油茶果壳改性生物炭吸附性能及其耦合淹水对土壤Cd形态影响

研究选取湖南典型农业废弃物油茶果壳为原材料,尝试采用Na₂SiO₃溶液浸泡油茶果壳粉末方法,制备改性生物炭（MBC）,并开展不同生物炭材料对溶液中镉（Cd）的吸附与其耦合淹水对土壤中Cd的活性阻控性能研究.用扫描电镜（SEM）、比表面积测试（BET）和傅里叶红外光谱（FTIR）等表征手段对生物炭的物理化学性质进行分析.结果显示,MBC相比未改性生物炭（BC）拥有更大的比表面积与更加丰富的官能团种类,且对溶液中Cd²⁺具有更强的吸附能力.土壤淹水实验结果表明,淹水可使土壤pH值升高,同时降低酸可溶态Cd组分含量,且随着淹水时间的延长,土壤酸可溶态Cd含量呈逐渐向残渣态转化趋势,而生物炭添加耦合淹水比淹水对照处理能明显进一步促进可溶态Cd向残渣态转化,降低酸可溶态Cd含量.酸可溶态Cd组分含量与生物炭的添加量呈显著负相关关系,淹水60 d时,5.0%添加量的MBC实验组土壤酸可溶态Cd含量约为0.33 mg·kg^-1,相比仅淹水的对照处理降幅约为45.0%.综上可知,硅酸钠溶液改性油茶果壳生物炭是一种Cd污染水土和土壤治理的新型有效材料,研究结果同时为油茶果壳的资源化途径提供了方法参考.     

碳氮氧同位素解析典型岩溶流域地下水中硝酸盐来源与归趋

利用多同位素（C、N和O）和水化学方法解析贵州八步地下河流域水体中硝酸盐（NO₃^-）来源与转化过程,利用SIAR模型定量计算NO₃^-不同输入端的贡献比例.结果表明,研究区地下水NO₃^-污染严重,近38%的地下水样品NO₃^-超过饮用水限值.地下水的δ¹⁵N-NO₃值介于2.3‰~30.33‰,均值9.68‰,δ¹⁸O-NO₃值介于2.65‰~13.73‰,均值6.64‰,δ¹⁸O-H₂O值介于-8.83‰~-7.37‰,均值-8.18‰.同位素组成（δ¹⁵N-NO₃、δ¹⁸O-NO₃和δ¹⁸O-H₂O）指示硝化作用主导着流域内氮素循环.硝化作用产生的硝酸加速了碳酸盐岩溶解,导致地下水中δ¹³C_DIC与δ¹⁵N-NO₃存在显著负相关性（P<0.001）,说明δ¹³C_DIC与δ¹⁵N-NO₃相结合是判断岩溶水中NO₃^-转化的有效手段.地下水和地表水中NO₃^-主要来源于土壤氮、粪肥污水和铵态氮肥料,其对地下水中NO₃^-贡献率分别为36.19%、33.71%和30.1%,对地表水贡献率分别为39.15%、36.08%和24.77%.岩溶流域内污水处理应同时去除污水中的NO₃^-和NH₄⁺,农业区应科学施肥,以有效降低地下水中NO₃^-的补给通量.     

Recycling combustibles from aged municipal solid wastes (MSW) to improve fresh MSW incineration in Shanghai: Investigation of necessity and feasibility

Aged municipal solid wastes (MSW) excavated from landfills and dumpsites were characterized to analyze their fraction composition, moisture content, and lower heat value (LHV). The necessity and feasibility of recycling combustibles from aged MSW to improve the incineration of fresh MSW were investigated. The results showed that combustibles in aged MSW were easily separated from other components and than LHV of the separated combustibles are higher than 11000 kJ/kg. The fresh MSW are of high moisture contents with average LHV below 6500 kJ/kg, making their stable combustion difficult to maintain in MSW incinerators. For both fresh MSW and aged MSW, plastics are the main contributor to their LHV. To improve incineration of fresh MSW that are characterized with low LHV, combustibles separated from aged MSW were made into refuse derived fuel (RDF) pellets and were then added to fresh MSW by 2% wt.–5% wt. LHV variation and air supply resistance change of the MSW layer on the incinerator grate caused by the addition of RDF was checked, and no significant changes were found. No obvious difference was observed for the ‘burn-out time’ between RDF pellets and fresh MSW either. RDF made from aged MSW combustibles is found to be a promising auxiliary fuel to improve the incineration of fresh MSW, and aged MSW from old landfill cells and dumpsites can be finally disposed of jointly with fresh MSW by recycling combustible from the former to be coincinerated with the latter in the incineration plants.     

四种重金属离子对河川沙塘鳢早期发育的毒性影响

以早期发育阶段河川沙塘鳢(包括胚胎和初孵仔鱼)为研究材料,研究Hg2+、Cr6+、Zn2+和Cu2+4种重金属离子对其的毒性影响.结果表明,4种重金属离子对河川沙塘鳢早期发育死亡率和孵化率影响大小依次为Hg2+ ＞Cu2+＞Zn2+ ＞Cr6+,沙塘鳢在神经胚期和出膜仔鱼期的死亡率较高,且在重金属离子处理初期,大多数低...     

PBS共聚物对蚯蚓的蛋白质含量和纤维素酶活性的影响

以赤子爱胜蚓Eisennia foetida为研究对象,在滤纸接触法的基础上,采用自然土壤法进行急性毒性试验,研究了不同相对分子质量的PBS-co-PCL共聚物对蚯蚓蛋白质含量和纤维素酶活性的毒性效应。研究结果表明：随着暴露时间的增长,蚯蚓蛋白质含量呈现先增加后减小的趋势;第7天时,数均相对分子质量（Mn）为8.0×103的聚合物对蛋白质的影响较明显;第14天时,相对分子质量（Mn）为1.6×104和2.8×104的聚合物对蛋白质的影响较明显。聚合物相对分子质量（Mn）为8.0×103处理组中,纤维素酶活性受到的抑制作用较明显,聚合物含量为2.5%时,抑制作用达到最大。但是随着暴露时间的增长,这种抑制作用逐渐减小,即影响是暂时性的,纤维素酶活性变化比蛋白质含量变化更敏感。以上结果表明蚯蚓在实验过程中没有出现致病或致死现象,即聚合物对蚯蚓的影响较小。     

典型结构走廊火灾烟气流场的数值模拟研究

选取条形、L形、T形和环形走廊4种典型建筑结构为研究对象,使用火灾模拟软件FDS对4种典型结构的走廊发生火灾时的烟气流动规律进行了分析。初步得出建筑结构对于火灾烟气的流动和温度分布的影响:对于有封闭转角处的L形和环形走廊,转角处受到建筑封闭结构的阻碍和反浮力作用,热烟气易积聚;而无论何种形式的走廊,都会由于壁面限制和反浮力作用造成走廊末端热烟气的积聚;T形走廊交叉口处流通性较好,相对安全;这些容易造成烟气积聚的走廊转角和走廊末端的温度也会有所上升,而现在很多连接走廊的疏散楼梯都设置在走廊两端,反而不利于人员疏散。因此这些地方应引起重视,加强防火排烟措施。     

武汉市与西安市颗粒物PM_(10)、PM_(2.5)的污染水平分析

利用武汉、西安两市2013年PM10与PM2.5的监测数据,统计分析了武汉市和西安市PM10与PM2.5的污染水平,并比较了两城市的污染水平。根据GB 3095—2012《中华人民共和国环境空气质量标准》规定的二级浓度限值,可知武汉市和西安市PM2.5的污染都非常严重,PM10的污染相对较轻。从整体上说,西安市的污染水平要比武汉市严重,其中西安市PM10中PM2.5约占79%。武汉市和西安市的相关部门都应重视PM10和PM2.5的污染问题。     

太湖不同营养水平湖区汞的形态和分布特征

为研究富营养化对太湖汞形态分布特征的影响,于2011年水华暴发期,在太湖不同营养水平湖区(竺山湾、贡湖湾及南太湖)采集水样,测定了水体中THg(总汞)、DHg(溶解态总汞)、RHg(活性汞)、TMeHg(总甲基汞)、DMeHg(溶解态甲基汞)的质量浓度及其分布特征. 结果表明,太湖不同营养水平湖区水体中ρ(THg)和ρ(DHg)无显著差异,ρ(THg)为4.67~12.15 ng/L,ρ(DHg)为2.27~10.36 ng/L. 太湖水体中ρ(RHg)平均值为0.79 ng/L,藻类的生长对水体中ρ(RHg)的分布有显著影响,水体营养水平越高,ρ(RHg)越低. 水体中ρ(TMeHg)和ρ(DMeHg)分别为0.10~0.27和0.09~0.23 ng/L,藻类的吸附及水体中较高的E_h(氧化还原电位)和pH抑制了汞的甲基化,但在富营养化较严重的竺山湾,受藻类生长及水华的影响,水体中ρ(TMeHg)(0.22 ng/L)仍相对较高.      

不同退耕还草方式下宁夏南部山区土壤氮素转化速率与微生物变化的耦合关系

为了明确不同退耕还草方式下土壤养分转化的机理及其影响因素,以宁夏南部山区(下称宁南山区)天然草地、人工草地和撂荒地土壤为研究对象,运用PVC顶盖埋管法对3种类型草地土壤中氮素的净转化速率、微生物区系和氮素微生物生理群进行了研究,探讨土壤氮素净转化速率与微生物的关系. 结果表明:①在培养过程中,3种草地类型土壤中细菌、放线菌和真菌数量平均值分别为9.6×105、3.8×104和4.0×101 CFU/g(以干土计),氮素微生物生理群数量表现为氨化细菌(4.5×104 CFU/g)>自生固氮菌(4.3×103 CFU/g)>硝化细菌(6.5×102 CFU/g)>反硝化细菌(3.9×102 CFU/g)>亚硝化细菌(1.7×102 CFU/g),其中,人工草地土壤中微生物数量最高;②细菌、真菌、反硝化细菌与亚硝化细菌数量的峰值均出现在培养第120天,放线菌和自生固氮菌数量的峰值均出现在第240天,硝化细菌数量的峰值出现在第60天,而氨化细菌数量在各类型草地土壤中出现峰值的时间不统一;③各类型草地土壤氮素的净矿化速率、净氨化速率、净硝化速率均在61~120 d内最低,净矿化速率与净硝化速率在181~240 d内最高,净氨化速率在241~360 d内最高,微生物固氮速率的峰值出现在121~180 d,最低值出现在241~360 d. 在该区土壤氮素转化速率与微生物数量紧密相关,土壤温度、土壤水分通过影响微生物数量而成为影响土壤氮素矿化的主要因素;土壤氮素的生物固持过程比有机氮矿化过程更为活跃;种植苜蓿的人工草地比天然草地和撂荒地更有利于微生物的繁殖与土壤氮素的矿化.      

Removing phosphorus from aqueous solutions by using iron-modified corn straw biochar

Iron-modified corn straw biochar was used as an adsorbent to remove phosphorus from agricultural runoff. When agricultural runoffs with a total phosphorus (TP) concentration of 1.86 mg·L⁻¹ to 2.47 mg·L⁻¹ were filtered at a hydraulic retention time of 2 h through a filtration column packed with the modified biochar, a TP removal efficiency of over 99% and an effluent TP concentration of less than 0.02 mg·L⁻¹ were achieved. The isotherms of the phosphorus adsorption by the modified biochar fitted the Freundlich equation better than the Langmuir equation. The mechanism of the phosphorus adsorbed by the modified biochar was analyzed by using various technologies, i.e. scanning electron microscopy (SEM), X-ray diffraction (XRD) analysis, X-ray photoelectron spectroscopy (XPS), and Fourier transform infrared spectroscopy (FTIR). The results indicated that the surface of the modified biochar was covered by small iron granules, which were identified as Fe₃O₄. The results also showed that new iron oxides were formed on the surface of the modified biochar after the adsorption of phosphorus. Moreover, new bonds of Fe-O-P and P-C were found, which suggested that the new iron oxides tend to be Fe₅(PO₄)₄(OH)₃. Aside from removing phosphorus, adding the modified biochar into soil also improved soil productivity. When the modified biochar-to-soil rate was 5%, the stem, root, and bean of broad bean plants demonstrated increased growth rates of 91%, 64%, and 165%, respectively.