生物法净化挥发性有机废气的吸附-生物膜理论模型与模拟研究

针对挥发性有机废气的生物法净化过程,进行了吸附-生物膜新型理论的相关动力学模型研究.经采用实验室数据和工业应用试验结果的对比验证表明,该模型对描述实际过程有很好的适用性.应用该模型对人口气体甲苯浓度、气体流量及生物膜填料层高度等主要因素的影响进行模拟研究,模拟计算值与实验值之间有较好的相关性,相关系数r为0.80～0.97.     

Impacts of emissions and meteorological changes on China’s ozone pollution in the warm seasons of 2013 and 2017

O₃ increment is mainly caused by changes in meteorology rather than emissions. Emission reduction is effective to reduce O₃ nationwide, especially in summer. Strengthened NO_x controls are necessary to meet the ambient O₃ standard. We have quantified the impacts of anthropogenic emissions reductions caused by the Air Pollution Control Action Plan and changes in meteorological fields between 2013 and 2017 on the warm-season O₃ concentration in China using a regional 3D chemical transport model. We found that the impact on daily maximum eight-hour (MDA8) O₃ concentration by the meteorological variation that mostly increased O₃ was greater than that from emission reduction, which decreased O₃. Specifically, the control measures implemented since 2013 in China have reduced SO₂, NO_x, PM_2.5, and VOC emissions by 33%, 25%, 30%, and 4% in 2017, while NH₃ emissions have increased by 7%. The changes in anthropogenic emissions lowered MDA8 O₃ by 0.4–3.7 ppb (0.8%–7.6%, varying by region and month), although MDA8 O₃ was increased slightly in some urban areas (i.e. North China) at the beginning/end of warm seasons. Relative to 2013, the average 2 m temperature in 2017 shows increments in North, North-east, East, and South China (0.34℃–0.83℃) and decreases in Central China (0.24℃). The average solar radiation shows increments in North, North-east, and South China (7.0–9.7 w/m²) and decreases in Central, South-west, and North-west China (4.7–10.3 w/m²). The meteorological differences significantly change MDA8 O₃ by -3.5–8.5 ppb (-8.2%–18.8%) with large temporal variations. The average MDA8 O₃ was slightly increased in North, North-east, East, and South China. The response surface model suggests that the O₃ formation regime transfers from NO_x-saturated in April to NO_x-limited in July on average in China.     

生物膜法降解甲苯废气过程的探讨

采用陶粒为填料的生物滤池降解甲苯废气，并对清水试验和生物膜试验的结果进行分析，发现生物膜法降解甲苯这样的挥发性有机物（VOCs)具有良好的效果，已不再是清水试验中单纯的物理吸收过程，而是伴有生化反应的吸收过程，是以气膜控制为主的传质过程。     

Seasonal variations of monoterpene emissions from coniferous trees of different ages in Korea

Seasonal variations of emission rates and compositions from coniferous species were measured under controlled conditions using a vegetation enclosure method. Total emission rates and compositions of monoterpene compounds from young and adult trees in different seasons were compared.

It was found that the total emission rates and the components of monoterpene varied significantly with tree species, age, and season. Total emissions from C. japonica and P. koraiensis were higher for older trees than for younger trees; however, significantly higher emissions were found from younger trees for C. obtusa. Higher monoterpene emission rates from each plant were found in spring and summer compared with autumn and winter emissions.     

(M)VOC and composting facilities. Part 2: (M)VOC dispersal in the environment

BACKGROUND, AIMS AND SCOPE: Composting facilities are known to release odorous volatiles due to biodegradation of municipal waste and plant residues. Although odour perception and its grading is influenced by experience, attitude and adaptation, these emissions have created a lack of acceptance for residents in the vicinity of composting facilities. Enclosure of compost pile halls, ventilation systems and biofilters are often insufficient to minimise the burden of compost-derived compounds in the air. Moreover, economic considerations forced smaller communities to establish less sophisticated facilities with open storage areas and other relevant sources for wind-borne dispersal of bioaerosols. Aim of the present study was to characterise the immission and dispersal of microbial volatiles (MVOC) and, besides, to find coincidences between MVOC and compost odour. METHODS: In the course of this study, the surroundings of two composting facilities, differing in their type of process engineering, were investigated for emission of volatiles in the environment. Both microbially and plant-derived substances were assessed, several of which have low odour thresholds. Air samples were taken in distances ranging from 50 to 800 m in a downwind direction from each facility. RESULTS AND DISCUSSION: Compost-derived and microbial volatile organic compounds (MVOC) were found at distances of up to 800 m from the composting facilities. Terpenes like alpha-pinene, camphene and camphor were the dominant compounds and coincided with typical compost odour, whereas several typical MVOC were not found at greater distances. The terpenes in combination with certain MVOC may play an important role in the perception of compost odour. Exposure concentrations were not of toxicological relevance, but sensory irritation and psychohygienic effects due to an annoyance potential of such compounds should not be dismissed. RECOMMENDATIONS AND OUTLOOK: Although terpenes are generally associated with pleasant odour characteristics, they seemed to contribute to malodours in a mixture with other VOC, in this context of volatile waste from compost facilities. Malodorous emissions from biowaste have to be considered as sources of health complaints and the investigation of mixtures of compost-derived volatiles is still inevitable. Exposure levels have to be discussed taking VOC mixtures into account. Within composting facilities, technical devices have to be improved to minimise dispersal of volatiles to prevent residents from immissions eventually causing health complaints.     

Volatile metabolites from indoor molds grown on media containing wood constituents

Since volatile mold metabolites are used for the detection of mold growth in buildings, it was interesting to determine whether different indoor mold species show different affinity for the major components of wood, a common building material. Growth and volatile metabolites were studied when Aspergillus versicolor, Penicillium chrysogenum, and P. palitans were grown on laboratory substrates containing the major wood constituents cellulose, xylan and lignin. Microbial volatile organic compounds (MVOCs) were characterized by thermal desorption/gas chromatography/mass spectroscopy. Growth and volatile metabolites varied considerably and there appeared to be complementary substrate specificities for P. chrysogenum, and P. palitans grown on cellulose and xylan. The failure of A. versicolor to produce characteristic MVOCs when grown on media containing wood constituents suggests that systems using volatile metabolites to detect microbial growth in buildings may be fundamentally unreliable for the detection of this species.     

基于树种蓄积量的中国森林VOC排放估算

以中国森林优势树种为对象,应用《全国森林资源统计》提供的林分优势树种蓄积量资料和Guenther提出的光温影响模型,估算各优势树种的VOC排放量,建立了中国森林生态系统的VOC排放清单,并探讨了森林源VOC在不同时空和不同龄级林分中的分配规律.结果表明,中国森林VOC总排放量为8 565.76 Gg,其中异戊二烯5 689.38 Gg(66.42%),单萜烯1 343.95 Gg(15.69%),其他VOC 1 532.43 Gg(17.89%);不同树种的VOC排放量差异较大,栎类、云杉、马尾松等为主要贡献树种,贡献率分别为45.22%、6.34%和5.22%;西南和东北地区为中国森林VOC主要排放区域,云南、四川、黑龙江、吉林、陕西5省排放最多,分别占全国总量的15.09%、12.58%、10.35%、7.49%和7.37%;森林VOC排放存在非常强的季节性变化,夏季排放量最大,占全年的56.66%;不同龄级林分对VOC排放的贡献有所不同,中龄林贡献最多,占森林排放总量的38.84%.     

北京地区植物VOCs排放速率的测定

植物释放的挥发性有机化合物(VOCs)主要集中在异戊二烯和单萜烯上,这些种类的化合物占生物圈VOCs释放量2/3.采用封闭式采样和气相色谱分析对北京地区23种典型植物异戊二烯和单萜烯排放速率进行测定和研究,发现阔叶树(如槐,垂柳等)主要释放异戊二烯;而针叶树(如油松)和果树主要释放单萜烯.同时发现植物异戊二烯的释放受光照和温度的影响,而单萜烯的释放则主要受温度的影响.     

多室蓄热式有机废气焚烧炉工程应用研究

为了解决城市周边小企业挥发性有机物空气污染问题,研发了一种新型多蓄热室旋转换向蓄热式有机废气焚烧炉,对现有焚烧炉内不合理的流通截面积分配比例进行了改进,并在北京市郊某工厂建设了处理能力为3 000 m3/h的应用示范装置。通过对焚烧炉出口残留VOC和焚烧炉能量消耗数据的分析和计算,揭示了影响焚烧炉示范装置VOC处理效果和燃料消耗量的因素。应用情况表明:新型蓄热式有机废气焚烧炉对VOC的处理效率可达95%,同时比常规热力焚烧炉节能70%以上。     

乘用车内空气质量开发与管控研究

本文主要介绍了乘用车内(文中简称车内)空气质量污染源、管控项目及对应检测方法,整车制造商车内空气质量性能开发模式与管控机制。