成都市非道路施工机械排放清单研究

随着大气污染控制形势的日益严峻,非道路移动源排放日益受到关注.本研究通过软件调研获得了成都市非道路施工机械保有量、功率分布,通过现场及文献调研获得了非道路施工机械活动水平数据.参照《非道路移动污染源排放清单编制技术指南(试行)》中的方法,计算了成都市2018年非道路施工机械排放清单.结果表明,2018年成都市非道路施工机械PM、HC、NO_x和CO的排放量分别为845、2898、16738、11231 t.按机械类型划分,挖掘机4项污染物排放占比最高,PM、HC、NO_x和CO分别占59%、61%、59%和62%;按排放阶段划分,国2机械4项污染物排放占比最高,PM、HC、NO_x和CO分别占55%、66%、68%和65%.排放清单结果的不确定性受到多种因素的影响,其中影响最大的为排放因子.     

Ten-year emission characteristics of atmospheric pollutants from incineration of sacrificial offerings in China

The incineration of sacrificial offerings is a significant widely practiced custom that is also a kind of neglected air pollution source in China. Our results showed that the emission factors of particulate matter, SO₂, CO, NO_x, and VOCs emitted from the incineration of sacrificial offerings with purification systems were reduced by 95%, 19%, 9%, 82%, and 42%, respectively, compared with those without a purification system, revealing a significant effect of the flue gas purification system on reducing particulate matter and gaseous pollutants. The emission level of air pollutants from the incineration of sacrificial offerings remained stable before 2013 and then showed a remarkable decrease after the implementation of China´s Air Pollution Prevention Action Plan in 2013. The emissions of TSP (total suspended particulate), PM₁₀, PM_2.5, and NO_x in 2009 were 8222, 6106, 5656 and 15,878 ton, respectively, obviously higher than 3434, 2551, 2305 and 8579 ton in 2019. Such trend was affected by both the quantity of incineration and the installation rate of purification systems after the Emission Standard of Air Pollutants for Crematory (GB 13801-2015) issued in China. Distinct spatial distribution of atmospheric pollutants from incineration of sacrificial offerings was found with higher in the east and south of China than the west and north of China, which is proportional to the regional economy and population. The maximum ground-level concentration typically occurred at 0.12-0.2 km from the pollution source, posing potential health risks to people entering and exiting funeral and burial sites and nearby residents.     

Characterization of VOC emissions from construction machinery and river ships in the Pearl River Delta of China

Speciated characterization of Volatile Organic Compounds (VOCs),including oxygenated VOCs (OVOCs),from construction machinery and river ships in China is currently lacking.In this regard,we conducted field measurement on speciated VOC (including OVOC) emissions from six construction machinery and five river ships in the Pearl River Delta (PRD) region to identify VOC emission characteristics.We noticed that OVOC emissions from construction machinery and ships accounted for more than 50%of the tot...     

Comprehensive and high-resolution emission inventory of atmospheric pollutants for the northernmost cities agglomeration of Harbin-Changchun, China: Implications for local atmospheric environment management

Using a bottom-up estimation method, a comprehensive, high-resolution emission inventory of gaseous and particulate atmospheric pollutants for multiple anthropogenic sectors with typical local sources has been developed for the Harbin-Changchun city agglomeration (HCA). The annual emissions for CO, NOx, SO₂, NH₃, VOC_S, PM_2.5, PM₁₀, BC and OC during 2017 in the HCA were estimated to be 5.82 Tg, 0.70 Tg, 0.34 Tg, 0.75 Tg, 0.81Tg, 0.67 Tg, 1.59 Tg, 0.12 Tg and 0.26 Tg, respectively. For PM₁₀ and SO₂, the emissions from industry processes were the dominant contributors representing 54.7% and 49.5%, respectively, of the total emissions, while 95.3% and 44.5% of the total NH₃ and NOx emissions, respectively, were from or associated with agricultural activities and transportation. Spatiotemporal distributions showed that most emissions (except NH₃) occurred in November to March and were concentrated in the central cities of Changchun and Harbin and the surrounding cities. Open burning of straw made an important contribution to PM_2.5 in the central regions of the northeastern plain during autumn and spring, while domestic coal combustion for heating purposes was significant with respect to SO₂ and PM_2.5 emissions during autumn and winter. Furthermore, based on Principal Component Analysis and Multivariable Linear Regression model, air temperature, relative humidity, electricity and energy consumption, and the urban and rural population were optimized to be representative indicators for rapidly assessing the magnitude of regional atmospheric pollutants in the HCA. Such indicators and equations were demonstrated to be useful for local atmospheric environment management.     

A review and evaluation of nonroad diesel mobile machinery emission control in China

China’s emission control for nonroad diesel mobile machinery (NDMM) must deal with a fast increase in stock as well as regulations that are two decades behind those for on-road vehicles.This study provides the first large-scale review and evaluation of China’s NDMM policies,along with emission measurements and an investigation on diesel fuel quality.The sulfur contents of the investigated diesel declined from 430 ppm (median value) in 2011 to6-8 ppm during the 2017-2018 period.The emission contr...     

Tailpipe emission characterizations of diesel-fueled forklifts under real-world operations using a portable emission measurement system

Non-road equipment is one of the key contributing sources to air pollution. Thus, an accurate development of emission inventory from non-road equipment is imperative for air quality management, especially for equipment with a large population such as diesel-fueled forklifts. The objective of this paper is to characterize duty-cycle based emissions from diesel-fueled forklifts using a portable emission measurement system (PEMS). Three duty-cycles were defined in this study, including idling, moving, and working (active duty operation) and used to characterize in-use emissions for diesel-fueled forklifts. A total of twelve diesel-fueled forklifts were selected for real-world emission measurements. Results showed that fuel-based emission factors appear to have smaller variability compared to time-based ones. For example, the time-based emission factors for CO, HC, NO, and PM_2.5 for forklifts were estimated to be 16.6–43.9, 5.3–15.1, 26.2–49.9, 5.5–11.1 g/hr with the fuel-based emission factors being 12.1–20.3, 4.1–8.3, 19.1–32.4, 3.5–6.5 g/kg-fuel, respectively. NO emissions appear to be the biggest concern for emissions control. Furthermore, most of the emissions factors estimated from this study are significantly different from those in both National Guideline for Emission Inventory Development for Non-Road Equipment in China and well-developed emission factor models such as NONROAD by US EPA. This implies that localized, preferably fuel-based emission factors should be adjusted based on real-world emission measurements in order to develop a representative emission inventory for non-road equipment.     

成都市道路移动源排放清单与空间分布特征

以成都市为例开展了路网、交通流、道路行驶工况和机动车保有量等数据的收集工作,运用自下而上的方法,基于实测校正和本地化的IVE模型计算了不同区域机动车在高速路、主干道、次干道和支路的排放因子,应用GIS技术建立了1 km×1 km的成都市高时空分辨率道路移动源排放清单.结果表明,2016年成都市道路移动源CO、VOCs、NO_x、SO_2、PM_(10)和NH_3排放量分别为4.2×10~5、4.5×10~4、7.2×10~4、0.4×10~3、1.1×10~4和6.2×10~3t.CO排放主要贡献车型为小型客车、中型客车和大型客车,VOCs排放主要源于小型客车和摩托车,NOx和SO2排放主要产生于小型客车和重型货车,PM10排放主要贡献车型为重型货车,NH3排放主要由小型客车贡献.污染物排放量空间分布呈现出由城市中心向卫星城市、远郊区递减趋势,中心城区和二圈层区域路网密集,排放呈片状分布,三圈层则呈带状分布.排放清单机动车技术分布数据可靠性较高,而交通流数据和排放因子存在一定不确定性.     

Recent advances and perspectives towards emission inventories of mobile sources: Compilation approaches, data acquisition methods, and case studies

In recent years, great efforts have been devoted to reducing emissions from mobile sources with the dramatic growth of motor vehicle and nonroad mobile source populations. Compilation of a mobile source emission inventory is conducive to the analysis of pollution emission characteristics and the formulation of emission reduction policies. This study summarizes the latest compilation approaches and data acquisition methods for mobile source emission inventories. For motor vehicles, a high-resolution emission inventory can be developed based on a bottom-up approach with a refined traffic flow model and real-world speed-coupled emission factors. The top-down approach has advantages when dealing with macroscale vehicle emission estimation without substantial traffic flow infrastructure. For nonroad mobile sources, nonroad machinery, inland river ships, locomotives, and civil aviation aircraft, a top-down approach based on fuel consumption or power is adopted. For ocean-going ships, a bottom-up approach based on automatic identification system (AIS) data is adopted. Three typical cases are studied, including emission reduction potential, a cost-benefit model, and marine shipping emission control. Outlooks and suggestions are given on future research directions for emission inventories for mobile sources: building localized emission models and factor databases, improving the dynamic updating capability of emission inventories, establishing a database of emission factors of unconventional pollutants and greenhouse gas from mobile sources, and establishing an urban high temporal-spatial resolution volatile organic compound (VOC) evaporation emission inventory.     

Biogenic volatile organic compound emission patterns and secondary pollutant formation potentials of dominant greening trees in Chengdu, southwest China

Integral to the urban ecosystem, greening trees provide many ecological benefits, but the active biogenic volatile organic compounds (BVOCs) they release contribute to the production of ozone and secondary organic aerosols, which harm ambient air quality. It is, therefore, necessary to understand the BVOC emission characteristics of dominant greening tree species and their relative contribution to secondary pollutants in various urban contexts. Consequently, this study utilized a dynamic enclosure system to collect BVOC samples of seven dominant greening tree species in urban Chengdu, Southwest China. Gas chromatography/mass spectrometry was used to analyze the BVOC components and standardized BVOC emission rates of each tree species were then calculated to assess their relative potential to form secondary pollutants. We found obvious differences in the composition of BVOCs emitted by each species. Ficus virens displayed a high isoprene emission rate at 31.472 μgC/(gdw (g dry weight)•hr), while Cinnamomum camphora emitted high volumes of D-Limonene at 93.574 μgC/(gdw•hr). In terms of the BVOC emission rates by leaf area, C. camphora had the highest emission rate of total BVOCs at 13,782.59 μgC/(m²•hr), followed by Cedrus deodara with 5466.86 μgC/(m²•hr). Ginkgo biloba and Osmanthus fragrans mainly emitted oxygenated VOCs with lower overall emission rates. The high BVOC emitters like F. virens, C. camphora, and Magnolia grandiflora have high potential for significantly contributing to environmental secondary pollutants, so should be cautiously considered for future planting. This study provides important implications for improving urban greening efforts for subtropical Chinese urban contexts, like Chengdu.     

广东省非道路移动机械排放清单及不确定性研究

随着工业源和机动车等重点污染源减排空间的下降,非道路移动机械排放已成为大气污染防治领域的研究热点之一.本研究通过资料收集与实地调研,初步构建了广东省非道路机械基于机型的活动水平数据集、综合排放因子及时空分配因子,采用自下而上的排放因子法,建立了广东省2014年非道路移动机械排放清单.并利用蒙特卡洛方法定量评估清单结果不确定性.结果表明,广东省2014年非道路移动机械的SO_2、NO_x、PM_(10)、PM_(2.5)、VOCs和CO排放总量分别为4.9、61.1、4.8、4.5、11.6 kt和45.1 kt.其中,农业机械排放以四轮农用运输车和小型拖拉机为主,贡献率分别为38.4%和18.0%,主要分布在非珠三角的农村地区;工程机械排放以建筑运输车和挖掘机为主,贡献率分别为40.1%和33.9%,主要分布在珠三角地区.此外,不确定性分析结果显示VOCs和PM_(2.5)排放结果不确定性较大,不确定性范围分别为-25.2%~41.7%和-23.4%~32.8%.NO_x不确定性较小,不确定性范围为-15.2%~17.5%.