基于MATLAB的灰色模型对秦皇岛市区地下水水位的预测

MATLAB是集数学、图形处理和程序设计语言于一体的实用性很高的数学软件。应用该软件编制了一套GM(1,1)灰色预测模型程序,弥补了灰色预测模型在矩阵计算中的问题,并将该程序运用到了秦皇岛市城市区平原地下水水位预测评价中,从实例看出用MAT-LAB所编制的程序可读性强,容易理解,操作简单灵活,直接面向用户,精度较高。     

菜场有机垃圾压缩脱水特性实验研究

为优化菜场垃圾压缩及脱水机械设计参数,获取最佳的压强值和垃圾在压缩仓内的保压时间,进行了菜场有机垃圾压缩脱水特性实验研究。通过压缩实验及对数据的分析,提出了有机垃圾压缩转运时的合理压缩强度范围为1.5～2.4 kg/cm2;通过压缩脱水实验及对数据的分析得到:压强一定时,保压时间越长,出水量越大;而保压时间一定时,压强增大,脱水率也增加,但2组数据变化均为非线性。对大白菜的实验表明,其合理的脱水压强和保压时间分别为2.4 kg/cm2和30 s左右。     

在线超声对流化床膜生物反应器污泥混合液性能影响的研究

在流化床膜生物反应器中引入在线超声辐射来控制膜污染,超声功率为300 W、频率分别为中频(50 kHz)和中低频(50 kHz和25 kHz)混合频率,考察了在线超声对反应器内混合液性能的影响及对膜污染的控制效果。结果表明,中频超声辐射不会对反应器内混合液的污泥浓度和粘度产生显著影响,而中低频超声辐射会降低混合液的污泥浓度并造成混合液粘度的升高。2种频率的超声辐射对污泥混合液的过滤性能和污泥活性都有一定的改善作用。连续运行26 d和29d后,在中频和中低频超声辐射的作用下,超声流化床膜生物反应器比普通流化床膜生物反应器的跨膜压差分别低8 kPa和14 kPa,说明2种频率的在线超声均可显著延缓膜污染。     

改进分光光度法测Ni以规避大量干扰离子

为测定含大量干扰离子的水样中镍的浓度,提出一种改进的分光光度法。即以多种物质的吸光曲线回归方程,将实时测得的水样吸光度分解成多种物质的吸光度,利用多元一次方程进行求解并计算出浓度的方法。新方法在不进行修正时,对含Cr6+干扰的水样Ni2+测定的结果,误差较小。多组分的水样测量吸光度误差较大,通过引入修正系数修正后误差大幅下降。方法中Ni2+、Fe3+的吸光度与显色时间基本无关;而对于Mn2+、Cu2+和Cr6+,显色时间应控制在0.5～2.5 min内或10 min外,以保证测得吸光度值的稳定与准确。对组成不同的含Mn2+和Fe3+水样测得的Ni2+浓度分析,变异系数(CV)4.74%,检出限为0.275 mg/L,精确度和精密度较好。同时,这种规避方法还具有其他作用,可以在分析组分的同时粗略算出含量。     

含氟离子和氯离子酸性废水处理技术

本实验研究了石灰乳和铝酸钠处理废水中的氟离子和氯离子的效果。通过正交实验得出:影响除氟离子效果因素的主次顺序为:pH值>氟离子浓度>反应时间;影响除氯离子效果因素的主次顺序为:氯离子浓度>铝酸钠与氯离子的质量浓度比>反应时间。通过单因素实验得出:在pH=9、反应时间为5 min的条件下,废水中氟离子含量可由370.37mg/L降低到2 mg/L以下,去除率可达99.45%;在铝酸钠与氯离子的质量浓度比为1∶10,反应时间为5 min的条件下,废水中氯离子含量可由503.4 mg/L降低到201 mg/L以下,去除率可达60%。     

含油量对餐厨垃圾厌氧发酵的影响

在35℃条件下,研究了不同含油量（0％、1％、2％、3％、4％、5％）餐厨垃圾中温厌氧消化过程中日产气量、甲烷含量、总固体（TS）、挥发性固体（VS）、干物质产气率等的变化,为后续餐厨垃圾连续发酵的预处理提供参考。结果表明：5％含油量餐厨厌氧发酵周期最长,累计产气量最大,为5800mL。在消化过程中,沼气中甲烷含量先上升后下降,最高可达76％;于物质产气率随含油量增大而增大,依次为497．4、506．1、543．8、554．4、590．7和600．1mL／gTS;5％含油餐厨垃圾的TS和VS去除率最大,分别为34．4％和42．9％。     

Heavy metals of the Tibetan top soils

Objective

Due to its high elevation, rare human activities and proximity to south Asia where industries are highly developed, it is required to investigate the fragile environment of the Tibetan Plateau. We are aiming to obtain the concentration level, source, spatial distribution, temporal variation and potential environmental risk of Tibetan soils.

Methods

A total of 128 surf ace soil samples were collected and analyzed f or V, Cr, Mn, Co, Ni, Cu, Zn, As, Cd and Pb, and an additional 111 samples were analyzed f or Hg and total organic carbon. Concentration comparisons coupled with multivariate statistics were used to analysis the sources of elements of soils. We also carried out Risk assessment on the soils.

Results

Concentrations of Hg, Cr, Ni, Cd and Pb are slightly higher than those of the late 1970s. Concentrations of Cr and Ni are higher than averaged world background values. Tibetan soils present a high natural As concentration level.

Discussion

Anthropogenic sources may partly contribute to the elevated Hg, Cd and Pb concentrations. Cr and Ni are mainly originated from soil parent materials. Soil elements in Anduo and Qamdo regions may threaten the health of local people.

Conclusion

Heavy metal elements of Tibetan Plateau are mainly from the natural source. Arsenic present a high background level. Soil elements in Anduo and Qamdo regions may threaten the health of local people, which should be of concern to scientists and the government.     

Neurochemical and electrophysiological diagnosis of reversible neurotoxicity in earthworms exposed to sublethal concentrations of CL-20

Background, aim, and scope

Hexanitrohexaazaisowurtzitane (CL-20) is a relatively new energetic compound sharing some degree of structural similarity with hexahydro-1,3,5-trinitro-1,3,5-triazine (RDX), a known neurotoxic compound. Previously, we demonstrated using a noninvasive electrophysiological technique that CL-20 was a more potent neurotoxicant than RDX to the earthworm Eisenia fetida. In the present study, we investigated the effect of CL-20 exposure and subsequent recovery on muscarinic acetylcholine receptors (mAChRs) to further define the mechanism of reversible neurotoxicity of CL-20 in E. fetida.

Materials and methods

We used a noninvasive electrophysiological technique to evaluate neurotoxicity in CL-20-treated worms, and then measured how such exposures altered levels of whole-body mAChR in the same animals.

Results and discussion

A good correlation exists between these two types of endpoints. Effect on mAChR levels was most prominent at day 6 of exposure. After 7 days of recovery, both conduction velocity and mAChR were significantly restored. Our results show that sublethal concentrations of CL-20 significantly reduced mAChR levels in a concentration- and duration-dependent manner, which was accompanied with significant decreases in the conduction velocity of the medial and lateral giant nerve fibers. After 7-day post exposure recovery, worms restored both neurochemical (mAChR) and neurophysiological (conduction velocity) endpoints that were reduced during 6-day exposures to CL-20 concentrations from 0.02 to 0.22 µg/cm².

Conclusions and perspectives

Our findings support the idea that CL-20 induced neurotoxic effects are reversible, and suggest that CL-20 neurotoxicity may be mediated through the cholinergic system. Future studies will investigate other neurotransmission systems such as GABA, glutamate, and monoamine. Ion channels in the nerve membrane should be examined to further define the precise mechanisms underlying CL-20 neurotoxicity.     

由硫酸亚铁(绿矾)制取还原铁粉的工艺研究

提出了一种新的绿矾综合利用的途径,即绿矾经碳酸盐转化,然后采用无烟煤作还原剂,CaCO3为添加剂,进行高温还原焙烧制取还原铁粉.先将绿矾用水溶解,用理论量1.2倍的(NH4)2CO3将FeSO4转化为FeCO3,FeCO3焙烧的最佳条件是FeCO3∶无烟煤∶CaCO3为100∶60∶8,焙烧温度为1000℃,焙烧时间为4.5 h.粗还原铁粉化学成分除C含量较高外,符合国家有关标准,900℃左右经氢气精还原1 h所得精还原铁粉化学成分的各项指标,均达到或优于国家有关标准的要求.     

Ag+-Cadion-Tx-100胶束增溶光度法测定废水中的氰化物

在ＴｒｉｔｏｎＸ－１００存在下,利用Ａｇ＋与Ｃａｄｉｏｎ的灵敏显色反应,建立了痕量氰化物的间接光度测定方法。该方法灵敏度高,选择性好,可用于废水中痕量氰化物的测定。测定范围为０—１０μｇ／２５ｍｌ,其相对标准偏差小于９．０％。