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71.
72.
Ram M. Shrestha S.C. Bhattacharya Sunil Malla 《Journal of environmental management》1996,46(4):359-372
This paper presents a review of energy use in 22 selected countries of Asia and estimates the anthropogenic emission of sulphur dioxide (SO2) for the selected countries, both at national and disaggregated sub-country regional levels. The paper also makes a comparative assessment of the Asian countries in terms of SO2emission intensity (i.e. emission per GDP), emission per capita and emission density (i.e. emission per unit area). Total SO2emission in the region was estimated to be about 38 million tons in 1990. Five countries, China, India, South Korea, Japan and Thailand, accounted for over 91% of the regional SO2emission. Coal use had the dominant share (81%) of the total emission from the region. Among the economic sectors, industry contributed the largest share (49%) to the total emissions of the selected countries as a whole, followed by the power sector (30%). These findings suggest the need for mitigation strategies focussed on the industry and power sectors of the major emitting countries in Asia. 相似文献
73.
Impact of Coal Power Plant Emission on the Foliar Elemental Concentrations in Plants in a Low Rainfall Tropical Region 总被引:1,自引:0,他引:1
A field study was conducted around two thermal power plants of India to quantify the changes in foliar elemental concentrations due to emission in a low rainfall tropical area. Sulphur dioxide and particulates were at high levels which may cause serious ecological effects. Emission from the power plants has altered the elemental concentrations in the leaves of evergreen and deciduous plants. The foliar total-S and SO4
2–-S levels were significantly higher in all the plants growing at polluted sites. However, the organic-S content was more or less unaltered. In evergreen plants, the SO4
2–-S content increased gradually from summer through winter, whereas in the deciduous plants there was a higher magnitude of increase after onset of new leaves during summer. With the increasing pollution load, foliar Ca2+ and K+ contents increased, whereas N content decreased. The reduction in N content was greater during summer in evergreen plants and during winter in deciduous plants. The plants growing closer to the power plants accumulated more trace elements (Mn, Fe, Cd, Pb and Ni) as compared to those growing at distant sites. In deciduous plants the leaf fall during winter lowered down the trace element 相似文献
74.
通过研究大气中硫氧化物与气象因素之间的相关关系,从而建立起城市大气中硫氧化物的统计预测模型,该模型经验证,实用可靠. 相似文献
75.
W. Keller N. D. Yan J. M. Gunn J. Heneberry 《Water, Air, & Soil Pollution: Focus》2007,7(1-3):317-322
Over 7,000 lakes around Sudbury, Ontario, Canada were acidified by S deposition associated with emissions from the Sudbury
metal smelters and more distant S sources. Air pollution controls have led to widespread changes in damaged Sudbury lakes,
including increased pH and decreased concentrations of SO4, metals and base cations. While chemical improvements have often been substantial, many lakes are still acidified, although
water quality recovery is continuing. Biological recovery has been observed in some lakes among various groups of organisms
including fish, zooplankton, phytoplankton and zoobenthos. Generally, however, biological recovery is still at an early stage.
Lakes around Sudbury are also showing that the recovery of acid-damaged lakes is closely linked to the effects of other major
environmental stressors such as climate change, base cation depletion and UV-B irradiance. Future studies of the recovery
of acid-damaged lakes around Sudbury, and in other regions, will need to consider the interactions of these and other stressors. 相似文献
76.
Within the European monitoring network (EMEP, ) several different sampling procedures for measuring the main air components have been applied. This has contributed to systematic
concentration differences and a comparability problem. Since 1997 co-located experiments in 15 countries have been carried
out to quantify these differences. In addition, three major measurement campaigns were organized by EMEP between 1985 and
1991. Differences among results depend on the concentration level and methods used. The decrease in SO2 concentrations over the last twenty years has placed greater demands on the methodology. Absorbing solutions methods for
SO2, (H2O2 and tetrachloromercurate (TCM)) typically have higher detection limits than the reference method, which uses KOH impregnated
filters. The TCM method also has problems with negative interference, especially in summertime. UV fluorescence monitors have
in a few cases proven to give good results, but interferences, detection limit and poor maintenance can be problems. For NO2, many countries are using the TGS absorption solution method, which has a higher detection limit than the reference method
using NaI impregnated glass sinters. The Salzmann method gives unreliable results at concentrations below 1 μgN/m3, and even at higher concentrations the uncertainty is rather unsatisfactory. The chemiluminescence monitor with molybdenum
converters tends to systematically overestimate NO2 concentrations, possibly because zero-drift problems and the non-specific response to NO2. Particulate sulphate measurements in general have lower bias and uncertainties than gas and other aerosol measurements. 相似文献
77.
78.
含硫底物种类与浓度对污泥重金属生物沥滤的影响 总被引:1,自引:0,他引:1
以城市污水处理厂剩余污泥为材料,探究不同含硫底物及其浓度对污泥重金属生物沥滤的效果影响,通过添加单一底物(S0、Fe SO4、Na2S2O3、Fe S和Fe S2)、两种底物配合(S0+Fe SO4、S0+Na2S2O3、S0+Fe S、S0+Fe S2)进行沥滤实验。结果表明:除Fe S和Fe S2外,投加单一底物的沥滤体系中p H都呈下降趋势,沥滤持续5 d后p H值降至1.8左右,污泥中Zn、Pb、Ni、Cr和Cu等重金属去除率高,底物投加量为8~10 g/L(以S计);投加复合底物时,最佳投加方式为S0+Fe SO4,投加量为8 g/L,此时污泥体系酸化速度快,污泥中重金属Zn、Pb、Ni、Cr、Cu去除率分别达95.41%、89.48%、86.45%、84.51%和94.33%。 相似文献
79.
主要研究了珠江口红树林硫的累积和循环特点,并探讨其对土壤中硫累积的影响.结果表明,珠江口五个红树群落硫的贮存量平均为170.42kg/hm2;在群落硫元素的生物循环中,年存留量平均为17.601kg/hm2,年归还量平均为35.603kg/hm2,年吸收量平均为53.204kg/hm2,周转期为3-8a,富集率均大于1.选定浅海沉积物的平均含硫量作为林下土壤成土母质的本底含硫量,估算红树植物生长后土壤含硫量的变化,并与群落硫的年归还量作比较.红树林对其林下土壤硫的累积作用有两方面,一是对海水硫的生物选择吸收与归还,二是为海水中的SO4(2-)为黄铁矿提供有机还原剂和嫌气微生物的能源,尤以后者的作用更重要. 相似文献
80.
Changes in chemistry and vertical distribution of35S were investigated in column experiments using intact topsoil and repacked mineral soil horizons 1 to 20 weeks after tracer application (901 kBq35S-SO4
2– per column 6.5 cm in diameter). Horizons O, A, AE and Bvs of an Orthic Podzol were incubated at 20°C and wetted twice a week with 11 mm of natural throughfall precipitation (38.5 mg S04
2– L–1-, pH 3.3). The top 35 cm of the soil contained 1,290 kg S ha–1, or 18 times more than is the annual atmospheric S input (71.4 kg S ha–1 yr–1). Of this amount, 17.8 % was stored as inorganic sulphate S, 4.6 % as reduced inorganic S, and 77.6 % as organic S. In O + A and AE, free sulphate was the most abundant35S form, while in Bvs the 35S activity of free and adsorbed sulphate was similar. The proportion of adsorbed sulphate increased with depth, averaging 23, 30 and 47 % of total inorganic sulphate35S in O + A, AE and Bvs, respectively. Total specific activity of chemically transformed35S (i.e., of reduced inorganic S and organic S) constituted 3.4, 3.8 and 105 % of inorganic sulphate35S activity in O + A, AE and Bvs, respectively, in averaged weeks 2–4, and 7.5, 6.4 and 39.6 % in averaged weeks 11–13 in O+A, AE and Bvs, respectively. The turnover time of C-bonded35S was shorter than that of ester sulphate35S. An increase in FeS2–
35S with time indicated anaerobic conditions suitable for bacterial sulphate reduction. After 13 weeks, 68 % of the tracer was found deeper than 8 cm below soil surface. 相似文献