2018年冬季淄博市一次沙尘天气颗粒物污染特征研究

2018年11月底淄博市经历了一次沙尘影响下的大气重污染过程,为研究此次重污染过程形成机制,分析了淄博市ρ(PM₁₀)和ρ(PM_2.5)及PM_2.5化学组分特征,并利用PMF模型和后向轨迹模型对颗粒物的来源进行研究.结果表明:①污染期间,ρ(PM₁₀)和ρ(PM_2.5)小时平均值分别为(259±111)和(133±51)μg/m3,分别是污染后ρ(PM₁₀)〔(88±38)μg/m3〕和ρ(PM_2.5)〔(36±14)μg/m3〕的2.9和3.7倍.②受沙尘的影响,Ca2+、Mg2+、Al、Mg、Ca、Si等代表沙尘源的离子和元素组分的质量浓度在PM_2.5中占比均高于污染后.③ 72 h后向轨迹结果表明,除受西北方向沙尘传输气流影响外,局地盘旋的当地气流也增加了污染物的累积,此次大气污染过程是本地污染物累积及西北沙尘传输共同作用形成的.④ PMF模型解析表明,污染期间扬尘源是PM_2.5的首要贡献源类,贡献率达33.61%,说明沙尘过境对此次污染过程有较大贡献;污染后工业源贡献显著增高,成为主要污染源,贡献率为22.71%,体现了淄博市是重工业城市的特点.研究显示,淄博市此次重污染过程颗粒物来源复杂,除受本地区域污染影响外,外来沙尘过境贡献也较大.      

施用城市污泥对杨树土壤化学特性及金属含量的影响

采用温室盆栽方法,研究城市污泥对杨树土壤化学特性、金属含量的影响。实验设置6个处理：4个不同用量的污泥处理：30（S1）、60（S2）、90（S3）和120 t.hm-2（S4）,以及对照（Control：不施加污泥和肥料）和无机复合肥处理（F：1.5 t.hm-2）。结果表明,施用污泥后,土壤有机质、全氮及全磷均提高,且随污泥施用量的增加而增加。S1~S4处理的土壤有机质、全氮及全磷较Control处理分别提高了32.50%~52.05%、32.00%~95.30%及75.43%~236.25%;较F处理分别提高了47.60%~69.37%、35.04%~99.70%及77.10%~239.46%。但污泥施用降低土壤pH和全钾质量分数,土壤pH较Control和F处理分别下降了0.11~0.42和0.01~0.32,但仍呈弱碱性;土壤全钾质量分数较Control和F处理分别降低了1.65%~21.51%和1.19%~21.14%。随污泥施用量的增加,土壤Cu、Zn、Ca和Na质量分数呈增加趋势,而Mn、Fe、Al、Mg质量分数呈降低趋势,其中Cu和Zn增加明显,并较Control处理分别增加了31.89%~104.36%和38.93%~358.02%,较F处理分别增加了23.10%~90.75%和37.88%~354.55%。总体而言,污泥施用于杨树后,可明显改善土壤的化学特性,但污泥施用量越大,土壤重金属Cu和Zn的质量分数残留越多。     

典型进口废物循环利用技术园区投资建设模式研究

随着社会经济的快速发展、资源及原材料需求量的不断增加,以进口废物为原料进行加工利用的循环经济园区也随之蓬勃发展。循环经济产业园区建设过程中有投资巨大、资本回收周期长、投资主体众多的特点。在考虑经济效益的同时,也要统筹考虑社会效益和环境效益,因此选择何种投资建设模式来指导园区建设具有十分重大的意义。本文通过对国内三省的四个园区投资建设模式的调查研究,分析对比了不同投资建设模式的典型特征,总结概括了不同模式之间的优缺点,为同类园区的开发建设提供了有益参考。     

进口废塑料环境保护管理研究

随着塑料资源的大量消耗,废塑料的利用引起了社会的高度重视。工艺简单,投入成本少,入行门槛低导致部分废塑料加工利用企业技术水平低、管理模式差、环境污染重。为规范进口废塑料行业,通过调研统计、实验分析、咨询论证和研究了进口废塑料环境保护管理规定,对进口废塑料企业的规模、设备、人员和管理等方面提出了要求,为进一步规范提升进口废塑料行业提供技术支撑。     

纤维素胺基树脂的制备及脱色性能评价

用氯化亚砜改性微晶纤维素,利用二乙烯三胺对氯化纤维素进行胺基取代制得纤维素胺基树脂。通过正交试验确定纤维素胺基树脂的最佳制备条件;红外分析以及X-衍射可知:氯化纤维素改性取代胺基得到纤维素胺基树脂。纤维素胺基树脂有较好的脱色功能。对甲基橙脱色条件为:吸附时间6 h,吸附温度为30℃,甲基橙初始浓度取为20 mg/L,树脂投加量为0.02 g。     

Toxic effects of fluoranthene and copper on marine diatom Phaeodactylum tricornutum

To investigate the effects of polycyclic aromatic hydrocarbons (PAHs) and metals on the population reproduction,antioxidative defense system and cell ultrastructure of the marine diatom,fluoranthene and Cu2+ were selected to test their toxicity to Phaeodactylum tricorntum,in the laboratory.The results indicated that both fluoranthene and Cu2+ inhibited population reproduction of P.tricorntum.When the algal cells were exposed to fluoranthene or Cu2+ for 72 h,ultrastructure damage in the cells was observed un...     

Horizontal distribution and levels of heavy metals in the biggest snowstorm in a century in Shenyang, China

The horizontal distribution and levels of heavy metals in the biggest snowstorm in Shenyang since 1904 were investigated by analyzing 4 metals (As,Cd,Pb,and Cu) in a series of ultraclean samples collected from 17 sites distributed in different regions of the Shenyang area,China.The results showed that the concentrations of all the 4 heavy metals in snow from the industrial regions were high,up to 7.3 (As),2.2 (Cd),850.0 (Pb),and 0.197-20.2 (Cu)μg/kg,respectively.In the suburb,in contrast,their concentrat...     

Enhanced biological nutrient removal by the alliance of a heterotrophic nitrifying strain with a nitrogen removing ecosystem

Nitrogen removal from synthetic wastewater was investigated in an airlift bioreactor （ALB）, augmented with a novel heterotrophic nitrifier Pseudonocardia ammonioxydans H9^T under organic carbon to nitrogen ratios （Corg/N） ranging from 0 to 12. Effect of the inoculated strain was also determined on the settling properties and the removal of chemical oxygen demand （COD）. Two laboratory scale reactors were set up to achieve a stable nitrifying state under the same physicochemical conditions of hydraulic retention time （HRT）, temperature, pH and dissolved oxygen （DO）, and operated under the sequencing batch mode. The level of DO was kept at 0.5- 1.5 mg/L by periodic stirring and aeration. Each specific Corg/N ratio was continued for duration of 3 weeks. One of the reactors （BR2） was inoculated with P ammonioxydans H9^T periodically at the start of each Corg/N ratio. Sludge volumetric index （SVI） improved with the increasing Corg/N ratio, but no significant difference was detected between the two reactors. BR2 showed higher levels of nitrogen removal with the increasing heterotrophic conditions, and the ammonia removal reached to the level of 82%-88%, up to10% higher than that in the control reactor （BR1） at Corg/N ratios higher than 6; however, the ammonia removal level in experimental reactor was up to 8% lower than that in control reactor at Corg/N ratios lower than 2. The COD removal efficiency progressively increased with the increasing Corg/N ratios in both of the reactors. The COD removal percentage up to peak values of 88%-94% in BR2, up to 11% higher than that in BR1 at Corg/N ratio higher than 4. The peak values of ammonia and COD removal almost coincided with the highest number （18%-27% to total bacterial number） of the exogenous bacterium in the BR2, detected as colony forming units （CFU）. Furthermore, the removal of ammonia and COD in BR2 was closely related to the number of the inoculated strain with a coefficient index （R2） up to 0.82 and 0.85 for ammonia and     

HSE培训课程体系建设初探

通过调研国内外HSE培训课程建设情况,提出了建设中国石化HSE培训课程体系的主体架构和主要课程.结合 HSE培训实践活动,阐述了中国石化HSE培训课程体系建设设想.     

机动车行驶过程道路扬尘影响因素试验研究

机动车行驶过程道路扬尘是城区颗粒物污染的主要因素,其贡献率可达30％-50％。城市路面积尘是机动车行驶过程道路扬尘的主要尘源。路面尘受机动车车轮积压作用、机车行驶过程诱导气流、热射流等综合尘化作用的影响,再次扬向空中并扩散,造成空气中颗粒污染物TSP、PM10浓度增高。实验模拟单车行驶,研究道路粉尘负荷、车速、排放源距离对总悬浮颗粒物（TSP）、可吸入颗粒物（PM10）浓度的影响,结果显示：TSP、PM10浓度与机动车行驶速度呈显著正相关;同一车速下与路面粉尘负荷呈对数变化规律;与排放源距离呈负相关。