"数字石羊河"建立及其在沙尘暴防治中的应用

由于上游超量用水,导致石羊河下游的民勤县绿洲无水可用,生态环境严重恶化,成为我国的第四大沙尘暴策源地.本文提出了建立"数字石羊河"的概念,认为石羊河流域要建立公平的用水机制,在技术上要建立"数字石羊河",最后对"数字石羊河"在沙尘暴防治中的应用作了分析.     

Modelling future soil chemistry at a highly polluted forest site at Istebna in Southern Poland using the "SAFE" model

The multi-layer dynamic model SAFE was applied to the forested catchment Istebna (Southern Poland), to study recovery from acidification. Environmental pollution in the area has been historically high. The model uses data from an intensive monitoring plot established in 1999 in a spruce stand, which was planted in 1880. Observations showed that the soil was depleted of base cations. The measured base saturation in 1999 was between 5 and 8% in the different soil layers. Model predictions assuming full implementation of the UNECE 1999 Gothenburg Protocol and present day base cation deposition show that the base saturation will slowly increase to 20% by 2100. Despite large emission reductions, Istebna still suffers from the very high loads of acidifying input during the past decades. Soil recovery depends on future emissions especially on base cation deposition. The recovery will be even slower if the base cation deposition decreases further.     

Ammonium removal from waste solutions by precipitation of MgNH4PO4 I. Ammonium removal with use of commercial reagents

The method of ammonium ion removal from industrial waste solutions was investigated and parameters for MgNH₄PO₄ precipitation were determined. A solution laden with NH₄⁺ ions was brought to pH 1–2 by the use of H₃PO₄; MgO was then added and the pH adjusted to 9–10 with the use of NaOH solution. Stirring of the suspension was carried out during a prolonged period of time ( 3 hours), with final filtration or sedimentation. By this method the ammonium ion content in the filtrate may be reduced to concentrations below 1 mg/l. The MgNH₄PO₄·6H₂O sediment produced is considered to be a long-term fertilizer, suitable for agricultural use.     

芳烃联合装置地下管线测漏处理过程的风险分析

运用预先危险性分析法(PHA),对芳烃联合装置地下管线测漏处理过程中存在的风险进行了分析,确定了应采取的安全措施,取得了明显效果.     

中国自然灾害和减灾的对策

2006年5月9日防灾科技学院揭牌暨建校30周年庆典之际,马宗晋院士应邀为我校师生作了题为“中国自然灾害和减灾的对策”的学术报告,受到全校师生的热烈欢迎和一致好评。马宗晋院士是我国著名的地质学家,曾担任中国地震局地质研究所所长（现为中国地震局地质研究所名誉所长）,长期从事地质构造、地震预报、地球动力学方面的研究工作,完成了多项国家级重大研究课题。1972年,他率领地震小组,首创渐进式预报模式,提出长中短临渐近蕴震模式,成为中国预报强震的主要思想和工作程序,该模式的预报思想一直影响至今。其间,对海城、松潘等大地震的预测,乃至对唐山大地震的中期估计和短期预报分析都有重要影响,该模式在国际上被誉为“中国式地震预报”;他还提出了地球动力学的模式构想,建立了三个全球的构造系统,论证了地球变动的韵律性和非对称性,从而提出以壳、幔、核细分层角差运动为基础的地球自转与热、重、流联合的动力模式构想,对全球构造动力模式进行了新的分析与综合,为灾害和矿产研究提供了部分基础;提出了综合减灾系统工程设计。马宗晋院士1995年兼任国务院三部委中国重大自然灾害综合研究组组长;2005年任国家减灾委专家委员会主任。 马宗晋院士的报告以大量的研究数据系统地论述了中国的自然灾害和减灾的对策。我国是一个灾害频发、灾种繁多、灾情严重、经济损失巨大的国家,很好的学习和掌握马宗晋院士报告的观点和精神,对于推进我国的防灾减灾事业和从事防灾减灾教育事业均具有十分重要的意义。 我学报编辑部在认真学习和整理马宗晋院士报告的基础上,决定在学报的“院士专家论谈”专题栏目,陆续刊载以“中国自然灾害和减灾的对策”为题的系列文章,并经马院士同意和审核,马智同志编辑整理。我们认为,这对于全国各地从事防灾减灾事业的部门和工作人员,是十分有帮助的。希望各地从事防灾减灾事业和其他工作的读者能够关注这个栏目。[编者按]     

Polycyclic aromatic hydrocarbons (PAHs) in the aerosol in Beijing, China, measured by aminopropylsilane chemically-bonded stationary-phase column chromatography and HPLC/fluorescence detection

We developed a useful analytical method for the determination of polycyclic aromatic hydrocarbons (PAH) concentrations in the aerosol of China. We used an accelerated solvent extraction (ASE) method for the extraction of PAHs from the aerosol samples, in order to reduce the extraction time and the solvent volume used. The optimum purification method was developed, with aminopropylsilane chemically-bonded stationary-phase column chromatography, in order to remove many co-extractives which cannot be removed by conventional purification methods using silica-gel column chromatography. HPLC/fluorescence detection (FLD) was adopted as the analytical method, because it has very high sensitivity to PAH and it is easy to install, operate, and maintain as compared with GC/MS. With the analytical method developed in this study, the recovery and precision (RSD) for most of the PAHs ranged from 75% to 129% and from 2.8% to 22.7%, respectively. The concentrations of PAHs in the aerosol samples collected from October 2003 to April 2005 in Beijing, China were determined using the newly developed method. SigmaPAHs, which is the sum of the concentrations of all detected PAHs, was 177.8 +/- 239.9 ng m(-3) (n = 64). The SigmaPAHs concentration in the heating season (305.1 +/- 279.0 ng m(-3), n = 33) was 7.2 times higher than that in the non-heating season (42.3 +/- 32.0 ng m(-3), n = 31). These strong seasonal variations in atmospheric PAH concentration are possibly due to coal combustion for residential heating in winter.     

Methods for the preparation of a biodesulfurization biocatalyst using Rhodococcus sp

Several methods to prepare a biodesulfurization (BDS) biocatalyst were investigated in this study using a strain of Rhodococcus sp. 1awq. This bacterium could selectively remove sulfur from dibenzothiophene (DBT) via the "4S" pathway. DBT, dimethylsulfoxide (DMSO), sodium sulphate and mixed sulfur sources were used to study their influence on cell density, desulfurization activity, desulfurization ability, and the cost of biocatalyst production. In contrast to that observed from bacteria cultured in DBT, only partial desulfurization activity of strain 1awq was induced by DBT after cultivation in a medium containing inorganic sulfur as the sole sulfur source. The biocatalyst, prepared from culture with mixed sulfur sources, was found to possess desulfurization activity. With DMSO as the sole sulfur source, the desulfurization activity was shown to be similar to that of bacteria incubated in medium with DBT as the sole sulfur source. The biocatalyst prepared by this method with the least cost could remove sulfur from hydrodesulfurization (HDS)-treated diesel oil efficiently, providing a total desulfurization percent of 78% and suggesting its cost-effective advantage.     

Arsenic chemistry in the rhizosphere of Pteris vittata L. and Nephrolepis exaltata L

This greenhouse experiment evaluated the influence of arsenic uptake by arsenic hyperaccumulator Pteris vittata L. and non-arsenic hyperaccumulator Nephrolepis exaltata L. on arsenic chemistry in bulk and rhizosphere soil. The plants were grown for 8 weeks in a rhizopot with a soil containing 105 mg kg(-1) arsenic. The soil arsenic was fractionated into five fractions with decreasing availability: non-specifically bound (N), specifically bound (S), amorphous hydrous-oxide bound (A), crystalline hydrous-oxide bound (C), and residual (R). P. vittata produced larger plant biomass (7.38 vs. 2.32 mg plant(-1)) and removed more arsenic (2.61 vs. 0.09 mg pot(-1) arsenic) than N. exaltata. Plant growth reduced water-soluble arsenic, and increased soil pH (P. vittata only) in the rhizosphere soil. P. vittata was more efficient than N. exaltata to access arsenic from all fractions (39-64% vs. 5-39% reduction). However, most of the arsenic taken up by both plants was from the A fraction (67-77%) in the rhizosphere soil, the most abundant (61.5%) instead of the most available (N fraction).     

无排泥运行MBR处理不同浓度氨氮废水及其生物特性

考察了水力停留时间(HRT)为10 h时无排泥运行下膜-生物反应器(MBR)处理不同浓度氨氮无机废水的运行性能及微生物特性.结果表明,在处理NH₄⁺-N≤500 mg/L的废水时,氨氮转化率可达99%且反应器内微生物增长缓慢,比硝化速率从0.2kg/(kg·d)升至0.52 kg/(kg·d);当NH₄⁺-N≥700 mg/L时,出水亚硝酸氮和氨氮相继出现明显累积,比硝化速率随之下降至0.4kg/(kg·d)以下,反应器内生物量从3 200 mg/L上升至6 700 mg/L.反应器中的氨氧化菌维持在10⁷CFU/mL,亚硝酸盐氧化菌从10⁶CFU/mL下降至10³CFU/mL.系统内的溶解性微生物产物(以TOC表示)升至65 mg/L后保持稳定,出水TOC一直维持在3～4mg/L;细胞外分泌物(EPS)在膜的截流作用下随运行时间的延长积累至600 mg/L.