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991.
特殊植物类群空气凤梨对大气污染物甲醛的净化 总被引:1,自引:0,他引:1
空气凤梨是一类生长在空气中、不需要土壤、生长所需的水分和营养可以全部来自空气的特殊植物。它们常被用来指示与修复大气重金属污染物和有机污染物,但尚未应用于甲醛净化研究。为了探讨空气凤梨对甲醛的净化效果,我们以2种空气凤梨为实验材料,吊兰为对照材料,通过密封箱内甲醛熏蒸及在封闭的实际环境中进行了实验。结果表明,松萝铁兰、硬叶空凤和吊兰3种植物在甲醛胁迫下,外部形态和生理指标有一定的变化,但未受到明显的伤害。更重要的是,3种植物对甲醛均有相当强的净化作用。6~8 h后,2种空气凤梨对甲醛的净化可达到与吊兰相近的效果。而在2 h内,空气凤梨净化甲醛的速度远远大于吊兰,这可能是与空气凤梨叶片表面覆盖有亲水性的鳞片层有关。上述结果表明,空气凤梨是比吊兰更快速有效地净化甲醛的植物类群,可选择应用于室内甲醛污染去除。 相似文献
992.
磷酸钙盐结晶除磷工艺性能研究 总被引:1,自引:0,他引:1
研究了主要工艺条件pH和Ca/P对磷酸钙盐结晶除磷工艺性能的影响。通过分批实验,建立了磷去除率与pH之间的指数函数关系以及磷去除率与Ca/P之间的对数函数关系。连续运试表明,在pH=9.0、Ca/P=2的条件下,磷酸钙盐结晶除磷反应器的容积负荷为1.10 kg P/(m3.d),磷去除率为51%。灵敏度分析表明,pH对磷去除率的影响大于Ca/P,将Ca/P提高至6,容积负荷提高至1.60 kg P/(m3.d),磷去除率提高至74.3%;将pH提高至10.0,容积负荷提高至1.80 kg P/(m3.d),磷去除率提高至83.5%。工艺操作上可选pH作为优先控制对象。 相似文献
993.
为了减轻对后续处理中超滤膜的污染,采用电絮凝法处理油田生化出水,降低油田生化出水中的有机物含量。研究了电流强度、曝气时间和pH值对水中总有机碳(TOC)和浊度除去效果的影响以及pH值随曝气时间的变化趋势,通过红外光谱对絮凝处理前后水中总溶解固体进行了分析,优化了电絮凝的工艺条件。研究表明,当水流速度控制在50mL/s,电流强度为2 A,500 mL絮凝出水的曝气时间为30 min时,整套絮凝工艺对TOC的去除率为48%,浊度去除率为42.9%,COD去除率为44%。 相似文献
994.
995.
This paper examines the issue of ancillary benefits by linking sulfur dioxide (SO2) emission to CO2 emission using a panel of 29 Chinese provinces over the period 1995–2007. In the presence of non-stationarity and cointegrating
properties of these two data series, this paper applies the panel cointegration techniques to examine both the long-run and
short-run elasticities of SO2 with respect to CO2. The major findings are that: (1) there exhibits a stable long-run equilibrium relationship between the SO2 and CO2 emission with the long-run elasticity being 2.15; (2) there exists a short-run relationship between these two emissions with
the short-run elasticity being 0.04. In addition, following an exogenous shock that causes a deviation from the long-run equilibrium,
it would take approximately 15 years for SO2 emission to revert toward the long-run equilibrium path with an average annual convergence rate of 6.5%; (3) the derived
ancillary benefits that is generated from one metric ton of CO2 emission reduction, are 11.77 Yuan (approximately US1.7) in the short run and 196.16 Yuan (US 1.7) in the short run and 196.16 Yuan (US 30) in the long run. These
findings are not only crucial from the econometric modeling perspective, but also have important policy implications. 相似文献
996.
Tang X Chen J Wang WH Liu TW Zhang J Gao YH Pei ZM Zheng HL 《Environmental pollution (Barking, Essex : 1987)》2011,159(12):3784-3792
This study characterized the changes of nitric oxide (NO) production during the growth of Microcystis aerugrinosa, a cyanobacterium which usually cause cyanobacterial blooms. Results showed a drastic NO release accompanying with cell density and Chl-a content sharp rises when M. aerugrinosa grew from fifth day to sixth day. Moreover, high N:P ratio accelerated the cyanobacterial growth and NO burst. Sodium nitroprusside, an exogenous NO donor, promoted M. aerugrinosa growth with the optimal concentration of 0.1 mg/L. Experiments by supplementing with sodium nitrite and l-arginine demonstrated NO production in M. aerugrinosa cells was mainly through nitrate reductase (NR) pathway while minorly through NO synthase pathway. All these data suggested M. aerugrinosa produced increasing NO during its growth mainly by NR pathway, during which NO positively regulated the growth of M. aerugrinosa. 相似文献
997.
Wang H Ouyang Z Chen W Wang X Zheng H Ren Y 《Environmental pollution (Barking, Essex : 1987)》2011,159(8-9):2127-2137
Transpiration rates of six urban tree species in Beijing evaluated by thermal dissipation method for one year were correlated to environmental variables in heat, water, and pollutant groups. To sort out colinearity of the explanatory variables, their individual and joint contributions to variance of tree transpiration were determined by the variation and hierarchical partitioning methods. Majority of the variance in transpiration rates was associated with joint effects of variables in heat and water groups and variance due to individual effects of explanatory group were in comparison small. Atmospheric pollutants exerted only minor effects on tree transpiration. Daily transpiration rate was most affected by air temperature, soil temperature, total radiation, vapor pressure deficit, and ozone. Relative humidity would replace soil temperature when factors influencing hourly transpiration rate was considered. 相似文献
998.
999.
Jian-Guang Wu Xiang-Yu Meng Xiao-Meng Liu Xian-Wei Liu Zhi-Xia Zheng De-Qian Xu Guo-Ping Sheng Han-Qing Yu 《Environmental management》2010,46(4):610-617
Life cycle assessment (LCA) was applied to analyze a food-processing wastewater treatment plant and investigate the economic
and environmental effects of the plant. With the long-term operational data of this plant, an inventory of relative inputs,
e.g., flow rate, chemical oxygen demand (COD), and suspended solids, etc., and outputs of the plant, e.g., effluent COD and
suspended solids, methane production, etc., was compiled. The potential environmental effects associated with those inputs
and outputs were evaluated, and the results of the inventory analysis and impact assessment phases of the plant were interpreted.
One feature of this study was the assessment of the treatment plant based on both energy and material flows. Another feature
was the establishment of an assessment model with an integration of plant operating parameters, system recognition and grey
relation. The analytical results are helpful for the design and operation of wastewater treatment plants. 相似文献
1000.
This study utilizes remote sensing derived forest aboveground biomass (AGB) estimates and ownership information obtained from
the Protected Areas Database (PAD), combining landscape analyses and GIS techniques to demonstrate how different ownerships
(public, regulated private, and other private) relate to the spatial distribution of AGB in New England states of the USA.
“Regulated private” lands were dominated by lands in Maine covered by a Land Use Regulatory Commission. The AGB means between
all pairs of the identified ownership categories were significantly different (P < 0.05). Mean AGB observed in public lands (156 Mg/ha) was 43% higher than that in regulated private lands (109 Mg/ha), or
30% higher than that of private lands as a whole. Seventy-seven percent of the regional forests (or about 9,300 km2) with AGB >200 Mg/ha were located outside the area designated in the PAD and concentrated in western MA, southern VT, southwestern
NH, and northwestern CT. While relatively unfragmented and high-AGB forests (>200 Mg/ha) accounted for about 8% of total forested
land, they were unevenly proportioned among the three major ownership groups across the region: 19.6% of the public land,
0.8% of the regulated private land, and 11.0% of the other private land. Mean disturbance rates (in absolute value) between
1992 and 2001 were 16, 66, and 19 percent, respectively, on public, regulated private, and other private land. This indicates
that management practices from different ownerships have a strong impact on dynamic changes of landscape structures and AGB
distributions. Our results may provide insight information for policy makers on issues regarding forest carbon management,
conservation biology, and biodiversity studies at regional level. 相似文献