北京城区大气CH4浓度及其变化规律

研究表明:北京城区大气CH4浓度日变化总特征是白天浓度低,夜间浓度高;大气CH4浓度季节变化呈明显的双峰模态,分别在夏末和冬季各出现一个峰,冬季峰值主要是人为源造成的;1985-2000年,北京城区大气CH4摩尔分数平均值为(1 883.4±73.0) nmol/mol,年平均增长率为0.82%,均比全球平均水平高,但20世纪90年代的增长速率比80年代末期低.      

粪渣污泥处理处置过程恶臭气休产生及控制研究

对粪渣污泥处理处置过程中恶臭气体的产生及控制进行了研究,结果表明,在综合处理全过程的几个主要阶段都会产生高浓度的恶臭气体,为防止恶臭气体对环境造成的二次污染,提出采用沼气锅炉焚烧和洗涤塔相结合的除臭工艺,洗涤塔除臭只有在系统启动、调试和沼气锅炉发生故障的情况下使用。     

长江经济带农业源非二氧化碳温室气体排放的时空特征

利用清单方法核算了1980~2016年长江经济带农业源非二氧化碳（CO₂）温室气体的排放总量和排放强度,分析了不同经济发展情景和农业-环境脱钩状态下长江经济带2030年和2050年的排放情景.研究表明：时间维度上,1980~2016年长江经济带农业源非CO₂温室气体排放总量呈上升趋势,从0.26Gt CO₂-eq上升到0.32Gt CO₂-eq;2030年和2050年在高情景和中情景2种情景下,长江经济带农业源非CO₂温室气体排放量不会达峰,江苏、湖南、重庆、云南、湖北和安徽等六省（市）的单位农地面积排放强度将增加;3种情景下,四川始终为单位农地面积排放强度较低的地区.     

污泥热干化和燃烧特性试验研究

分别在桨叶式干化机和热重仪上进行污泥干化和燃烧试验,研究了污泥干化特性和污染物排放特性,并对污泥的燃烧特性进行分析。结果表明,污泥干化过程分为黏稠区、粘滞区和颗粒区3个阶段。干化过程排放的污染气体有氨气、氯化氢、氟化氢、氰化氢、甲烷和挥发性有机酸等,其中氨气为主要污染气体。经冷凝吸收和活性炭吸附处理后,各种污染气体浓度均显著降低,其中氨气去除率最高,达97.04%。污泥干化冷凝液的BOD5和COD质量浓度分别为4 040、8 510mg/L,氨氮的质量浓度为1 025mg/L,pH为9.84,属于高浓度有机废水。污泥的燃烧过程可以分为3个失重阶段:水分析出阶段(50～150℃),挥发分燃烧阶段(150～450℃),固定碳燃烧阶段(450～650℃)。分别用Kissinger法和Ozawa法计算挥发分燃烧阶段和固定碳燃烧阶段的活化能和动力学方程,挥发分燃烧阶段的活化能低于固定碳燃烧阶段,表明挥发分燃烧阶段污泥更易燃烧。污泥的燃烧过程在650℃时基本完成,因此实际工程应用中,设计干化污泥的焚烧温度在750℃比较合理。     

Emission estimation and congener-specific characterization of polybrominated diphenyl ethers from various stationary and mobile sources

Here we show that combustion sources, including waste incinerators, metallurgical processes, power-heating systems and so on, are also important emitters of polybrominated diphenyl ethers (PBDEs) to the atmosphere. Geometric mean PBDE concentrations in the stack flue gases of the combustion sources ranged from 8.07 to 469 ng/Nm³. The sinter plants (24.7 mg/h), electric arc furnaces (EAFs) (11.3 mg/h) and power plants (50.8 mg/h) possessed the largest PBDE emission rates, which were several orders higher than those of the other reported sources. The occurrences of the PBDEs in the flue gases of the power plants and vehicles, as well as their PBDE concentrations statistically highly correlated with combustion-originated PCDD/Fs, revealing that PBDEs should be the products of combustion. The ranking of major PBDE emission sources in Taiwanese PBDE inventory for combustion sources was power plants (30.85 kg/year), vehicles (14.9 kg/year) and metallurgical processes (5.88 kg/year).     

二氧化碳的失汇

温室气体的大量排放所造成温室效应的加剧是全球变暖的基本原因。全球和区域碳循环已成为全球气候变化研究的重要内容之一。碳汇的巨大功能深受世人瞩目,影响碳汇增加因素的研究也越加必要。     

液体石蜡乳化液的制备及对甲苯废气的吸收性能研究

以液体石蜡和水制备乳化液,以制备的乳化液吸收甲苯废气。考察了制备乳化液时油水质量比、乳化剂的质量分数、HLB值(亲水亲油平衡值)、乳化时间、乳化温度的选择及Tween 80、正辛醇、NaCl、Na2SO4对甲苯吸收效果的影响。结果表明,室温下油水质量比为7∶3,乳化剂质量分数为7%,HLB值为10,乳化时间为0.5 h时制备的乳化液稳定性最好。试验条件下乳化液对甲苯的初始吸收率可达96.53%,增加Tween 80的量和添加正辛醇能提高乳化液的吸收效果,添加NaCl和Na2SO4则降低乳化液对甲苯的吸收能力。     

常压下煤对N2/CO2/CH4单组分气体吸附特性研究

为了研究常压不同条件下煤样对N2/CO2/CH4单组分气体的吸附特性,以Langumir单分子层吸附模型为依据,对其吸附阶段进行划分,选择长焰煤、气肥煤和无烟煤分别进行了单组分气体吸附试验,探讨不同试验条件对煤吸附量的影响。结果表明:在常压阶段,煤对单组分气体的吸附规律服从Langumir单分子层吸附模型的第一阶段,吸附量与压力正相关;煤的变质程度、吸附温度及压力和吸附气体的种类是影响吸附量的主要因素,并在不同情况下对煤吸附量的影响程度不同;高低变质煤样对吸附量的影响大,而中等变质程度的影响小;温度是低压阶段影响吸附量的主要因素;吸附气体种类对吸附量的影响是由于其自身物化性质差异,相同试验条件下煤对3种单组分气体的吸附量从大到小为CO2、CH4、N2。     

The Potential of Soil Carbon Sequestration Through Improved Management Practices in Norway

The study was conducted to assess the potential of Norwegian agricultural ecosystems to sequester carbon (C) based on the data from some long-term agronomic and land use experiments. The total emission of CO₂ in Norway in 1998 was 41.4 million metric ton (MMT), of which agriculture contributed only 0.157 MMT, or <0.4% of the total emissions. With regards to methane (CH₄) and nitrous oxide (N₂O) gases, however, agricultural activities contributed 32.5% and 51.3% of their respective emissions in Norway. The soil organic carbon (SOC) losses associated with accelerated soil erosion in Norway are estimated at 0.475 MMTC yr^–1. Land use changes and soil/crop management practices with potential for SOC sequestration include conservation tillage methods, judicious use of fertilizers and manures, use of crop residues, diverse crop rotations, and erosion control measures. The potential for SOC sequestration is 0.146 MMTC yr^–1 for adopting conservation tillage, 0.011–0.035 MMTC yr^–1 for crop residue management, 0.026 MMTC yr^–1 for judicious use of mineral fertilizer, 0.016–0.135 MMTC yr^–1 for manure application, and 0.036 MMTC yr^–1 for adopting crop rotations. The overall potential of these practices for SOC sequestration ranges from 0.591 to 1.022 MMTC yr^–1 with an average value of 0.806 MMTC yr^–1. Of the total potential, 59% is due to adoption of erosion control measures, 5.8% to restoration of peat lands, 21% to conversion to conservation tillage and residue management, and 14% to adoption of improved cropping systems. Enhancing SOC sequestration and improving soil quality, through adoption of judicious land use and improved system of soil and crop management, are prudent strategies for sustainable management of soil, water and environment resources.Readers should send their comments on this paper to: bhaskarn ath@aol.com within 3 months of publication of this issue.     

潘家口水库温室气体溶存、排放特征及影响因素

以大型深水水电类水库潘家口水库为例,于2020年春季（5月）、夏季（8月）在研究区设置33个采样点,采用顶空平衡-气相色谱法和经验模型法对水柱温室气体浓度和水-气界面扩散通量进行了观测及估算,并分析了潘家口水库温室气体浓度及通量的主要影响因素.结果表明：春季潘家口水库水-气界面CH₄、CO₂、N₂O平均通量分别为（1.11±1.60）μmol/（m²·h）,（1333.31±546.43）μmol/（m²·h）,（76.65±19.54）nmol/（m²·h）.夏季潘家口水库水-气界面CH₄、CO₂、N₂O平均通量分别为（0.62±1.13）μmol/（m²·h）,（746.08±1152.44）μmol/（m²·h）,（141.18±256.02）nmol/（m²·h）.潘家口水库温室气体排放呈现出大的时空异质性,空间上春季和夏季各温室气体通量均表现为干流大于支流;季节上CH₄与CO₂扩散通量表现为春季大于夏季,而N₂O扩散通量夏季大于春季.统计分析表明CH₄扩散通量主要受电导率、风速等环境因子影响,CO₂扩散通量受风速、pH及DOC影响,N₂O扩散通量主要受水柱NO₃^--N、NO₂^--N的影响.