施用污泥堆肥及其水溶性有机物对土壤中荧蒽解吸-淋滤的影响

以荧蒽（Fluoranthene）为多环芳烃（PAHs）的代表,通过序批试验及土柱淋洗试验研究了污泥堆肥及污泥堆肥水溶性有机物（DOM）对污染土壤中荧葸解吸和淋滤的影响．施用污泥堆肥实验结果表明,污泥堆肥施入土壤后的短时间内由于带入和产生的DOM而表现出促进土壤中荧蒽的解吸与淋滤,但随着DOM的降解,该作用逐渐消失．污泥堆肥充分腐熟后（腐熟堆肥）因DOM少而稳定的腐殖质等固相有机质含量相对较多,而表现出施用腐熟堆肥后土壤更易对荧葸吸持．单独施用污泥堆肥DOM后的试验,也进一步表明了污泥堆肥DOM的存在确实能促进土壤中荧蒽的迁移,且在相同DOM浓度下,腐熟堆肥DOM对土壤中荧蒽的解吸和淋滤的促进作用明显高于初始堆肥DOM处理,原因在于腐熟堆肥DOM中大分子组分和疏水性组分的含量比初始堆肥的DOM要多．因此,堆肥施用对土壤多环芳烃环境行为或活性的影响是堆肥施人土壤后固相有机质含量及性质和溶解性有机质的含量及性质等综合影响的结果．     

饮用水源地重金属溶出的影响研究——以广东石门台水库为例

文章研究对饮用水源地水水质现状进行了全面调查;采集水源地土壤进行浸泡释放实验和模拟酸雨的淋溶实验,结果表明在充分搅拌释放条件下,释放污染物对于水质影响不大;而淋溶实验表明各元素释放强度依次为:Mn>Ni>Cu>Pb>As>Hg;Mn和Ni的淋出液浓度超过了地表水水源地水质标准;pH为3.0和5.6的酸雨对于硫铁矿区重金属的溶出和迁移均是有利条件,pH为5.6的酸雨对于钨矿区重金属的溶出更为有利。     

浸出时间、H2SO和Fe^3＋浓度对硫脲浸金的影响

目前废旧电脑的产生量日益增加,废旧电脑主板中含有丰富的可回收金属资源,对其回收处理意义重大。本实验采用硫脲对电脑主板中的金进行浸取研究,在硫脲浸金过程中,主要通过调整时间、硫酸浓度、Fe^3＋浓度,考察对浸金的影响。研究结果表明：当t=60min、硫酸浓度为15％、Fe^3＋浓度为0.45％时,金的浸出最大,可达91.14％。因硫脲具有浸金速率快,试剂易再生,对环境污染小、反应条件易控制等优点适于应用于实际生产。     

内蒙古河套灌区秋浇对不同类型农田土壤盐分淋失的影响

秋浇是河套灌区传统的秋后淋盐、春季保墒的一种特殊灌溉制度 ,秋浇对不同类型农田盐分损失影响的试验结果表明 ,秋浇前白菜地土壤含水率最高 ,向日葵地最低 ,秋浇后 5种农田土壤含水率均较高 ,且彼此间无显著性差异。秋浇后不同土壤剖面盐分的损失量按照表层 (0～ 40cm)、中层 (40～ 80cm)、深层 (80～ 1 2 0cm)依次递减(向日葵地除外 )。不同农田的盐分淋失量按照白菜地、向日葵地、玉米地、小麦 -玉米地、小麦地依次递减。非生长季灌溉下 ,农田土壤 0～ 1 0 0cm土层中盐分的淋失量与土壤储水量的增加量 (灌溉前土壤含水率 <2 50 g·kg- 1 ,r =0 .990 2 )密切相关 ,但与灌溉前土壤盐分初始含量无显著性关系     

黄潮土的土壤水渗漏及硝态氮淋溶研究

在黄淮海平原 1hm2 小麦 -玉米轮作田块上 ,利用水量平衡模型对黄潮土的土壤水渗漏和硝态氮淋溶状况进行了定量研究。结果表明 ,黄潮土的土壤水渗漏和硝态氮淋溶状况非常严重 ,全耕作年土壤水渗漏量达到2 73 .9mm ,为灌溉水量的 60 .6% ;硝态氮淋溶达到 81.8kg·hm-2 ,为氮输入总量的 15 .7%。     

硫酸锰废渣的浸出毒性及处理研究

研究了硫酸锰废渣的主要金属元素组成及浸出毒性,并采用锰渣加石灰混合的方法进行无害化处理,研究结果表明,硫酸锰废渣浸出液中Mn、Cd超标,锰渣加石灰混合处理的方法能有效降低废渣的浸出毒性,锰渣与石灰的重量比为25：2最佳.     

微生物沥滤法去除城市污泥中重金属的试验研究

城市污泥的植物营养元素丰富,农业资源化利用潜力巨大,但污泥中重金属含量常常超标,所以采取一定措施对污泥中重金属加以去除十分必要。本研究以桂林城市污泥作为培养介质,利用以还原硫作为生长基质进行生命活动的氧化硫硫杆菌来沥滤去除污泥中重金属。结果表明,在基质投配比为5gL并附以15%的驯化污泥回流条件下,能将污泥驯化周期缩短为5d,Cu、Zn和Cd的去除率分别达到了70.8%、80.4%和78.9%。同时,污泥中剩余的重金属含量可满足污泥农用的国家标准。     

危险废物在填埋场中的浸出规律模拟实验方法研究

应用数学模型对危险物质的非饱水浸出机理进行了分析，并建立了小柱非饱和水模拟浸出实验系统，对危险废物在填埋场中的浸出规律进行了研究，结果表明，小柱模拟实验能较真实地反映实际填埋场中危险组中填埋场中的迁移和浸出规律，该系统的建立为我国危险废物填埋场的设计、施工及埋场的安全评价具有指导意义。     

聚季铵盐丙烯酰胺接枝共聚物治理煤泥水的应用研究

本文研究了聚季铵盐丙烯酰胺接枝共聚物PQAAM在煤泥水治理中的絮凝沉降作用,说明该絮凝剂是一种质量优良的新型高效的阳离子絮凝剂,对煤泥水治理和环境保护有着广泛的应用前景。     

MODELING NITROGEN UPTAKE AND POTENTIAL NITRATE LEACHING UNDER DIFFERENT IRRIGATION PROGRAMS IN NITROGEN-FERTILIZED TOMATO USING THE COMPUTER PROGRAM NLEAP

Readily available nitrogen (N) sources such as ammonium nitrate with excessive irrigation present a potential hazard for the environment. The computer program Nitrate Leaching and Economic Analysis Package (NLEAP) is a mechanistic model developed for rapid site-specific estimates of nitrate-nitrogen (NO₃-N) moving below the root zone in agricultural crops and potantial impacts of NO₃-N leaching into groundwater. In this study, the value of NLEAP was tested to simulate N uptake by crops and NO₃-N leaching parameters in large lysimeters under the tomato crop. Three seedlings of tomato variety of H-2274 (Lycopersicum esculentum L.) were transplanted into each lysimeter. N fertilizer at the rate of 140 kg N ha^–1 was sidedressed in two split applications, the first half as ammonium sulphate and the second half as ammonium nitrate. The lysimeters were irrigated based on programs of C 0.75, 1.00, 1.25 and 1.50, C referring to class A-Pan evaporation coefficients. Parameters such as leaching index (LI), annual leaching risk potential (ALRP), N available for leaching (NAL), amount of NO₃-N leached (NL) and amount of N taken up by the crops (NU) were estimated using the NLEAP computer model. To test the ability of model to simulate N uptake and NL, measured values were compared with simulated values. Significant correlations, R² = 0.92 and P < 0.03 for the first year and R² = 0.86 and P < 0.06 for the second year, were found between measured and simulated values for crop N consumption, indicating that the NLEAP model adequately described crop N uptake under the varied irrigation programs using an optimal N fertilization program for the experimental site. Significant correlations, R² = 0.96 and P < 0.01 for the first year and R² = 0.97 and P < 0.01 for the second year, were also found between measured and simulated values of NL, indicating that the NLEAP model also adequately predicted NL under the varied irrigation programs. Therefore, this computer model can be useful to estimate the NO₃-N moving beyond the root zone under conditions in which the present experiment was carried out. Also, the NLEAP-estimated NAL values and other parameters can also be used to improve N management practices and N fertilizer recommendations that will help to decrease the adverse effect of N fertilizer on groundwater quality and farm profitability.