养的竞争外,主要是由于凤眼莲根系向水体分泌化合物,能伤害和清除藻类(剋制作用Allelopaihic effect)。根圈栖生的一种软体动物——水蜗牛,以藻类为食,也是凤眼莲生态系统清除藻类的一个因素。     

激冷水合改性镁渣脱硫剂性能实验

为了达到以废治废的目的,对镁冶炼产生的废弃物-镁还原渣通过激冷水合方式制备脱硫剂进行研究。采用XRD获得不同激冷条件下样品的物质组成,通过SEM研究炽热镁渣激冷样品的表观形貌。通过实验室激冷水合实验研究不同水合参数对水合反应以及脱硫性能的影响。对比现场炽热镁渣激冷水合与实验室激冷水合活化方式下水合样品的脱硫性能。结果表明：镁渣激冷后的主要成分为β-C2S,且表面变得粗糙多孔;脱硫钙转化率与水合反应程度间存在抛物线关系;当激冷温度为950℃,水合温度为50℃,实验室炽热镁渣激冷水合反应所制备的脱硫剂在水合时间为6 h时,钙转化率最高,为14.1%,而水合时间为8 h时,水合反应程度最大,为0.16 g·g-1;与实验室炽热镁渣激冷水合样品和自然冷却水合样品相比,现场炽热镁渣激冷水合样品的钙转化率最高,达30.33%。     

输煤皮带巷运煤量对扬尘运移扩散影响的数值模拟

为了掌握输煤皮带巷运煤期间的扬尘分布规律,探索更好的除尘工艺,以某大型煤矿主斜输煤皮带巷为研究背景,构建三维模型,依据气固两相流理论,运用双流体模型对不同运煤量下的粉尘浓度三维分布规律进行数值模拟。结果表明：皮带运煤量的增加,增大了煤流与风流之间的摩擦面积及巷道断面风速,提高了扬尘强度,扩大了高浓度区域范围,显著增加了巷道中下部空间的粉尘污染程度;运煤量的增加对粉尘浓度的影响程度随着距皮带距离的增加而减小;在湿式除尘设计中,可通过自动喷雾系统与煤量监测之间的联动,提高除尘效果。     

Phytoremediation of petroleum hydrocarbons in tropical coastal soils II. microbial response to plant roots and contaminant

GOAL, SCOPE AND BACKGROUND: The goal of this study was to understand the interaction between plants and microorganisms during petroleum-hydrocarbon bioremediation in Pacific Islands coastal soils. Total bacteria and hydrocarbon-degrading microorganisms population dyanamics were examined in the rhizospheres of tropical trees and shrubs, which were evaluated for their phytoremediation potential in a greenhouse experiment. The respective and combined effects of plant roots and diesel contaminant on the microbial populations were determined in relation to diesel fuel depletion. An increase in the grading populations size of the hydrocarbon-degrading populations of microbes, elicited by rhizodeposition, is generally regarded as conducive to an enhanced degradation of petroleum hydrocarbon pollutants in vegetated soil. METHODS: The soil was a coastal sandy loam (pH 7.8) which was artificially contaminated with 10 g of No. 2 diesel fuel/kg soil or left uncontaminated. The pots were irrigated with fertilizer and 1% NaCl. The enumerations were carried out in the contaminated and uncontaminated rhizospheres of three trees, kiawe (Prosopis pallida), milo (Thespesia populnea), and kou (Cordia subcordata) and three shrubs, beach naupaka (Scaevola sericea), false sandalwood (Myoporum sandwicense), and oleander (Nerium oleander). Unplanted control soils were included in the experiment. Total bacteria and phenanthrene-degrading bacteria were enumerated on plates. Diesel- and pristane-degrading microorganisms were enumerated by the most-probable-number technique in tissue-culture plates. RESULTS AND DISCUSSION: All four types of microorganisms responded to the rhizosphere of the 6 plants in uncontaminated soil and to the diesel contaminant in unplanted soil. In contaminated rhizospheres, no effect of the plant on the hydrocarbon-degrader numbers was visible. Total bacteria responded more to the plant roots than to the contaminant. The phenanthrene-degrading bacteria and pristane-degrading microorganisms were more influenced by the contaminant than by the plants. The diesel-degrading microorganisms were equally stimulated by the plants and the contaminant. The numbers of hydrocarbon degraders were similar in the contaminated rhizospheres of the three effective plants (kiawe, kou, and milo) and in those of the three ineffective shrubs. CONCLUSION: The results suggest the quality of the rhizodeposition is plant-dependent and governs the type of diesel-degrader populations that will be enhanced by a given plant. RECOMMENDATIONS AND OUTLOOK: In the proposed phytoremediation-benefit model plant roots maintain high levels of hydrocaron degraders in uncontaminated soil. When the root enters a contaminated zone of soil, those hydrocarbon degraders that prefer the contaminant would switch to the contaminant as a carbon source, effectively removing the hydrocarbons. If the root exudates and the contaminant are equally attractive to the hydrocarbon degraders, the contaminant degradaton would be less effective.     

人工湿地处理污水时水生植物形态和生理特性对污水长期浸泡的响应

主要比较了污水和净水培养水生植物(芦苇、香蒲)形态特征的改变,测定了污水和净水培养的水生植物体内(根、叶片)过氧化物酶(POD)、过氧化氢酶(CAT)的活性,分析判断了水生植物对长期污水浸泡所采取的响应的途径和方式.结果表明,与天然净水培养的芦苇相比,长期污水浸泡致使芦苇的植株高度显著变小,平均值之差为71.1cm;芦苇叶片长度显著减小,叶片长度平均值之差为11.3 cm,最大叶片宽度减小,叶片最大宽度平均值之差为0.62cm;植株密度明显增大,增幅达4倍以上.长期污水浸泡显著影响了香蒲根部POD活性,使其比净水培养高73.51U·g-1·min-1;污水浸泡对芦苇和香蒲叶片CAT活性影响显著,污水培养芦苇和香蒲的叶片CAT活性分别较净水培养芦苇和香蒲低0.068、0.1071mg·g-1·min-1.     

养护条件对BCCP抗氯离子侵蚀性能的影响与比较分析∗

通过测试钢筋缠绕预应力钢筒混凝土管道（BCCP）细石混凝土保护层试块在标准养护（S）,低压养护（0.7P）, 蒸汽养护（ZS）和蒸汽?低压养护（Z0.7P）条件下的氯离子扩散系数、抗压强度和吸水率,研究养护方式对BCCP 抗 氯离子侵蚀能力的影响,并基于灰色关联分析法,比较各因素的影响程度。结果表明：混凝土的抗氯离子侵蚀能力 随着养护龄期的增加而增加,单掺矿粉混凝土始终表现最优,使用高抗硫水泥会降低混凝土本身抗氯能力。低压 和蒸汽养护的混凝土在早龄期抗氯能力高于标准养护,但随水化龄期的增长,逐渐低于标准养护。低压不会对蒸 养混凝土内部产生损伤,反而会提高混凝土的密实度,因此,在养护龄期14 d 以前,扩散系数关系为S>0.7P>ZS> Z0.7P,28 d 以后,变为ZS>Z0.7P>0.7P>S;此外,养护气压和养护湿度对混凝土抗氯离子渗透性影响最大,其次 是养护温度,养护龄期的影响最小。     

Sorption mechanism of naphthalene by diesel soot: Insight from displacement with phenanthrene/p-nitrophenol

The nonlinear sorption of hydrophobic organic contaminants (HOCs) could be changed to linear sorption by the suppression of coexisting solutes in natural system, resulting in the enhancement of mobility, bioavailability and risks of HOCs in the environment. In previous study, inspired from the competitive adsorption on activated carbon (AC), the displaceable fraction of HOCs sorption to soot by competitor was attributed to the adsorption on elemental carbon fraction of soot (EC-Soot), while the linear and nondisplaceable fraction was attributed to the partition in authigenic organic matter of soot (OM-Soot). In this study, however, we observed that the linear and nondisplaceable fraction of HOC (naphthalene) to a diesel soot (D-Soot) by competitor (phenanthrene or p-nitrophenol) should be attributed to not only the linear partition in OM-Soot, but also the residual linear adsorption on EC-Soot. We also observed that the competition on the surface of soot dominated by external surface was different from that of AC dominated by micropore surface, i.e., complete displacement of HOCs by p-nitrophenol could occur for the micropore surface of AC, but not for the external surface of soot. These observations were obtained through the separation of EC-Soot and OM-Soot from D-Soot with organic-solvent extraction and the sorption comparisons of D-Soot with an AC (ACF300) and a multiwalled carbon nanotube (MWCNT30). The obtained results would give new insights to the sorption mechanisms of HOCs by soot and help to assess their environmental risks.