共查询到20条相似文献,搜索用时 15 毫秒
1.
本文对岩溶区桩基施工技术及多种常遇问题的处治进行了探讨,并针对某些特殊情况,提出了若干既能解决工程实际问题,又较经济合理的岩溶区桥梁桩基的处治方法,可供类似工程参考。 相似文献
2.
Mercury capture by selected Bulgarian fly ashes: Influence of coal rank and fly ash carbon pore structure on capture efficiency 总被引:1,自引:0,他引:1
Mercury capture by fly ash C was investigated at five lignite- and subbituminous-coal-burning Bulgarian power plants (Republika, Bobov Dol, Maritza East 2, Maritza East 3, and Sliven). Although the C content of the ashes is low, never exceeding 1.6%, the Hg capture on a unit C basis demonstrates that the low-rank-coal-derived fly ash carbons are more efficient in capturing Hg than fly ash carbons from bituminous-fired power plants. While some low-C and low-Hg fly ashes do not reveal any trends of Hg versus C, the 2nd and, in particular, the 3rd electrostatic precipitator (ESP) rows at the Republika power plant do have sufficient fly ash C range and experience flue gas sufficiently cool to capture measurable amounts of Hg. The Republika 3rd ESP row exhibits an increase in Hg with increasing C, as observed in other power plants, for example, in Kentucky power plants burning Appalachian-sourced bituminous coals. Mercury/C decreases with an increase in fly ash C, suggesting that some of the C is isolated from the flue gas stream and does not contribute to Hg capture. Mercury capture increases with an increase in Brunauer-Emmett-Teller (BET) surface area and micropore surface area. The differences in Hg capture between the Bulgarian plants burning low-rank coal and high volatile bituminous-fed Kentucky power plants suggests that the variations in C forms resulting from the combustion of the different ranks also influence the efficiency of Hg capture. 相似文献
3.
A. K. Sharma D. Thornberg H. R. Andersen 《International Journal of Environmental Science and Technology》2013,10(6):1157-1166
The potential for reuse of iron-rich sludge from waterworks as a replacement for commercial iron salts in wastewater treatment was investigated using acidic and anaerobic dissolution. The acidic dissolution of waterworks sludge both in sulphuric acid and acidic products such as flue gas washing water and commercial iron solution was successful in dissolving the iron from waterworks sludge. The anaerobic dissolution of waterworks sludge due to co-digestion with biological sludge (primary and biological activated sludge) resulted in reduction of iron, increase in dissolved iron(II), increase in pH due to the produced alkalinity from dissolution of iron(III)hydroxides from waterworks sludge, lower internal recirculation of phosphate concentration in the reject water and reduced sulphide in the digested liquid. However, recirculation of the produced soluble iron(II) as an iron source for removal of phosphate in the wastewater treatment was limited, because the dissolved iron in the digester liquid was limited by siderite (FeCO3) precipitation. It is concluded that both acidic and anaerobic dissolution of iron-rich waterworks sludge can be achieved at the wastewater treatment plant, and are economically and environmentally more favourable compared to deposition of the waterworks sludge in controlled landfills. 相似文献
4.
Reduction of environmental pollution through optimization of energy use in cement industries 总被引:1,自引:1,他引:0
A. R. Karbassi Ph.D. H. R. Jafari Ph.D. A. R. Yavari Ph.D. H. Hoveidi H. Sid Kalal Ph.D. 《International Journal of Environmental Science and Technology》2010,7(1):127-134
Industrial development has lead to higher energy consumption, emission of greenhouse gases, as well as air pollutants. Cement factories play an important role in over all greenhouse emissions. This study aims to investigate the role of Iranian cement industries and their contribution of greenhouse gases contribution. The measured emission factors for oil and fuel gas shows that carbon dioxide contribution from fuel oil based cement industries is almost 2.7 times higher than gas based cement factories. The strength, weakness, opportunity and threat technique analysis showed that the best strategy to combat greenhouse gases from Iranian cement factory is to implement energy efficiency measures. Further, strategic position and action evaluation matrix analysis indicates that Iranian cement industries fall within invasive category. Therefore, exploitation of opportunities must carefully be used. One of these opportunities is the utilization of financial assistance provided by clean development mechanism. The results show that replacement of ball mills with vertical roller mill can reduce the electricity consumption from 44.6 to 28 kWh/ton. As a result of such substitution about 720 million kWh/y of electricity would be saved (almost a power plant of 125 MW capacities). Though implementation of new mills may not be economic for the cement industries’ owner, but the overall gain for the government of Iran will be about US$ 304 million. If the duration of such efficiency measure is considered as about 12 y, then the overall CO2 reduction/phase-out would be around 4.3 million tons. 相似文献
5.
《城镇污水处理厂污泥处理处置技术规范》[1]执行前,市政污泥往往直接倾倒于填埋场形成污泥库,导致垃圾设计库容显著降低。为恢复填埋场库容,许多填埋场面临污泥库的原位加固处理。通过2组模型试验,探讨真空预压处理污泥的可行性。试验结果表明,真空预压后污泥含水率显著降低,强度提高至2~4 kPa;污泥排水固结系数随预压过程发展表现出非线性;排水板周围污泥含水率和渗透系数降低明显,阻碍离排水板较远处污泥排水固结,因此减少排水板间距可显著提高污泥处理效果;真空预压过程中污泥中孔压变化规律与常规淤泥质土有明显区别,特别是远离排水板的位置孔压消散幅度小,表明污泥中孔压消散规律不符合传统的太沙基固结理论;污泥真空预压过程中,间歇式通正气压会在处理初期阶段加快排水速率,但整体改善作用不明显;真空预压可作为污泥减量化的一种途径,如要满足后续堆载垃圾的要求,还需配合其他原位处理方法进一步提高强度。 相似文献
6.
Alper Baba 《Environmental Geology》2002,41(8):916-921
7.
The fate and behavior of selected endocrine disrupting chemicals in full scale wastewater and sludge treatment unit processes 总被引:1,自引:0,他引:1
A. O. Ifelebuegu M.Sc. 《International Journal of Environmental Science and Technology》2011,8(2):245-254
Endocrine disrupting chemicals are discharged into the environment mainly through wastewater treatment processes. There is a need for better understanding of the fate of these compounds in the unit processes of treatment plant to optimise their removal. The fate of oestrone, 17β-estradiol, 17α-ethinyestradiol and nonylphenol in the unit processes of full scale wastewater treatment plants in the UK, including activated sludge plant, oxidation ditch, biofilter and rotating biological contactor were investigated. The overall removal efficiencies of all the compounds ranged from 41 %to 100%. The removals were predominantly during the secondary biological treatment with the rates of removal related to the nitrification rates and the sludge age. The removal efficiency of the treatment processes were in the order activated sludge > oxidation ditch > biofilter > rotating biological contactors. Activated sludge plant configured for biological nutrient removal showed better removal of the endocrine disrupting chemicals compared to conventional activated sludge plant effluents. Tertiary treatment was also significant in the removal process through solids removal. Overall mechanisms of removal were biodegradation and sorption unto sludge biomass. Phytoremediation was also significant in the removal processes. The endocrine disrupting chemicals persisted in the anaerobic sludge digestion process with percentage removals ranging fro 10–48 %. Sorption of the endocrine disrupting chemicals onto the sludge increased with increasing values for the partitioning coefficients and the organic carbon contents of the sludge. 相似文献
8.
Radioelemental study of Kolaghat,thermal power plant,West Bengal,India: possible environmental hazards. 总被引:1,自引:0,他引:1
Coal combustion in power plants in India produces large quantities of coal-related wastes, e.g. fly ash and bottom ash. Indian coals used in power stations are of high ash content, thus resulting in the generation of large amounts of fly ash (~100 million tons/year). Combustion of coal results in enhanced concentration of most radionuclides found in waste materials. In the present work, an attempt has been made to assess the radiological impact of the Kolaghat thermal power plant in West Bengal, India. The fly ashes and coal from the power plant were analysed for 238U, 232Th and 40K by a NaI (Tl)-based gamma-ray spectrometer. The results show that 226Ra and 232Th range from 81.9-126 and 132-169 Bq/kg in fly ash and 25-50 and 39-55 Bq/kg in coal. These results are high compared to those of other thermal power plants of India. Hence, the Kolaghat fly ash has a significant amount of radioactivity which, if not properly disposed, will be a serious threat to the ambient environment. 相似文献
9.
电解锰压滤渣是工业生产金属锰过程中采用湿法酸浸电解工艺产生的一种工业废渣。这种传统的废渣处理处置方式,极易造成严重的环境污染和地质灾害的发生。本次研究将电解锰压滤渣通过焙烧生产活性微粉、产生的脱硫烟气制硫酸,是一种能有效解决电解锰压滤渣处理处置和综合利用的方法。本文对"锰三角"地区拟建20万吨电解锰压滤渣焙烧生产活性微粉、脱硫烟气制硫酸生产示范线项目,进行了区域市场调研,对项目的经济效益与社会效益进行分析。该项目年均可实现销售收入4162.7万元,为当地循环经济和锰产业可持续发展探索了一条新的出路。 相似文献
10.
煤中微量元素研究进展 总被引:30,自引:3,他引:30
煤炭是我国的主要能源,在煤炭开采、运输、洗选、淋溶(滤)、燃烧等其它加工利用过程中,煤中的微量元素要发生迁移、析出,并入侵到大气、水、土壤和生态环境中,最终影响人类生存和生活环境。煤中微量元素十分重要,是因为它们与环境问题、动、植物及人类健康密切相关。在研究微量元素时必须考虑微量元素的性质及毒性,它们主要依靠其含量、种类、存在形式、pH值、氧化-还原条件及其它因素。在全面综合国内外研究文献的基础上,分析了煤中微量元素的发现、分布规律、赋存状态、成因机理及微量元素的应用等方面研究的历史、现状,并对今后研究的重点内容和发展方向进行了较为详细的论述和分析,并指出在进一步深入研究煤中微量元素地球化学的基础上,加强微量元素环境学方面的研究是今后煤中微量元素环境地球化学研究的重要内容。 相似文献
11.
油气是重要的战略资源。其中天然气作为清洁能源,它曾经是,现在是,在可预期的未来——全球碳减排、中国碳达峰情景下,仍然是最重要的能源资源。能源进口渠道的多元化一直是中国缓解能源紧张的有效措施之一。北极地区油气资源丰富且以天然气为主,已发现的油气资源中绝大多数在俄罗斯,尤其是天然气。但是俄罗斯天然气生产的油气田80%以上已经进入北极圈。2012年,中俄合作开发北极亚马尔液化天然气项目正式启动,标志着中国参与北极油气资源开发利用取得重要进展,也事实上开启了中国主导的"丝绸之路经济带建设"和俄罗斯主导的"欧亚经济联盟建设"对接合作的进程。北极地区已发现的油气资源共计3289.4亿桶油当量,其中石油605.4亿桶(84.1亿吨)油当量,仅为全球已发现石油资源的2.5%;天然气41.4万亿立方米(约合2683亿桶,372.6亿吨油当量),占全球已发现天然气资源的15.5%。北极地区已发现的油气总资源中绝大多数在俄罗斯,俄罗斯已发现的北极油气资源合计2905亿桶油当量(403.5亿吨),占88.3%;其中天然气约39.47万亿立方米,约合2557.9亿桶(355.3亿吨)油当量,占北极地区已发现天然气总资源的95%以上。北极待发现的油气资源量也非常可观,约占世界待发现常规石油资源的15%;天然气占世界待发现常规天然气资源的30%,其分布也主要在俄罗斯。随着全球气候变暖和能源战略博弈,俄罗斯为确保其天然气出口及财政来源,必然要加大北极油气、特别是天然气的开采和开发,并通过北极航道运到中国和其他消费国。本文在概括分析北极油气资源分布特点、俄罗斯油气资源与北极战略及北方海航道通行能力的基础上,回顾了北极亚马尔液化天然气项目诞生、发展演变及其国际博弈的背景;概括介绍了中国成功介入北极油气资源项目这一标志性事件过程,并进一步提出了中国对北极油气资源利用战略举措的建议。 相似文献
12.
为缓解中国能源消耗与经济发展的矛盾,高效调整国家能源结构,开发利用绿色的地热能已是大势所趋。通过室内测试法和现场热响应试验,研究了不同岩土体的导热系数特征值及其影响因素。研究结果表明: 岩土体导热系数与天然含水率和孔隙率呈负相关,与天然重度和干燥重度呈正相关; 导热系数受干燥重度和孔隙率影响程度较大,受天然含水率和天然重度影响程度较小。通过比较不同加热功率和单、双U地埋管换热器的现场热响应试验测定的各类岩土体导热系数的差异可知,大功率(6 000 W)情况下岩土体综合导热系数比小功率(4 000 W)时大10%~30%; 在相同功率条件下,同一场地内双U地埋管换热器导热系数比单U地埋管大30%左右,使用双U地埋管换热器可有效减少成孔深度及个数。通过系统分析岩土体导热系数的影响因素,为地热能的勘查评价提供数据和理论支持,旨在促进区域地热能开发利用,为构建环境友好型社会服务。 相似文献
13.
地热能作为一种零碳、清洁能源,其开发利用对于碳中和具有重要价值。2015-2020年,全球新增地热发电约3649 GW,增长约27%;地热直接利用总装机容量增长52.0%。两者之和,所用热能比2015年增长72.3%。全球每年地热直接利用可防止7810万t碳和2.526亿t CO2排放到大气中。世界地热能发展呈现五大趋势:(1)发展非常规地热系统;(2)向海上地热资源开发进军;(3)降低钻探成本与石油热能协同生产;(4)加大浅层地热能的开发利用;(5)加强含水层热能储存技术研发。 相似文献
14.
煤基碳排放构成了中国碳排放总量中最重要的部分,做好煤基碳减排和煤炭高效洁净低碳化利用是实现“碳中和”国家目标的重要途径,碳中和背景下的煤地质学发展值得关注。系统评述与碳中和相关的煤地质学研究领域,分析煤地质学在碳中和研究与工程实践中的作用和应用前景,探讨碳中和背景下煤地质学的重要发展方向。取得以下认识:推进清洁煤地质研究、服务煤的高效洁净化燃烧,勘探开发煤系天然气低碳燃料、优化一次能源结构和化石能源结构,开展煤化工资源勘查与开发地质保障研究、推动煤炭的低碳能源转化和新型煤化工产业发展,深化瓦斯地质研究、提高煤矿瓦斯(井下)抽采率、控制煤矿瓦斯的大气排放和泄漏,研究煤层甲烷天然逸散和煤层自燃排放、控制煤层露头的天然排放,发展煤层CO2地质封存与煤层气强化开发(CO2-ECBM)技术、推动碳捕获、利用与封存(CCUS)技术发展及其在火力电厂烟气碳减排中的商业化应用,研究煤炭勘查企业的碳足迹、实现企业净零排放,是与煤地质学紧密相关的碳减排技术路径;其中煤层甲烷与煤系气高效勘探开发、深部煤层CO2-ECBM、煤层露头气体逸散与自燃发火控制、洁净煤地质与煤炭精细勘查是碳中和背景下煤地质学优先发展的重要领域。 相似文献
15.
R. Pashangpour F. Faghihi S. Soleymani 《International Journal of Environmental Science and Technology》2018,15(11):2349-2358
Resource scheduling for both cost and pollution minimization in the power system is so crucial. To reduce the greenhouse gas emission, employing renewable energy resources, especially solar and wind energy, and beside them plug-in hybrid electric vehicles are effective solutions. In industrial factories, using biomass resources for power generation is both economic and environmental approach. In sugarcane company, bagasse is plant fiber residue which is used as fuel. Electric lift trucks, capable of being connected to power grid, could decrease the pollution in industrial transportations. In this paper, scheduling problem for a large-scale sugarcane factory including solar resources, a thermal unit, and electric lift trucks is presented and solved by CPLEX solver in GAMS software. In order to consider uncertainties, different scenarios are noticed. To contribute better understanding of optimization problem, cost, pollution, and charging regime of electric lift trucks are carefully analyzed. The results show that implementation of the biomass electric power generation is effective for reducing cost and amount of emission. 相似文献
16.
Assessment of greenhouse gas emissions from coal and natural gas thermal power plants using life cycle approach 总被引:2,自引:1,他引:1
K. Kr. Agrawal S. Jain A. Kr. Jain S. Dahiya 《International Journal of Environmental Science and Technology》2014,11(4):1157-1164
The importance of mitigation of climate change due to greenhouse gas (GHG) emissions from various developmental and infrastructure projects has generated interest at global level to reduce environmental impacts. Life cycle assessment may be used as a tool to assess GHG emissions and subsequent environmental impacts resulting from electricity generation from thermal power plants. This study uses life cycle approach for assessing GHG emissions and their impacts due to natural gas combined cycle (NGCC) and imported coal thermal power plants using the IPCC 2001 and Eco-Indicator 99(H) methods in India for the first time. The total GHG emission from the NGCC thermal power plant was 584 g CO2 eq/kWh electricity generation, whereas in case of imported coal, it was 1,127 g CO2 eq/kWh electricity generation. This shows that imported coal has nearly ~2 times more impacts when compared to natural gas in terms of global warming potential and human health as disability-adjusted life years from climate change due to GHG emissions such as carbon dioxide (CO2), methane (CH4) and nitrous oxide (N2O). 相似文献
17.
利用谱睿(Pre)技术超大体积进样抑制型电导离子色谱法检测超纯水中ng/L级阴离子 总被引:1,自引:1,他引:0
利用谱睿(Pre)自动样品前处理技术,10 mL超大体积进样,对超纯水样品进行在线预浓缩,检测了电厂水中ng/L级的超痕量阴离子。选择的离子色谱条件为:高容量氢氧化物选择性IonPac AS18阴离子交换色谱柱,淋洗液发生装置在线产生氢氧化钾进行梯度淋洗,抑制型电导检测。该方法选用的自动在线水纯化装置CIRA可以将电导池流出的"废液"进行在线纯化,纯化后的高纯去离子水作为载体将十通阀上大定量环中的样品冲入到六通阀上的超低压浓缩柱上,最后运用阀切换技术实现进样。在提供稳定的系统空白的同时,该方法还具备自动化程度高、操作简单、重现性好、灵敏度高、系统稳定、节约时间、成本低廉等多方面特点。方法参数为:对于电厂水样品,常见阴离子的检出限(s/N=3)均低于2 ng/L,线性相关系数均大于0.999,方法精密度(RSD,n=10)为1.151%~3.347%。经中、日、韩、泰、美等多个实验室共同验证,该方法可靠实用,可以应用于火电厂和核电厂超纯水中阴离子的检测。 相似文献
18.
探讨了六盘水市煤岩资源开发过程中产生的废弃物,煤矸石、矿区废水、废气对其环境的危害性,指出其环境治理的紧迫性,应加强综合治理。 相似文献
19.
D. T. Tan S. K. Chin P. E. Poh Y. H. Lee 《International Journal of Environmental Science and Technology》2018,15(6):1211-1222
The generation of huge amount of liquid waste known as palm oil mill effluent is a major problem in oil palm industry. Meanwhile, anaerobic biodegradation of such organic effluent at thermophilic condition is a promising treatment technology due to its high efficiency. However, storage and transportation of thermophilic mixed culture sludge are challenging due to constant biogas generation and heating requirement. Hence, drying of thermophilic sludge was conducted to obtain dormant thermophiles and thus enables easier handling. In this study, thermophilic sludge was dried using heat pump at 22 and 32 °C as well as hot air oven at 40, 50, 60, and 70 °C. Subsequently, quality of dried sludge was examined based on most probable number enumeration, chemical oxygen demand, and methane yield. Average drying rate was found to increase from 3.21 to 17.84 g H2O/m2 min as drying temperatures increases while average moisture diffusivity values ranges from 5.07 × 10?9 to 4.34 × 10?8 m2/s. Oven drying of thermophilic mixed culture resulted in highest chemical oxygen demand removal and lowest log reduction of anaerobes at 53.41% and 2.16, respectively, while heat pump drying resulted in the highest methane yield and lowest log reduction of methanogens at 53.4 ml CH4/g COD and 2.09, respectively. To conclude, heat pump at 22 °C was most suitable drying technique for thermophilic mixed culture as the original methane-producing capability was largely retained after drying, at a slightly lower yet still comparable chemical oxygen demand removal when palm oil mill effluent was treated with the rehydrated culture. 相似文献
20.
E. S. Karapidakis Ph.D. A. A. Tsave P. M. Soupios Ph.D. Y. A. Katsigiannis Ph.D. 《International Journal of Environmental Science and Technology》2010,7(3):599-608
This study investigates the utilization of landfill biogas as a fuel for electrical power generation. Landfills can be regarded as conversion biogas plants to electricity, not only covering internal consumptions of the facility but contributing in the power grid as well. A landfill gas plant consists of a recovery and a production system. The recovery of landfill gas is an area of vital interest since it combines both alternative energy production and reduction of environmental impact through reduction of methane and carbon dioxide, two of the main greenhouse gases emissions. This study follows two main objectives. First, to determine whether active extraction of landfill gas in the examined municipal solid waste sites would produce adequate electric power for utilisation and grid connection and second, to estimate the reduction of sequential greenhouse gases emissions. However, in order to optimize the designing of a plant fed by biogas, it is necessary to quantify biogas production over several years. The investigation results of energy efficiency and environmental impact of biogas utilization in landfills are considering satisfactory enough both in electric energy production and in contribution to greenhouse gases mitigation. 相似文献