二氧化碳储存技术的研究现状和展望

为了减少因温室效应造成的危害,必须大量减少CO2的人为排放.将化石燃料燃烧产生的CO2进行储存(尤其是地下储存)能够长期、有效地阻止大气中CO2浓度的增加.通过对CO2储存技术研究现状的介绍,对中国今后开展CO2地下储存技术提出了建议和研究方向.     

水泥工业温室气体CO2的排放及其减排技术路线研究

腐殖酸是大量存在于土壤、河湖海沉积物以及风化煤、褐煤、泥炭中的天然有机高分子化合物。介绍了腐殖酸的组成、结构和性质 ;阐述了其在水处理中的应用及发展前景。表明腐殖酸是一种性能优良、来源广泛、价格低廉的新型水处理材料。     

能源结构与CO_2排放的定量关联机制研究

识别能源结构调整对CO2排放的定量影响可以为评估国家相关温室气体控制政策提供数理工具。首先基于中国的实际能源结构,对不同能源的标准煤CO2排放系数进行了测算和适用范围界定,在此基础上,定量分析了中国十一五期间能源结构调整对CO2排放的影响,指出了中国节能措施和能源结构调整措施对CO2排放影响的贡献率。通过对能源结构调整与CO2排放的敏感性定量测算,可知非化石能源替代煤炭具有最佳的CO2排放降低效益。在定量分析基础上,提出了基于能源结构的降低CO2排放的针对性措施和政策建议。     

水泥工业温室气体CO_2的排放及其减排技术路线研究

分析研究了温室气体 CO2 的排放现状、趋势及温室效应加剧对环境产生的危害性 ,着重探讨了我国水泥工业 CO2的排放现状 ,并从材料学、热学和环境学等交叉学科入手研究了水泥工业温室气体 CO2 排放的控制技术 ,为水泥工业可持续发展以及解决 CO2 引起的温室效应提供了新的技术路线。     

氨水土壤混合物脱除CO2温室气体的实验研究

为了脱除CO2温室气体,提出了利用氨水土壤混合物去除CO2的新方法。分别考察了土壤颗粒粒径、CO2初始流量、氨水浓度（质量比）和温度对CO2脱除量和脱除率的影响。实验结果表明,该方法去除CO2的量较土壤物理吸附量和氨水化学吸收量的总和提高了大约15%;随着氨水浓度的增大,CO2的脱除率和脱除量都增大;随着土壤颗粒粒径和CO2初始流量的增大,CO2的脱除率和脱除量都减小;当温度由22℃升高到31℃,CO2的脱除率随着温度的升高而增大,但是继续升高温度到40℃,CO2的脱除率反而下降。     

O2/CO2工况下回转窑和分解炉内煤粉燃烧的数值模拟及可靠性验证

为研究O_2/CO_2烟气循环煅烧水泥技术实现CO_2和NOx减排的可行性,采用数值模拟的方法对某2 500 t·d~(-1)回转窑和分解炉模型进行了21%O_2/79%CO_2助燃氛围下煤粉燃烧的研究,对比分析了O_2/CO_2助燃工况下与空气助燃工况下回转窑、分解炉的模拟结果,并通过实验验证了数值模拟的可靠性。结果表明:与空气助燃工况下相比,O_2/CO_2助燃工况下回转窑、分解炉的煤粉燃尽率分别为92.41%、91.15%,下降了3.06%、3.51%;分解炉出口处生料分解率为90.54%,下降了2.90%,仍满足生产需求;O_2/CO_2助燃工况下回转窑、分解炉的NO排放量明显下降,脱硝率分别为74.47%、11.80%;烟气中CO_2体积分数从32.23%增加到95.35%,通过简单的处理就可以实现C捕获。上述研究结果为O_2/CO_2烟气循环煅烧水泥技术的推广应用提供了参考。     

Au/SnO2催化氧化CO性能的研究

以SnO2为载体,Au为活性组分,采用真空浸渍法、共沉淀法、沉积 沉淀法制备CO氧化的催化剂,同时还制备双金属体系催化剂Au-Pd/SnO2和Au-Pt/SnO2。用气相色谱对所制备的催化剂进行活性评价,运用DSC、SEM、XRD、BET等对催化剂进行表征。在本实验条件下,载体二氧化锡焙烧温度为500 ℃,催化剂成型温度为350 ℃,金负载量为3%(wt.)时,用沉积-沉淀法制备的Au/SnO2活性最好,在18 ℃,空速为24 000 h-1条件下就能将CO（浓度为4%）完全氧化为CO2;添加铂和钯可提高Au/SnO2对CO的催化活性。     

水蒸气改善钙基CO2吸收剂循环活性的研究

对钙基CO2吸收剂的循环活性改善进行了研究,分析了水蒸气处理对吸收剂的最大转化率、比表面积及孔分布等微观结构变化的影响。结果表明,经水蒸气处理后,钙基CO2吸收剂的循环活性得到了改善,最大转化率比未经水蒸气处理可提高约50百分点;水蒸气处理可大大提高钙基CO2吸收剂的比表面积,并有效改善其孔径分布状态,可使其稳定保持较高的转化率;含碳能源直接制氢过程可在不需要任何添加剂或辅助手段的条件下,有效保持钙基CO2吸收剂的循环活性。     

CO_2高温活化活性炭材料对苯酚的吸附行为研究

以CO2为活化气体,在高温条件下对国产椰壳活性炭进行活化。研究了活化前后的活性炭在不同温度和pH等条件下对水溶液中苯酚的吸附行为。结果表明,活性炭经活化后,微孔体积和中孔体积增加,吸附容量明显提高;苯酚在活性炭上的吸附符合Freundlich吸附等温方程和准二级反应动力学方程;在一定范围内降低温度有利于吸附的进行;在pH为2～8时,吸附效果较好;在pH9时,吸附效率明显降低。     

四川省能源消费的CO2排放状况及减排对策

根据中提供的碳排放计量方法,计算了四川省1999-2008年能源消费的CO2排放量、CO2排放强度以及能源消费各部门的CO2排放量,并根据结果分析了影响CO2排放量变化的主要因素.结果表明,1999-2008年,四川省能源消费CO2排放量总体呈上升趋势;CO2排放量受能源消费...     

Advances of air pollution science: From forest decline to multiple-stress effects on forest ecosystem services

Over the past 20 years, the focus of forest science on air pollution has moved from forest decline to a holistic framework of forest health, and from the effects on forest production to the ecosystem services provided by forest ecosystems. Hence, future research should focus on the interacting factorial impacts and resulting antagonistic and synergistic responses of forest trees and ecosystems. The synergistic effects of air pollution and climatic changes, in particular elevated ozone, altered nitrogen, carbon and water availability, must be key issues for research. Present evidence suggests air pollution will become increasingly harmful to forests under climate change, which requires integration amongst various stressors (abiotic and biotic factors, including competition, parasites and fire), effects on forest services (production, biodiversity protection, soil protection, sustained water balance, socio-economical relevance) and assessment approaches (research, monitoring, modeling) to be fostered.     

电除尘器气流分布与粉尘沉降规律试验研究

简要介绍了斜气流技术机理,进行了均匀气流和斜气流状态下的粉尘沉降试验.通过试验数据分析,总结出了电除尘器内部两种气流分布状态下的粉尘沉降规律,指出斜气流技术的应用在提高除尘效率方面具有重大意义,并为斜气流技术的应用提出了一些建议.     

An assessment of indoor air quality in recent Mexican immigrant housing in Commerce City, Colorado

An indoor air quality assessment was conducted on 100 homes of recent Mexican immigrants in Commerce City, Colorado, an urban industrial community north of Denver. Head of households were administered a family health survey, filled out an activity diary, and participated in a home inspection. Carbon monoxide (CO) and carbon dioxide (CO₂) were measured for 24 h inside the main living area and outside of the homes. Harvard Impactors were used to collect 24-h samples of PM_2.5 at the same locations for gravimetric analysis. Dust samples were collected by vacuuming carpeting and flooring at four locations within the home and analyzed by ELISA for seven allergens. Mean indoor and outdoor PM_2.5 levels were 27.2 and 8.5 μg m⁻³, respectively. Indoor PM_2.5 and CO₂ were elevated in homes for which the number of hours with door/window open was zero compared to homes in which the number of hours was high (>15 h). Indoor PM_2.5 levels did not correlate with outdoor levels and tended to increase with number of inhabitants, and results indicate that the source of indoor particles were occupants and their activities, excluding smoking and cooking. Mean indoor CO₂ and CO levels were 1170 and 2.4 ppm, respectively. Carbon monoxide was higher than the 24-h National Ambient Air Quality Standard in 3 of the homes. The predominant allergens were cat (Fel d 1) and mouse (Mus m 1) allergens, found in 20 and 34 homes, respectively.     

Evaluation of methodology for determining 1,2‐dibromoethane (EDB) in ambient air

Abstract

EDB (ethylene dibromide) is of regulatory interest because it has cancer inducing properties and is a causative agent of aspermia. Methodology used in determining the extent of exposure of workers to EDB in a citrus fumigation facility was evaluated. The purpose of this effort was to develop and/or evaluate the methodology. A number of solid adsorbents were evaluated for trapping EDB. Charcoal was found to be the most efficient for this application. The influence of a number of factors, e.g., humidity, biphenyl concentration and solvents, on trapping and elution efficiency was determined. The level of sensitivity attained in these studies exceeds that necessary to monitor the proposed standard of a maximum of 1 mg/m³ for a 15 min occupational exposure.     

Development and application of methodology for determining 1,2‐dibromo‐3‐chloropropane (DBCP) in ambient air

Abstract

Ametpreviously described by Mann et al.¹ for the determination of hexachlorobenzene in air was modified to detect DBCP in air at the level of 0.02 ppb (by volume). The method utilizes Chromosorb 101 as a trapping medium with subsequent analysis of the eluted DBCP by electron capture ‐ gas chromatography. The procedure was tested using air flows of 1 1/min to 5 1/min for sampling periods of 30 min to 3 hr. Recoveries of greater than 90% were obtained for DBCP levels ranging from 0.07 ppb to 20 ppm. More than 90% of the DBCP stored on Chromosorb 101 at ambient temperature for one month was recovered. A one‐half acre field plot was sprayed with DBCP using the drench method. Air samples were taken from the breathing zone of the applicator during the mixingspraying and clean‐up procedures. Air samples were also taken periodically around the perimeter of the plot for up to 7 days after spraying.     

重庆市机动车尾气对大气环境的影响分析及减缓措施

在对重庆市机动车保有量、主城区交通状况进行深入调查的基础上，对机动车尾气排放对大气环境的影响进行了细致的分析与评估。阐述了机动车尾气是造成重庆市大气污染的重要因素。同时结合国内外一些先进的预防、控制和处理汽车尾气污染的方法，及近年来的观察、研究和试验，提出了合理减缓、控制机动车尾气污染的措施，以防止机动车尾气污染进一步蔓延。     

Modelling tritium and phosphorus transport by preferential flow in structured soil

Subsurface solute transport through structured soil is studied by model interpretation of experimental breakthrough curves from tritium and phosphorus tracer tests in three intact soil monoliths. Similar geochemical conditions, with nearly neutral pH, were maintained in all the experiments. Observed transport differences for the same tracer are thus mainly due to differences in the physical transport process between the different monoliths. The modelling is based on a probabilistic Lagrangian approach that decouples physical and chemical mass transfer and transformation processes from pure and stochastic advection. Thereby, it enables explicit quantification of the physical transport process through preferential flow paths, honouring all independently available experimental information. Modelling of the tritium breakthrough curves yields a probability density function of non-reactive solute travel time that is coupled with a reaction model for linear, non-equilibrium sorption–desorption to describe the phosphorus transport. The tritium model results indicate that significant preferential flow occurs in all the experimental soil monoliths, ranging from 60–100% of the total water flow moving through only 25–40% of the total water content. In agreement with the fact that geochemical conditions were similar in all experiments, phosphorus model results yield consistent first-order kinetic parameter values for the sorption–desorption process in two of the three soil monoliths; phosphorus transport through the third monolith cannot be modelled because the apparent mean transport rate of phosphorus is anomalously rapid relative to the non-adsorptive tritium transport. The occurrence of preferential flow alters the whole shape of the phosphorus breakthrough curve, not least the peak mass flux and concentration values, and increases the transported phosphorus mass by 2–3 times relative to the estimated mass transport without preferential flow in the two modelled monoliths.     

管式湿式电除尘器气流分布的组织与优化

管式湿式电除尘器可看作由多个线管式电除尘器并联组成,若各电除尘器之间处理烟气流量偏差过大,将导致湿式电除尘器总的除尘效率下降。采用CFD数值模拟技术,对某热力公司116 MW锅炉配套管式湿式电除尘器的内部气流分布进行研究分析,并对气流分布进行组织与优化。在电场进口断面气流速度分布满足相对均方根指标要求的基础上,将各单管处理烟气流量偏差控制在一定范围之内,以保障湿式电除尘器达到规定的排放要求。现场测试结果表明,出口粉尘浓度满足项目技术规范规定的排放要求,数值模拟结果可指导管式湿式电除尘器设计。     

室内生物气溶胶消杀措施及启示

关注室内空气中生物气溶胶的危害和传播规律,对于及时采取有效措施降低室内环境中病原体的传播以及交叉感染风险具有重要的意义。在充分认识生物气溶胶来源、危害及其传播规律,了解室内生物气溶胶的防控措施以及主要消杀手段的基础上,通过分析SARS冠状病毒的非光催化消杀技术案例,提出了室内非光催化消杀材料与高效滤除、紫外、臭氧等其他技术复合形成室内病原体消杀整体方案建议,为传染疾病的预防起到积极的作用。