利用百合(Lilium davidii)根尖细胞的微核细胞率作为环境监测指标的探讨

首次报道了利用百合根尖细胞微核细胞率作为环境监测指标的可行性和优越性。实验证明,百合根尖比蚕豆根尖细胞的微核细胞率更敏感。     

在役管道防腐层的失效与维修

介绍了管道防腐层失效的原因和方式,指出水和氧气是防腐层失效的原因,含水量和含氧量决定腐蚀程度,提出对防腐层及时检查与修复等措施.     

列车垃圾:铁道沿线的老公害

据调查,每名旅客乘车一天,产生“流动垃圾”250克;一列旅客列车运行一天,平均产生“流动垃圾”0．5吨;全国每天产生列车垃圾近500吨,相当于一个省会城市日产垃圾量的一半。     

地震留下的遗憾--远古三大奇观毁于地震

希腊人费隆·拜占廷记录了远古七大奇观清单,它们包括埃及的金字塔、巴比伦空中花园、阿苔密斯神殿、摩索拉斯陵墓、宙斯神像、亚历山大港灯塔、罗德岛上的太阳神铜像.当七大奇观的记录者写下这份清单的时候,巴比伦空中花园早已烟消云散了;阿苔密斯神殿毁于公元前550年的战争,神殿成了后人的采石场;众神之王宙斯神像公元4世纪毁于一场大火;金字塔则穿越了4000年岁月,守住了永恒.而摩索拉斯陵墓,亚历山大港灯塔和太阳神铜像均毁于地震.     

油品真实蒸汽压多元非线性回归

油品蒸气压是从事油品蒸发损耗研究、计算油品蒸发损耗量的重要参数,但是仅有美国石油学会给出的诺模图,给利用计算机来计算储罐蒸发损耗带来了很大困难.为了利用计算机来计算储罐的蒸发损耗,运用Excel中的回归功能,对原始数据进行必要的转换,进行了真实蒸气压的多元非线性回归,回归出了油品真实蒸气压计算公式.结果显示,回归的方程具有很高的精度,利用回归方程编制了计算软件,为储罐蒸发损耗计算提供帮助.     

不同温度条件下生态减污袋去除模拟污水中氨氮及磷的效果研究

研究在低温和常温条件下不同比例砂土与黏土混合制成的生态减污袋对模拟污水中氨氮及磷的去除效果。试验模拟污水中氨氮及磷的质量浓度分别为10 mg/L和1 mg/L,生态减污袋中砂土和黏土的质量比分别为1∶1、5∶1和10∶1,温度控制在22℃和4℃。结果表明,低温条件下砂土与黏土比例为1∶1的减污袋对模拟污水中氨氮和磷的去除率分别达到67%和38%;而砂土与黏土比例为10∶1的减污袋对低温条件下模拟污水中氨氮和磷的去除率均最低,分别为32%和28%,其对常温条件下污水中氨氮和磷的去除率也分别只有48%和52%。对比常温条件下的试验,低温条件下生态减污袋的去除效果明显偏低。由于黏土颗粒具有较大的比表面积和较好的离子交换能力,因此应选择黏土含量较高的生态减污袋,以在低温条件下保持良好的去氮除磷效果。     

基于案例推理的城市典型灾害应急处置专家系统构建研究

全球自然灾害频发、强度不断增强,且城市化进程飞速发展,其所带来的相关城市灾害风险与日俱增.在重视灾害预报、预警的同时,城市灾害应急处置工作的有效组织与开展,亦是至关重要.把人工智能和城市灾害学知识相结合,通过构建灾害应急处置专家系统来解决该问题是目前的一个研究方向.本文运用案例推理等人工智能领域知识进行相关问题研究,阐述了如何对典型城市灾害案例进行知识化存储处理,给出了典型城市灾害分类推理规则和应急救援案例匹配计算方法.最后,利用VC++和CLIPS相结合,构建了基于案例决策的城市灾害应急处置专家系统.通过研究,充分验证了该模型方法的可行性,对于提高城市应急处置能力具有很好的现实意义.     

Impacts of emissions and meteorological changes on China’s ozone pollution in the warm seasons of 2013 and 2017

O₃ increment is mainly caused by changes in meteorology rather than emissions. Emission reduction is effective to reduce O₃ nationwide, especially in summer. Strengthened NO_x controls are necessary to meet the ambient O₃ standard. We have quantified the impacts of anthropogenic emissions reductions caused by the Air Pollution Control Action Plan and changes in meteorological fields between 2013 and 2017 on the warm-season O₃ concentration in China using a regional 3D chemical transport model. We found that the impact on daily maximum eight-hour (MDA8) O₃ concentration by the meteorological variation that mostly increased O₃ was greater than that from emission reduction, which decreased O₃. Specifically, the control measures implemented since 2013 in China have reduced SO₂, NO_x, PM_2.5, and VOC emissions by 33%, 25%, 30%, and 4% in 2017, while NH₃ emissions have increased by 7%. The changes in anthropogenic emissions lowered MDA8 O₃ by 0.4–3.7 ppb (0.8%–7.6%, varying by region and month), although MDA8 O₃ was increased slightly in some urban areas (i.e. North China) at the beginning/end of warm seasons. Relative to 2013, the average 2 m temperature in 2017 shows increments in North, North-east, East, and South China (0.34℃–0.83℃) and decreases in Central China (0.24℃). The average solar radiation shows increments in North, North-east, and South China (7.0–9.7 w/m²) and decreases in Central, South-west, and North-west China (4.7–10.3 w/m²). The meteorological differences significantly change MDA8 O₃ by -3.5–8.5 ppb (-8.2%–18.8%) with large temporal variations. The average MDA8 O₃ was slightly increased in North, North-east, East, and South China. The response surface model suggests that the O₃ formation regime transfers from NO_x-saturated in April to NO_x-limited in July on average in China.     

330kV输电线路绝缘架空地线专用接地装置的设计与实现

针对330 kV超高压输电线路绝缘架空地线无专用接地线,设计一种串接电阻的新型接地装置,以避免当绝缘架空地线存在过大感应电压时因瞬间直接接地产生的电弧伤害。通过对某330 kV同塔双回输电线路不同情况下绝缘架空地线上产生的感应电压进行仿真分析,为新型接地装置的电气参数选取提供依据,同时详细设计了其机械结构。对新型接地装置进行了现场应用,验证了其相较于传统接地线具有的便携性及安全性优势。     

Source attribution for mercury deposition with an updated atmospheric mercury emission inventory in the Pearl River Delta Region,China

Estimated anthropogenic Hg emission was 11.9 tons in Pearl River Delta for 2014. Quantifying contributions of emission sources helps to provide control strategies. More attentions should be paid to Hg deposition around the large point sources. Power plant, industrial source and waste incinerator were priorities for control. A coordinated regional Hg emission control was important for controlling pollution. We used CMAQ-Hg to simulate mercury pollution and identify main sources in the Pearl River Delta (PRD) with updated local emission inventory and latest regional and global emissions. The total anthropogenic mercury emissions in the PRD for 2014 were 11,939.6 kg. Power plants and industrial boilers were dominant sectors, responsible for 29.4 and 22.7%. We first compared model predictions and observations and the results showed a good performance. Then five scenarios with power plants (PP), municipal solid waste incineration (MSWI), industrial point sources (IP), natural sources (NAT), and boundary conditions (BCs) zeroed out separately were simulated and compared with the base case. BCs was responsible for over 30% of annual average mercury concentration and total deposition while NAT contributed around 15%. Among the anthropogenic sources, IP (22.9%) was dominant with a contribution over 20.0% and PP (18.9%) and MSWI (11.2%) ranked second and third. Results also showed that power plants were the most important emission sources in the central PRD, where the ultra-low emission for thermal power units need to be strengthened. In the northern and western PRD, cement and metal productions were priorities for mercury control. The fast growth of municipal solid waste incineration were also a key factor in the core areas. In addition, a coordinated regional mercury emission control was important for effectively controlling pollution. In the future, mercury emissions will decrease as control measures are strengthened, more attention should be paid to mercury deposition around the large point sources as high levels of pollution are observed.