上海市化石燃料排放二氧化碳贡献量的研究

采用ORNL提出的化石燃料燃烧排放二氯化碳的计算方法研究了上海市1994～2005年二氯化碳的排放量。得出上海化石燃料排放的二氯化碳将由1994年的3299．7万t增加到2005年的4493．44万t。同时得出煤炭、石油、天然气排放的二氯化碳比重将分别由1994年的84．03％下降到2005年的72．04％，1994年的15．97％上升到2005年的18．35％、2000年的0.38％上升到2005年的4.1％。     

Quantification of ammonia and hydrogen sulfide emitted from pig buildings in Korea

The aim of this field study was to determine the concentrations and emissions of ammonia and hydrogen sulfide in different types of pig buildings in Korea to allow objective comparison between pig housing types in Korea and other countries. Concentrations of ammonia and hydrogen sulfide in the pig buildings averaged 7.5ppm and 286.5ppb and ranged from 0.8 to 21.4ppm and from 45.8 to 1235ppb, respectively. The mean emissions of ammonia and hydrogen sulfide per pig (normalized to 75kg liveweight) and area (m2) from pig buildings were 250.2 and 37.8mg/h/pig and 336.3 and 50.9mg/h/m2, respectively. Ammonia and hydrogen sulfide concentrations and emissions were higher in the pig buildings managed with deep-pit manure systems with slats and mechanical ventilation than in other housing types.     

Volatile organic compound emissions from wastewater treatment plants in Taiwan: legal regulations and costs of control

This study assessed volatile organic compound (VOC) emission characteristics from wastewater treatment plants (WWTPs) in five Taiwanese industrial districts engaged in numerous manufacturing processes, including petrochemical, science-based industry (primarily semiconductors, photo-electronics, electronic products and biological technology), as well as multiple manufacturing processes (primarily pharmaceuticals and paint manufacturing). The most aqueous hydrocarbons dissolved in the wastewater of Taiwanese WWTPs were acetone, acrylonitrile, methylene chloride, and chloroform for the petrochemical districts; acetone, chloroform, and toluene for the science-based districts; and chlorinated and aromatic hydrocarbons for the multiple industrial districts. The aqueous pollutants in the united WWTPs were closely related to the characteristics of the manufacturing plants in the districts. To effectively prevent VOC emissions from the primary treatment section of petrochemical WWTPs, the updated regulations governing VOC emissions were issued by the Taiwanese Environmental Protection Administration in September 2005, legally mandating a seal cover system incorporating venting and air purification equipment. Cost analysis indicates that incinerators with regenerative heat recovery are optimal for treating high VOC concentrations, exceeding 10,000ppm as CH(4), from the oil separation basins. However, the emission concentrations, ranging from 100 to 1000ppm as CH(4) from the other primary treatment facilities and bio-treatment stages, should be collected and then injected into the biological oxidation basins via existing or new blowers. The additional capital and operating costs required to treat the VOC emissions of 1000ppm as CH(4) from primary treatment facilities are less than US$0.1 for perm(3) wastewater treatment capacity.     

Chemical and olfactive impacts of organic matters on odor emission patterns from the simulated construction and demolition waste landfills

The explosive increase of construction and demolition waste (CDW) caused the insufficient source separation and emergency disposal at domestic waste landfills in many developing countries. Some organic fractions were introduced to the CDW landfill process and resulted in serious odor pollution. To comprehensively explore the impacts of organic matters on odor emission patterns, five CDW landfills (OIL), with organic matters/ inert CDW components (O/I) from 5% to 30%, and the control group only with inert components (IL) or organics (OL) were simulated at the laboratory. The chemical and olfactive characters of odors were evaluated using the emission rate of 94 odorants content (ER_total), theory odor concentration (TOC_total), and e-nose concentration (ER_ENC), and their correlations with waste properties were also analyzed. It was found that the main contributors to ER_total (IL: 93.0% NH₃; OIL: 41.6% sulfides, 31.0% NH₃, 25.9% oxygenated compounds) and TOC total (IL: 64.1% CH₃SH, 28.2% NH₃; OIL: 71.7% CH₃SH, 24.8% H₂S) changed significantly. With the rise of O/I, ER_total, TOC_total, and ER_ENC increased by 10.9, 20.6, and 2.1 times, respectively. And the organics content in CDW should be less than 10% (i.e., DOC<101.3 mg/L). The good regressions between waste properties (DOC, DN, pH) and ${\mathrm{ER}}_{\stackrel{?}{\mathrm{ENC}}}$ (r=0.86, 0.86, -0.88, p<0.05), ${\mathrm{TOC}}_{\stackrel{?}{\mathrm{total}}}$ (r=0.82, 0.79, -0.82, p<0.05) implied that the carbon sources and acidic substances relating to organics degradation might result in that increase. Besides, the correlation analysis results (${\mathrm{ER}}_{\stackrel{?}{\mathrm{ENC}}}$ vs. ${\mathrm{TOC}}_{\stackrel{?}{\mathrm{total}}}$, r=0.96, p<0.01; vs. ${\mathrm{ER}}_{\stackrel{?}{\mathrm{total}}}$, r=0.86, p<0.05) indicated that e-nose perhaps was a reliable odor continuous monitoring tool for CDW landfills.     

粤港细粒子(PM2.5)污染导致能见度下降与灰霾天气形成的研究

为了研究珠三角地区细粒子气溶胶的环境效应,使用粤港地区长期气象资料和珠三角大气成分站网高分辨率资料,结合卫星遥感AOD结果,分析了珠三角地区由于细粒子(PM2.5)污染导致能见度下降与形成灰霾天气的长期变化趋势.结果表明,近年来珠江三角洲地区的气溶胶污染日趋严重,气溶胶云一年四季都可以出现,且长期稳定存在,重污染区位于珠江口以西的珠江三角洲西侧.灰霾天气主要出现在10月至次年4月.灰霾导致能见度恶化.自20世纪80年代初开始,该地区的能见度急剧恶化,灰霾天气显著增加,其中有3次大的波动,分别代表珠江三角洲经济发展相伴随的粗颗粒气溶胶污染、硫酸盐+粗颗粒气溶胶污染、光化学过程的细粒子+硫酸盐和粗颗粒气溶胶的复合污染时期.雾和轻雾造成的低能见度的长期变化趋势,没有由于人类活动影响或经济发展影响带来趋势性变化,其波动主要反映了气候波动固有的年际和年代际变化.珠江三角洲能见度的恶化主要与细粒子关系比较大,PM10有一半年份的年均值超过国家二级标准的年均值限值(70μg·m-3),而PM2.5年均值全部年份都超过国家二级标准的年均值限值(35μg·m-3),尤其是有些年份的年均值浓度超过标准限值的2倍,细粒子浓度甚高.另外,近年PM2.5占PM10的比重非常高,可达51%～79%,黑碳气溶胶浓度非常高,月均值达到5.0～9.1μg·m-3.和20余年前的资料相比较,细粒子在气溶胶中的比重有明显增加.因而在目前粤港地区的气溶胶污染中,主要是细粒子的污染,尤其是黑碳气溶胶污染严重.     

减排六氟化硫应对全球气候变化

SF6为目前认为具有最高温室气体暖化潜势的气体,也是《京都议定书》控制的6种温室气体之一,对气候的影响能力不可忽视。SF6气体的应用所造成的温室效应与环境污染问题,已备受全球关注,sF6减排已成为社会责任。减少sF6气体排放量,是控制温室气体排放的重要手段之一。随着sF6气体使用量的增加和使用范围的扩大,在合理使用和管理sF6气体的同时,研究逐步减少sF6气体使用比例,减少sF6气体排放量,减少其对温室效应贡献的应对策略,保护我们赖以生存的环境已显得十分迫切。     

Mercury mass flow in iron and steel production process and its implications for mercury emission control

The iron and steel production process is one of the predominant anthropogenic sources of atmospheric mercury emissions worldwide. In this study, field tests were conducted to study mercury emission characteristics and mass flows at two iron and steel plants in China. It was found that low-sulfur flue gas from sintering machines could contribute up to41% of the total atmospheric mercury emissions, and desulfurization devices could remarkably help reduce the emissions. Coal gas burning accounted for 17%–49% of the total mercury emissions, and therefore the mercury control of coal gas burning, specifically for the power plant burning coal gas to generate electricity, was significantly important. The emissions from limestone and dolomite production and electric furnaces can contribute29.3% and 4.2% of the total mercury emissions from iron and steel production. More attention should be paid to mercury emissions from these two processes. Blast furnace dust accounted for 27%–36% of the total mercury output for the whole iron and steel production process. The recycling of blast furnace dust could greatly increase the atmospheric mercury emissions and should not be conducted. The mercury emission factors for the coke oven,sintering machine and blast furnace were 0.039–0.047 g Hg/ton steel, and for the electric furnace it was 0.021 g Hg/ton steel. The predominant emission species was oxidized mercury, accounting for 59%–73% of total mercury emissions to air.     

煤焦化生产过程甲烷排放初步研究

本研究选取山西省具有代表性的焦化厂,通过在废气排放烟囱上采集燃烧室废气和装煤/出焦废气,初步研究了煤焦化过程甲烷排放特征。结果显示燃烧室废气中CH4占∑(CH4+NMHC)的比例远高于装煤和出焦废气。基于EPA AP-42排放因子的计算方法,煤焦化三个工段的CH4排放因子为228.5±56.1g/t。结合中国机械炼焦炉焦炭产量,2004年中国机械炼焦CH4排放为0.03Tg/a,占中国总CH4排放的0.1%,可能是山西省除煤炭开采外的重要甲烷排放源,该值还需再进一步的工作中完善和验证。     

Chemical characteristics and source apportionment of PM2.5 in a petrochemical city: Implications for primary and secondary carbonaceous component

To study the pollution features and underlying mechanism of PM_2.5 in Luoyang, a typical developing urban site in the central plain of China, 303 PM_2.5 samples were collected from April 16 to December 29, 2015 to analyze the elements, water soluble inorganic ions, organic carbon and elemental carbon. The annual mean concentration of PM_2.5 was 142.3 μg/m³, and 75% of the daily PM_2.5 concentrations exceeded the 75 μg/m³. The secondary inorganic ions, organic matter and mineral dust were the most abundant species, accounting for 39.6%, 19.2% and 9.3% of the total mass concentration, respectively. But the major chemical components showed clear seasonal dependence. SO₄^2? was most abundant specie in spring and summer, which related to intensive photochemical reaction under high O₃ concentration. In contrast, the secondary organic carbon and ammonium while primary organic carbon and ammonium significantly contributed to haze formation in autumn and winter, respectively. This indicated that the collaboration effect of secondary inorganic aerosols and carbonaceous matters result in heavy haze in autumn and winter. Six main sources were identified by positive matrix factorization model: industrial emission, combustion sources, traffic emission, mineral dust, oil combustion and secondary sulfate, with the annual contribution of 24%, 20%, 24%, 4%, 5% and 23%, respectively. The potential source contribution function analysis pointed that the contribution of the local and short-range regional transportation had significant impact. This result highlighted that local primary carbonaceous and precursor of secondary carbonaceous mitigation would be key to reduce PM_2.5 and O₃ during heavy haze episodes in winter and autumn.     

中国能源消费和碳排放特征研究

基于中国能源消费数据,采用IPCC报告中碳排放估算方法,对我国1978～2010年的能源消费和碳排放特征进行研究。结果显示:中国能源消费和碳排放总量增幅较大,2010年中国能源消费量和二氧化碳排放量分别达到32.5亿t和76.13亿t,但是能源强度和碳强度总体上呈下降趋势;不论是总量上还是强度上,能源消费和碳排放的地区差异均较大。