Your search keyword '"Xianbao, Shen"' showing total 24 results

1. Chemical characterization of volatile organic compounds (VOCs) emitted from multiple cooking cuisines and purification efficiency assessments

Author

Hanyu Zhang, Xuejun Wang, Xianbao Shen, Xin Li, Bobo Wu, Guohao Li, Huahua Bai, Xinyue Cao, Xuewei Hao, Qi Zhou, and Zhiliang Yao

Subjects

Environmental Engineering, Environmental Chemistry, General Medicine, General Environmental Science

Published

2023

2. Wood induced preparation of Fe3C decorated biochar for peroxymonosulfate activation towards bisphenol a degradation with low ion leaching

Author

Jiangtao Shi, Boren Dai, Xianbao Shen, Lijie Xu, Ying Zhang, and Lu Gan

Subjects

Environmental Engineering, General Medicine, Management, Monitoring, Policy and Law, Waste Management and Disposal

Published

2023

3. Variation characteristics of fine particulate matter and its components in diesel vehicle emission plumes

Author

Jiateng Hao, Yiming Xu, Zhiliang Yao, Xinyue Cao, Bobo Wu, Kebin He, Yue Shi, Lei Kong, Xin Li, Xianbao Shen, and Jiacheng Shi

Subjects

Aerosols, Environmental Engineering, 010504 meteorology & atmospheric sciences, Nozzle, chemistry.chemical_element, Selective catalytic reduction, General Medicine, 010501 environmental sciences, Propelling nozzle, 01 natural sciences, Carbon, Plume, Aerosol, Diesel fuel, chemistry, Environmental chemistry, Environmental Chemistry, Environmental science, Particle, Computer Simulation, Particulate Matter, Vehicle Emissions, 0105 earth and related environmental sciences, General Environmental Science

Abstract

A rapid reaction occurs near the exhaust nozzle when vehicle emissions contact the air. Twenty diesel vehicles were studied using a new multipoint sampling system that is suitable for studying the exhaust plume near the exhaust nozzle. The variation characteristics of fine particle matter (PM2.5) and its components in diesel vehicle exhaust plumes were analyzed. The PM2.5 emissions gradually increased with increasing distance from the nozzle in the plume. Elemental carbon emissions remained basically unchanged, organic carbon and total carbon (TC) increased with increasing distance. The concentrations of SO42-, NO3- and NH4+ (SNA) directly emitted by the vehicles were very low but increased rapidly in the exhaust plume. The selective catalytic reduction (SCR) reduced 42.7% TC, 40% NO3- emissions, but increased 104% SO42- and 36% NH4+ emissions, respectively. In summary, the SCR reduced 29% primary PM2.5 emissions for the tested diesel vehicles. The NH4NO3 particle formation maybe more important in the plume, and there maybe other forms of formation of NH4+ (eg. NH4Cl). The generation of secondary organic carbon (SOC) plays a leading role in the generation of secondary PM2.5. The SCR enhanced the formation of SOC and SNA in the plume, but comprehensive analysis shows that the SCR more enhanced the SNA formation in the plume, which is mainly new particles formation process. The inconsistency between secondary organic aerosol (SOA) and primary organic aerosol definitions is one of the important reasons for the difference between SOA simulation and observation.

Published

2021

4. Real-world emission characteristics of semivolatile/intermediate-volatility organic compounds originating from nonroad construction machinery in the working process

Author

Xianbao, Shen, Hongqian, Che, Tiantian, Lv, Bobo, Wu, Xinyue, Cao, Xin, Li, Hanyu, Zhang, Xuewei, Hao, Qi, Zhou, and Zhiliang, Yao

Subjects

Aerosols, Volatile Organic Compounds, Air Pollutants, Environmental Engineering, Alkanes, Environmental Chemistry, Pollution, Waste Management and Disposal, Gas Chromatography-Mass Spectrometry, Vehicle Emissions

Abstract

Detailed emission characterization of semivolatile/intermediate-volatility organic compounds (S/IVOCs) originating from nonroad construction machines (NRCMs) remains lacking in China. Twenty-one NRCMs were evaluated with a portable emission measurement system in the working process. Gas phase S/IVOCs were collected by Tenax TA tubes and analyzed via thermal desorption-gas chromatography-mass spectrometry (TD-GC-MS). Particle phase S/IVOCs were collected by quartz filters and analyzed via GC-MS. The average emission factors (EFs) for fuel-based total (gas + particle phase) IVOCs and SVOCs of the assessed NRCMs were 221.45 ± 194.60 and 11.68 ± 10.67 mg/kg fuel, respectively. Compared to excavators, the average IVOC and SVOC EFs of loaders were 1.32 and 1.55 times higher, respectively. Compared to the working mode, the average IVOC EFs under the moving mode (only moving forward or backward) were 1.28 times higher. The IVOC and SVOC EFs for excavators decreased by 69.06% and 38.37%, respectively, from China II to China III. These results demonstrate the effectiveness of emission control regulations. In regard to individual NRCMs, excavators and loaders were affected differently by emission standards. The volatility distribution demonstrated that IVOCs and SVOCs were dominated by gas- and particle-phase compounds, respectively. The mode of operation also affected S/IVOC gas-particle partitioning. Combined with previous studies, the mechanical type significantly affected the volatility distribution of IVOCs. IVOCs from higher volatile fuels are more distributed in the high-volatility interval. The total secondary organic aerosol (SOA) production potential was 104.36 ± 79.67 mg/kg fuel, which originated from VOCs (19.98%), IVOCs (73.87%), and SVOCs (6.15%). IVOCs were a larger SOA precursor than VOCs and SVOCs. In addition, normal (n-) alkanes were suitably correlated with IVOCs, which may represent a backup solution to quantify IVOC EFs. This work provides experimental data support for the refinement of the emission characteristics and emission inventories of S/IVOCs originating from NRCMs.

Published

2023

5. Multi-type emission factors quantification of black carbon from agricultural machinery based on the whole tillage processes in China

Author

Bobo Wu, Zichun Wu, Zhiliang Yao, Jiahan Li, Weijun Wang, Xianbao Shen, and Xuewei Hao

Subjects

Air Pollutants, China, Soot, Health, Toxicology and Mutagenesis, Environmental Pollutants, General Medicine, Carbon Dioxide, Toxicology, Zea mays, Pollution, Triticum, Carbon

Abstract

Black carbon (BC), as one of the short-lived climate pollutants, is becoming more prominent contribution from non-road mobile source, especially for agricultural machinery (AM) in China. However, the understanding of BC emissions from AM is still not clear, and the BC emission factors (EFs) are also limited. In this study, we conducted real-world measurements on twenty AM to investigate the instantaneous BC emission characteristics and quantify BC EFs under the whole tillage processes. We find the instantaneous BC emissions and fuel consumptions are obvious differences and present good synchronization under different tillage processes. Multi-type (CO

Published

2022

6. Multi-pollutant emission characteristics of non-road construction equipment based on real-world measurement

Author

Bobo, Wu, Weijun, Wang, Zhiliang, Yao, Kaijie, Xuan, Zichun, Wu, Xianbao, Shen, Xin, Li, Hanyu, Zhang, Yifeng, Xue, Xinyue, Cao, Xuewei, Hao, and Qi, Zhou

Subjects

Air Pollutants, Environmental Engineering, Environmental Chemistry, Environmental Pollutants, Particulate Matter, Carbon Dioxide, Pollution, Waste Management and Disposal, Vehicle Emissions

Abstract

Non-road construction equipment (NRCE) has become a crucial contributor to urban air pollution. However, the current research on NRCE is still in its infancy, and the understanding of its pollutant emissions is not yet clear. In this study, multi-pollutant (CO, HC, NOx, PM

Published

2022

7. Novel silver-modified carboxymethyl chitosan antibacterial membranes using environment-friendly polymers

Author

Qirun Li, Shanxue Jiang, Wenting Jia, Fang Wang, Zeru Wang, Xinyue Cao, Xianbao Shen, and Zhiliang Yao

Subjects

Chitosan, Silver, Environmental Engineering, Polymers, Adipates, Polyesters, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Metal Nanoparticles, Water, General Medicine, General Chemistry, Pollution, Anti-Bacterial Agents, Environmental Chemistry

Abstract

The rapid reproduction of foodborne bacteria in food packaging threatens the health of consumers, the massive use and waste of packaging also causes serious environmental pollution. In this study, novel biodegradable antibacterial membranes based on silver-modified carboxymethyl chitosan (Ag-CMCS) were prepared. Polylactic acid (PLA) and polybutylene adipate-co-terephthalate (PBAT) were used as the base membrane materials. Characterization of the prepared membranes was performed by scanning electron microscopy (SEM), energy dispersive X-ray spectroscopy (EDS), atomic force microscope (AFM), X-ray photoelectron spectroscopy (XPS), water contact angle, and so on. Especially, the silver on the surface of Ag-CMCS was proved to be metallic silver. For the first cycle of zone of inhibition test, the diameter of inhibition zone could reach up to 17 mm while the mass of silver released was negligible. The prepared antibacterial membranes could kill almost 100% of bacteria under certain conditions and inhibition zone still existed after more than 7 cycles of tests, indicating the prepared antibacterial membranes were effective. This study could provide new ideas for preparing efficient and environment-friendly antibacterial food packaging membranes.

Published

2022

8. Emissions of biogenic volatile organic compounds from urban green spaces in the six core districts of Beijing based on a new satellite dataset

Author

Xin Li, Wenjing Chen, Hanyu Zhang, Tao Xue, Yuanwei Zhong, Min Qi, Xianbao Shen, and Zhiliang Yao

Subjects

Air Pollutants, Volatile Organic Compounds, Ozone, Beijing, Parks, Recreational, Health, Toxicology and Mutagenesis, General Medicine, Toxicology, Pollution

Abstract

Urban green spaces (UGSs) are often positively associated with the health of urban residents. However, UGSs may also have adverse health effects by releasing biogenic volatile organic compounds (BVOCs) and increasing the ambient concentrations of ozone (O

Published

2022

9. Highly effective and sustainable antibacterial membranes synthesized using biodegradable polymers

Author

Xinyue Cao, Xianbao Shen, Qirun Li, Zeru Wang, Fang Wang, Zhiliang Yao, and Shanxue Jiang

Subjects

Staphylococcus aureus, Environmental Engineering, Polymers, Health, Toxicology and Mutagenesis, Metal Nanoparticles, Microbial Sensitivity Tests, medicine.disease_cause, chemistry.chemical_compound, Polylactic acid, Adipate, Escherichia coli, medicine, Environmental Chemistry, Agar diffusion test, biology, Public Health, Environmental and Occupational Health, Pathogenic bacteria, General Medicine, General Chemistry, biology.organism_classification, Pollution, Biodegradable polymer, Anti-Bacterial Agents, Carboxymethyl cellulose, Membrane, chemistry, Bacteria, Nuclear chemistry, medicine.drug

Abstract

In order to reduce foodborne diseases caused by bacterial infections, antibacterial membranes have received increasing research interests in recent years. In this study, highly effective antibacterial membranes were prepared using biodegradable polymers, including polylactic acid (PLA), polybutylene adipate terephthalate (PBAT), and carboxymethyl cellulose (CMC). The cation exchange property of CMC was utilized to introduce silver to prepare antibacterial materials. The presence of silver in the membranes was confirmed by EDS mapping, and the reduction of silver ions to metallic silver was confirmed by the Ag3d XPS spectrum which displayed peaks at 374.46 eV and 368.45 eV, revealing that the oxidation state of silver changed to zero. Two common pathogenic bacteria, Staphylococcus aureus (S. aureus) and Escherichia coli (E. coli), were used to investigate the antibacterial performance of the prepared membranes. Zone of inhibition and bacteria-killing tests revealed that the antibacterial membranes were efficient in inhibiting the growth of bacteria (diameters of inhibition zone ranged from 16 mm to 19 mm for fresh membranes) and capable of killing 100% of bacteria under suitable conditions. Furthermore, after 10 cycles of continuous zone of inhibition tests, the membranes still showed noticeable antibacterial activities, which disclosed the sustainable antibacterial properties of the membranes.

Published

2022

10. Real-world exhaust emissions and fuel consumption for diesel vehicles fueled by waste cooking oil biodiesel blends

Author

Jiacheng Shi, Xianbao Shen, Xinyue Cao, Hui Wu, Xin Zhang, Zhiliang Yao, and Wei Zhang

Subjects

Truck, Atmospheric Science, Biodiesel, 020209 energy, 02 engineering and technology, Energy security, 010501 environmental sciences, Pulp and paper industry, 01 natural sciences, Diesel fuel, Biofuel, Greenhouse gas, 0202 electrical engineering, electronic engineering, information engineering, Fuel efficiency, Environmental science, NOx, 0105 earth and related environmental sciences, General Environmental Science

Abstract

The real-world exhaust emissions and fuel consumption of on-road diesel vehicles, fueled by waste cooking oil biodiesel blends, were measured using a portable emission measurement system (PEMS). Two light-duty diesel trucks (LDDTs) and two heavy-duty diesel trucks (HDDTs) filled with four mixed fuels with blend ratios of 0% (neat diesel), 5% (B5), 20% (B20), and 100% (B100) (biodiesel in traditional fossil diesel) were tested. The results show that the total fuel consumption (biodiesel + traditional fossil diesel) did not clearly decrease, but blending biodiesel into traditional fossil diesel could clearly decreased the consumption of traditional fossil diesel, reduce the countries' dependence on oil imports. Converting waste cooking oil into biofuel and blending with diesel is a three-win alternative, dealing simultaneously with greenhouse gas (GHG) emission, food security, and energy security. The CO, HC, NOX and PM2.5 emissions for all of the tested vehicles decreased with increasing biodiesel content in the blend, with the exception of PM2.5 and NOX for D3, the NOX emissions showed a decrease with increasing biodiesel content in the blend for most vehicles in this study. The effect of emission reduction for all biodiesel blending proportions under highway (HW) condition is better than that under Non-highway (NHW) condition. The degree of reduction in CO, HC, NOX, and PM2.5 emission increased with increasing biodiesel content in the blend under HW section. Under the NHW section, the emission factors for lower biodiesel blend proportions (below 12.5%) especially for B5 were higher than those for neat diesel. The biodiesel blend reduced CO, HC, NOX and PM2.5 emissions compared with neat diesel under different driving modes except for individual condition (especially for B5 under acceleration mode). Increasing the biodiesel content of the blend lowered the CO, HC, NOX, and PM2.5 emissions for acceleration and deceleration modes.

Published

2018

11. Real-world emission characteristics of black carbon emitted by on-road China IV and China V diesel trucks

Author

Qi Zhou, Xinyue Cao, Xi Chen, Xianbao Shen, Zhiliang Yao, Xiaolong Yao, Tiantian Lv, Yue Shi, Bobo Wu, Xin Zhang, and Xin Li

Subjects

Truck, Air Pollutants, China, Environmental Engineering, Diesel particulate filter, Emission standard, Environmental engineering, Particulates, Pollution, Carbon, Motor Vehicles, Diesel fuel, Beijing, Environmental Chemistry, Environmental science, Particulate Matter, Emission inventory, Waste Management and Disposal, Driving cycle, Environmental Monitoring, Vehicle Emissions

Abstract

Diesel vehicle is an important source of black carbon (BC). A portable emission measurement system including a photo-acoustic extinctiometer and SEMTECH-LDV was used to measure the real-world emissions of 14 light-duty and heavy-duty diesel trucks (LDDTs and HDDTs, meeting the China IV and China V standards) in Beijing. BC emission factors and the BC/PM2.5 ratio were obtained, and the effects of the vehicle type, emission standard and driving cycle on emissions were analyzed. The tightening of emission standards and the advancement of vehicle technology have reduced BC emissions from the China II standard to the China V standard. The emission reductions of BC are lower than those of other components of PM2.5 from the China II standard to the China IV standard but higher from the China IV standard to the China V standard. The BC and PM2.5 had the same main sources for the HDDTs and China IV LDDTs but had different sources for the China V LDDTs having diesel particulate filters. The BC/PM2.5 ratios of LDDTs, and HDDTs decreased from the China IV standard to the China V standard by 97.2% and 38.2%, respectively. The BC/PM2.5 ratio for China V LDDTs was 10 to 20 times lower than that for other diesel vehicles. The BC emissions tested under the highway driving cycle were 39.4% ± 16.7% lower than those under the no-highway driving cycle, but the BC/PM2.5 ratios had the opposite tendency. More China V and China VI heavy-duty diesel vehicles equipped with diesel particulate filters need to be tested to obtain more accurate BC/PM2.5 data and to improve the readiness of emission inventory calculations. The findings of this study help clarify the BC emission characteristics of diesel vehicles on actual roads and provide scientific basis for the formulation of emission control strategies for diesel vehicles in China.

Published

2021

12. Emission characteristics of polycyclic aromatic hydrocarbons and nitro-polycyclic aromatic hydrocarbons from diesel trucks based on on-road measurements

Author

Xinyue Cao, Zhiliang Yao, Xi Jiang, Xianbao Shen, Xuewei Hao, and Bobo Wu

Subjects

chemistry.chemical_classification, Truck, Atmospheric Science, 010504 meteorology & atmospheric sciences, Environmental engineering, Polycyclic aromatic hydrocarbon, 010501 environmental sciences, 01 natural sciences, Diesel fuel, chemistry, Emission inventory, Aromatic hydrocarbon, 0105 earth and related environmental sciences, General Environmental Science

Abstract

Polycyclic aromatic hydrocarbon (PAH) and nitro-polycyclic aromatic hydrocarbon (NPAH) emissions from 18 diesel trucks of different sizes and with different emission standards were tested in Beijing using a portable emission measurement system (PEMS). Both the gaseous- and particulate-phase PAHs and NPAHs were quantified by high-performance liquid chromatography (HPLC) in the laboratory. The emission factors (EFs) of the total PAHs from light-duty diesel trucks (LDDTs), medium-duty diesel trucks (MDDTs) and heavy-duty diesel trucks (HDDTs) were 82229.11 ± 41906.06, 52867.43 ± 18946.47 and 93837.35 ± 32193.14 μg/km, respectively, much higher than the respective values of total NPAHs from their counterpart vehicles. The gaseous phase had an important contribution to the total PAHs and NPAHs, with a share rate of approximately 69% and 97% on average, respectively. The driving cycle had important impacts on the emissions of PAHs and NPAHs, especially for LDDTs and HDDTs. Higher emissions of PAHs and NPAHs were detected on non-highway roads compared to that on highways for these two types of vehicles. Compared to the results of different studies, the difference in the EFs of PAHs and NPAHs can reach several orders of magnitudes, which would introduce errors in the development of an emission inventory of PAHs and NPAHs.

Published

2017

13. On-road emission characteristics of VOCs from light-duty gasoline vehicles in Beijing, China

Author

Xi Jiang, Zhiliang Yao, Yu Ye, Xinyue Cao, and Xianbao Shen

Subjects

Atmospheric Science, Ozone, 010504 meteorology & atmospheric sciences, Light duty, Environmental engineering, 010501 environmental sciences, 01 natural sciences, chemistry.chemical_compound, chemistry, Beijing, Gas chromatography, Gasoline, 0105 earth and related environmental sciences, General Environmental Science

Abstract

This study is the third in a series of three papers aimed at characterizing the VOC emissions of vehicles in Beijing. In this study, 30 light-duty vehicles fueled with gasoline were evaluated using a portable emission measurement system (PEMS) as they were driven on a predesigned, fixed test route. All of the tested vehicles were rented from private vehicle owners and spanned regulatory compliance guidelines ranging from Pre-China I to China IV. Alkanes, alkenes, aromatics and some additional species in the exhaust were collected in Tedlar bags and analyzed using gas chromatography/mass spectrometry (GC–MS). Carbonyls were collected on 2,4-dinitrophenyhydrazine (DNPH) cartridges and analyzed using high-performance liquid chromatography (HPLC). Overall, 74 VOC species were detected from the tested vehicles, including 22 alkanes, 6 alkenes, 1 alkyne, 16 aromatics, 3 cyclanes, 10 halohydrocarbons, 12 carbonyls and 4 other compounds. Alkanes, aromatics and carbonyls were the dominant VOCs with weight percentages of approximately 36.4%, 33.1% and 17.4%, respectively. The average VOC emission factors and standard deviations of the Pre-China I, China I, China II, China III and China IV vehicles were 469.3 ± 200.1, 80.7 ± 46.1, 56.8 ± 37.4, 25.6 ± 11.7 and 14.9 ± 8.2 mg/km, respectively, which indicated that the VOC emissions significantly decreased under stricter vehicular emission standards. Driving cycles also influenced the VOC emissions from the tested vehicles. The average VOC emission factors based on the travel distances of the tested vehicles under urban driving cycles were greater than those under highway driving cycles. In addition, we calculated the ozone formation potential (OFP) using the maximum incremental reactivity (MIR) method. The results of this study will be helpful for understanding the true emission levels of light-duty gasoline vehicles and will provide information for controlling VOC emissions from vehicles in Beijing, China.

Published

2016

14. The effects of biodiesel blends on real-world carbonyl emissions from diesel trucks

Author

Xinyue Cao, Sijie Feng, Xiaolong Yao, Xianbao Shen, Zhiliang Yao, and Xin Li

Subjects

Atmospheric Science, Biodiesel, Ozone, 010504 meteorology & atmospheric sciences, Portable emissions measurement system, Formaldehyde, Acetaldehyde, Selective catalytic reduction, 010501 environmental sciences, Pulp and paper industry, complex mixtures, 01 natural sciences, chemistry.chemical_compound, Diesel fuel, chemistry, Butyraldehyde, 0105 earth and related environmental sciences, General Environmental Science

Abstract

This work assessed the effects of biodiesel on carbonyl emissions from diesel trucks. Biodiesel converted from waste cooking oil was employed and mixed with commercial fossil diesel to produce four blends: B0 (pure conventional diesel fuel), B5 (5% v/v biodiesel), B20 (20% v/v biodiesel) and B100 (pure biodiesel). Four diesel trucks were tested under real-world conditions using a portable emissions measurement system, including one China III light-duty diesel truck (LDDT), one China IV LDDT, one China III heavy-duty diesel truck (HDDT) and one China IV HDDT. A driving cycle including highway (HW) and non-highway (NHW) driving conditions was employed and carbonyls were sampled using 2,4-dinitrophenylhydrazine cartridges and analyzed via high performance liquid chromatography. Seven carbonyl compounds were detected, and formaldehyde, acetaldehyde, acetone and butyraldehyde were the primary carbonyls. Total carbonyl emissions from the China III LDDT, China III HDDT and China IV HDDT vehicles with selective catalytic reduction decreased monotonically with increases in the biodiesel proportion, while the China IV LDDT with a particle oxidation catalyst system showed an increasing trend. With increases in the biodiesel proportions, complementary variations were observed in the proportions of formaldehyde and butyraldehyde obtained using the China III LDDT, China IV LDDT and China III HDDT vehicles. However, in the case of the China IV HDDT trials, the formaldehyde and acetaldehyde emissions exhibited complementary variations. Under different driving conditions, the effects of adding biodiesel on carbonyl emission factors were different. In China III LDDT trials, biodiesel reduced carbonyl emissions to a greater extent under HW conditions, but the opposite occurred in China III HDDT tests. Using the China IV LDDT vehicle, the emission factors did not increase as much during HW trials compared with NHW trials when the B5 and B20 fuels were used, but were significantly higher than the NHW values when pure biodiesel was employed. In China III LDDT data, the proportions of formaldehyde, acetaldehyde and butyraldehyde showed opposite variations under the two driving conditions. Using the China IV LDDT vehicle, a significant increase in formaldehyde and decrease in butyraldehyde were found during HW trials, but not NHW trials. Ozone formation potentials were obtained from carbonyls emission factors using the maximum incremental reactivity method and their variations were similar to those of the carbonyl emission factors.

Published

2020

15. Adsorption behavior of multicomponent volatile organic compounds on a citric acid residue waste-based activated carbon: Experiment and molecular simulation

Author

Tong Li, Feng Qian, Tingting Zhang, Liu Yao, Wei Wang, Hailong Li, Xianbao Shen, Zhiliang Yao, and Xiaolong Yao

Subjects

021110 strategic, defence & security studies, Environmental Engineering, Health, Toxicology and Mutagenesis, Inorganic chemistry, 0211 other engineering and technologies, Ethyl acetate, Acetaldehyde, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Pollution, chemistry.chemical_compound, Residue (chemistry), Adsorption, chemistry, Desorption, Acetone, medicine, Environmental Chemistry, Citric acid, Waste Management and Disposal, 0105 earth and related environmental sciences, Activated carbon, medicine.drug

Abstract

A considerable amount of volatile organic compounds (VOCs) is emitted, and a vast amount of citric acid residue (CAR) waste is simultaneously produced during citric acid production. Thus, a suitable method realizing the clean production of citric acid must be developed. This study investigated the adsorption of the multicomponent VOCs in a homemade CAR waste-based activated carbon (CAR-AC). A fixed-bed experimental setup was used to explore the adsorption and desorption of single- and multi-component VOCs. Surface adsorption and diffusion molecular models with different defects were built to study the underlying adsorption and diffusion mechanisms of multicomponent VOCs on CAR-AC. The adsorption amount of ethyl acetate in CAR-AC from multicomponent VOCs was 3.04 and 5.91 times higher than those of acetone and acetaldehyde, respectively, and the interaction energy between ethyl acetate and C surfaces was low at −13.41 kcal/mol. During desorption, the most weakly adsorbed acetaldehyde desorbed from the surface of CAR-AC first, followed by acetone and ethyl acetate. The regeneration efficiencies of acetaldehyde, acetone, and ethyl acetate reached 88.77, 85.55, and 91.46 %, respectively, after four adsorption/desorption cycles. We aimed to provide a new strategy to realize the recycle use of CAR and the clean production of citric acid.

Published

2020

16. Chemical characterization of PM 2.5 emitted from on-road heavy-duty diesel trucks in China

Author

Yingzhi Zhang, Xianbao Shen, Kebin He, Huan Liu, and Zhiliang Yao

Subjects

Truck, Atmospheric Science, Diesel fuel, chemistry, Fine particulate, Environmental engineering, Fuel efficiency, Sulfur content, chemistry.chemical_element, Heavy duty diesel, Carbon, NOx, General Environmental Science

Abstract

Heavy-duty diesel trucks (HDDTs) are gaining more attention because of their contribution to NOX and PM2.5 emissions. To evaluate their contribution to ambient fine particulate matter (PM2.5), not only their emission factors, but also their source profile is required. We conducted on-road emissions tests to characterize the PM2.5 emission, documenting per second mass emission rates from in-use HDDTs in China, using portable emissions measurement systems. The average PM2.5 emission factors for pre-EURO and EURO 1 HDDTs were 1.104 g/km and 0.822 g/km, equivalent to 6.106 g/kg and 3.132 g/kg based on fuel consumption. Element carbon (EC) and organic carbon (OC) were the major components: EC accounted for 45–65% of PM2.5 for pre-EURO HDDTs and 36–69% for EURO 1 HDDTs, while the OC fraction for pre-EURO and EURO 1 HDDTs ranged from 20 to 31% and 19–31%, respectively. Thus, the average EC emission factors for pre-EURO and EURO 1 HDDTs were 0.667 g/km and 0.502 g/km, showing that implementation of tighter emission standards resulted in a 25% EC output reduction from pre-EURO to EURO 1 vehicles. Sulfate, comprising about 1% of PM2.5 mass, is still an abundant species in PM2.5 from HDDTs because of the high sulfur content in diesel fuel in China. Using these data, we updated national PM2.5 emission profiles for pre-EURO and EURO 1 HDDTs.

Published

2015

17. Carbonaceous composition of PM2.5 emitted from on-road China III diesel trucks in Beijing, China

Author

Wei Zhang, Xinyue Cao, Hui Wu, Bobo Wu, Xianbao Shen, and Zhiliang Yao

Subjects

Truck, Atmospheric Science, Diesel fuel, Beijing, Portable emissions measurement system, Fine particulate, Environmental engineering, Environmental science, Composition (visual arts), Particulates, Air quality index, General Environmental Science

Abstract

Fine particulate matter (PM2.5) has attracted increasing attention due to its impacts on air quality and human health. As an important source of PM2.5, diesel vehicles are often the focus of research. In this study, we characterized the carbonaceous composition of PM2.5 that is emitted from on-road China III diesel trucks (DTs). Organic carbon (OC), elemental carbon (EC), and PM2.5 emission characteristics were determined for 17 China III DTs, including 6 light-duty diesel trucks (LDDTs), 5 medium-duty diesel trucks (MDDTs), and 6 heavy-duty diesel trucks (HDDTs), based on real-world measurements in Beijing, China, using a portable emissions measurement system (PEMS). The average distance-based PM2.5 emission factors (EFs) (g km−1) generally increased and the average CO2-based PM2.5 EFs (g (kg of CO2)−1) generally decreased with increased vehicle size from LDDTs to MDDTs to HDDTs. The effects of driving conditions on the EFs for carbonaceous PM2.5 were analyzed. The results show that distance-based and CO2-based EFs strongly depend on driving conditions. Generally, greater amounts of PM2.5 and OC are emitted from non-highway driving cycles, and greater amounts of EC are emitted from highway driving cycles for vehicles of the same size. For LDDTs, MDDTs, and HDDTs, no significant differences were observed between vehicles with different EC/OC ratios; therefore, the EC/OC ratio is not useful for distinguishing between the emissions generated by differently sized vehicles. The EC/OC, OC/PM2.5, and EC/PM2.5 mass ratios are strongly dependent on driving conditions for vehicles of the same size. The results of this study provide EFs for the carbonaceous composition of PM2.5 that are more appropriate for China; these results will be helpful for improving policies that are designed to control the carbonaceous composition of PM2.5 emitted from on-road DTs in China.

Published

2015

18. Development of database of real-world diesel vehicle emission factors for China

Author

Kebin He, David Vance Wagner, Xianbao Shen, Qiang Zhang, Hong Huo, Yingzhi Zhang, Bo Zheng, and Zhiliang Yao

Subjects

Truck, Pollutant, Air Pollutants, China, Engineering, Environmental Engineering, Modeling software, Databases, Factual, Database, business.industry, General Medicine, Particulates, computer.software_genre, Road transport, Motor Vehicles, Diesel fuel, Environmental Chemistry, Emission inventory, business, computer, Vehicle Emissions, General Environmental Science

Abstract

A database of real-world diesel vehicle emission factors, based on type and technology, has been developed following tests on more than 300 diesel vehicles in China using a portable emission measurement system. The database provides better understanding of diesel vehicle emissions under actual driving conditions. We found that although new regulations have reduced real-world emission levels of diesel trucks and buses significantly for most pollutants in China, NOx emissions have been inadequately controlled by the current standards, especially for diesel buses, because of bad driving conditions in the real world. We also compared the emission factors in the database with those calculated by emission factor models and used in inventory studies. The emission factors derived from COPERT (Computer Programmer to calculate Emissions from Road Transport) and MOBILE may both underestimate real emission factors, whereas the updated COPERT and PART5 (Highway Vehicle Particulate Emission Modeling Software) models may overestimate emission factors in China. Real-world measurement results and emission factors used in recent emission inventory studies are inconsistent, which has led to inaccurate estimates of emissions from diesel trucks and buses over recent years. This suggests that emission factors derived from European or US-based models will not truly represent real-world emissions in China. Therefore, it is useful and necessary to conduct systematic real-world measurements of vehicle emissions in China in order to obtain the optimum inputs for emission inventory models.

Published

2015

19. On-road emission characteristics of VOCs from rural vehicles and their ozone formation potential in Beijing, China

Author

Xi Jiang, Xianbao Shen, Zhiliang Yao, Yu Ye, Bobo Wu, Xinyue Cao, and Kebin He

Subjects

chemistry.chemical_classification, Atmospheric Science, Ozone, Portable emissions measurement system, Environmental engineering, Ethylbenzene, chemistry.chemical_compound, Diesel fuel, chemistry, Beijing, Environmental chemistry, Volatile organic compound, Benzene, General Environmental Science

Abstract

This paper is the second in a series of papers aimed at understanding volatile organic compound (VOC) emissions from motor vehicles in Beijing using on-board emission measurements, focusing specifically on rural vehicles (RVs). In this work, 13 RVs, including 6 different 3-wheel (3-W) RVs and 7 different 4-wheel (4-W) RVs, were examined using a portable emissions measurement system (PEMS) as the vehicles were driven on predesigned fixed test routes in rural areas of Beijing. Overall, 50 VOC species were quantified in this study, including 18 alkanes, 5 alkenes, 11 aromatics, 13 carbonyls and 3 other compounds. The average emission factor (EF) of the total VOCs for the 4-W RVs based on the distance traveled was 326.2 ± 129.3 mg/km, which is 2.5 times greater than that of the 3-W RVs. However, the VOC emissions for the 3-W RVs had higher EFs based on their CO2 emissions due to the different fuel economies of the two types of RVs. Formaldehyde, toluene, acetaldehyde, m-xylene, p-xylene, isopentane, benzene, ethylbenzene, n-pentane, 2-methoxy-2-methylpropane and butenal were the dominant VOC species from the RVs, accounting for an average of 68.6% of the total VOC emissions. Overall, the RVs had high proportions of aromatics and carbonyls. The ozone formation potentials (OFPs) were 670.6 ± 227.2 and 1454.1 ± 643.0 mg O3/km for the 3-W and 4-W RVs, respectively, and approximately 60%–70% of the OFP resulted from carbonyls. We estimated that the 3-W and 4-W RVs accounted for approximately 50% and 10%, respectively, of the total OFP caused by diesel vehicles (including diesel trucks and RVs) in Beijing in 2012. Thus, more attention should be given to VOC emissions and their impact on ozone formation.

Published

2015

20. On-road emission characteristics of VOCs from diesel trucks in Beijing, China

Author

Xinyue Cao, Xi Jiang, Xianbao Shen, Yingzhi Zhang, Kebin He, Yu Ye, and Zhiliang Yao

Subjects

Truck, chemistry.chemical_classification, Atmospheric Science, Engineering, Ozone, Portable emissions measurement system, business.industry, Environmental engineering, chemistry.chemical_compound, Diesel fuel, chemistry, Beijing, Volatile organic compound, business, General Environmental Science

Abstract

This paper is the first in our series of papers aimed at understanding the volatile organic compound (VOC) emissions of vehicles in Beijing by conducting on-board emission measurements. This paper focuses on diesel vehicles. In this work, 18 China III diesel vehicles, including seven light-duty diesel trucks (LDDTs), four medium-duty diesel trucks (MDDTs) and seven heavy-duty diesel trucks (HDDTs), were examined when the vehicles were driven on predesigned fixed test routes in Beijing in China using a portable emissions measurement system (PEMS). Tedlar bag sampling and 2,4-dinitrophenyhydrazine (DNPH) cartridge sampling were used to collect VOC species, and gas chromatography-mass spectrometry (GC/MS) and high-performance liquid chromatography (HPLC) were used to analyze these samples. We obtained the VOC emission factors and relative compositions for diesel trucks of different sizes under different driving patterns. In total, 64 VOC species were quantified in this study, including 25 alkanes, four alkenes, 13 aromatics, 13 carbonyls and nine other compounds. The emission factors of the total VOCs based on mileage traveled for HDDTs were higher than those of LDDTs and MDDTs. Carbonyls, aromatics and alkanes were the dominant VOC species. Carbonyls accounted for 42.7%–69.2% of the total VOCs in the three types of tested diesel trucks. The total VOC emission factors of the tested vehicles that were driven on non-highway routes were 1.5–2.0 times higher than those of the vehicles driven on the highway. As for the OFP calculation results, with increased vehicle size, the ozone formation potential presented an increasing trend. Among the VOC components, carbonyls were the primary contributor to OFP. In addition, the OFPs under non-highway driving cycles were 1.3–1.7 times those under highway driving cycles. The results of this study will be helpful in improving our understanding of VOCs emitted from on-road diesel trucks in China.

Published

2015

21. On-road emission characteristics of CNG-fueled bi-fuel taxis

Author

Xinyue Cao, Xianbao Shen, Xintong Wang, Yingzhi Zhang, Kebin He, and Zhiliang Yao

Subjects

Atmospheric Science, Engineering, business.industry, Natural gas vehicle, Air pollution, Taxis, Environmental engineering, medicine.disease_cause, Automotive engineering, medicine, Gasoline, business, Driving cycle, NOx, General Environmental Science

Abstract

To alleviate air pollution and lessen the petroleum demand from the motor vehicle sector in China, natural gas vehicles (NGVs) have been rapidly developed over the last several years. However, the understanding of the real-world emissions of NGVs is very limited. In this study, the emissions from 20 compressed-natural-gas-fueled bi-fuel taxis were measured using a portable emission measurement system (PEMS) under actual driving conditions in Yichang, China. The emission characteristics of the tested vehicles were analyzed, revealing that the average CO2, CO, HC and NOx emissions from the tested compressed-natural-gas (CNG) taxis under urban driving conditions were 1.6, 4.0, 2.0 and 0.98 times those under highway road conditions, respectively. The CO, HC and NOx emissions from Euro 3 CNG vehicles were approximately 40%, 55% and 44% lower than those from Euro 2 vehicles, respectively. Compared with the values for light-duty gasoline vehicles reported in the literature, the CO2 and CO emissions from the tested CNG taxis were clearly lower; however, significant increases in the HC and NOx emissions were observed. Finally, we normalized the emissions under the actual driving cycles of the entire test route to the New European Driving Cycle (NEDC)-based emissions using a VSP modes method developed by North Carolina State University. The simulated NEDC-based CO emissions from the tested CNG taxis were better than the corresponding emissions standards, whereas the simulated NEDC-based HC and NOx emissions greatly exceeded the standards. Thus, more attention should be paid to the emissions from CNG vehicles. As for the CNG-fueled bi-fuel taxis currently in use, the department of environmental protection should strengthen their inspection and supervision to reduce the emissions from these vehicles. The results of this study will be helpful in understanding and controlling emissions from CNG-fueled bi-fuel vehicles in China.

Published

2014

22. PM2.5 emissions from light-duty gasoline vehicles in Beijing, China

Author

Huan Liu, Xianbao Shen, Zhiliang Yao, Hong Huo, Yingzhi Zhang, Yu Ye, and Kebin He

Subjects

Truck, Environmental Engineering, Particle number, Environmental engineering, Particulates, Pollution, European emission standards, Diesel fuel, Beijing, Environmental Chemistry, Environmental science, Gasoline, Emission inventory, Waste Management and Disposal

Abstract

As stricter standards for diesel vehicles are implemented in China, and the use of diesel trucks is forbidden in urban areas, determining the contribution of light-duty gasoline vehicles (LDGVs) to on-road PM2.5 emissions in cities is important. Additionally, in terms of particle number and size, particulates emitted from LDGVs have a greater health impact than particulates emitted from diesel vehicles. In this work, we measured PM2.5 emissions from 20 LDGVs in Beijing, using an improved combined on-board emission measurement system. We compared these measurements with those reported in previous studies, and estimated the contribution of LDGVs to on-road PM2.5 emissions in Beijing. The results show that the PM2.5 emission factors for LDGVs, complying with European Emission Standards Euro-0 through Euro-4 were: 117.4 ± 142, 24.1 ± 20.4, 4.85 ± 7.86, 0.99 ± 1.32, 0.17 ± 0.15 mg/km, respectively. Our results show a significant decline in emissions with improving vehicle technology. However, this trend is not reflected in recent emission inventory studies. The daytime contributions of LDGVs to PM2.5 emissions on highways, arterials, residential roads, and within urban areas of Beijing were 44%, 62%, 57%, and 57%, respectively. The contribution of LDGVs to PM2.5 emissions varied both for different road types and for different times.

Published

2014

23. On-board measurements of emissions from diesel trucks in five cities in China

Author

Zhiliang Yao, Qiang Zhang, Hong Huo, Yingzhi Zhang, Xianbao Shen, and Kebin He

Subjects

Truck, Atmospheric Science, Engineering, Diesel exhaust, Waste management, business.industry, Environmental engineering, Ambient air, On board, Diesel fuel, Emission inventory, China, business, NOx, General Environmental Science

Abstract

This paper, which focuses on diesel trucks, is the third in a series of three papers published in Atmospheric Environment to understand vehicle emissions in China by conducting on-board emission measurements. Diesel trucks are a significant source of emissions in ambient air, especially for NOx. Recently, China announces an aggressive target to reduce national NOx emissions by 10% from 2010 to 2015 in the “Twelfth Five-Year Plan (2011–2015)” and diesel vehicles are identified as a key target for NOx control. However, the understanding of the real-world emissions of diesel trucks is limited. In this study, we measured HC, CO, NOx, and PM 2.5 emissions from 175 diesel trucks of different sizes and technologies in five Chinese cities during 2007 and 2011, and generated emission factors on the basis of the measurements. The results show that the HC, CO, and PM 2.5 emission factors have been reduced significantly as the emission standards become more stringent from Euro 0 to Euro IV, but the NOx emission factors change differently. Euro II trucks have 3–6% higher NOx emission levels than Euro I technologies and Euro III trucks fail to show a reduction as regulated by the standards. More stringent NOx requirements (e.g. Euro IV) for diesel vehicles need to be enforced. The comparison with the emission factors used in recent emission inventory studies shows that these inventories may have overestimated or underestimated diesel emissions for the years after 2006. This study emphasizes the importance of conducting local measurement research to improve the accuracy of the estimates of mobile emissions in China.

Published

2012

24. On-board measurements of emissions from light-duty gasoline vehicles in three mega-cities of China

Author

Yan Ding, Xianbao Shen, Hong Huo, Qiang Zhang, Yingzhi Zhang, Kebin He, and Zhiliang Yao

Subjects

Atmospheric Science, Engineering, business.industry, Light duty, Taxis, Environmental engineering, Key issues, On board, Megacity, Beijing, Gasoline, China, business, General Environmental Science

Abstract

This paper is the second in a series of three papers aimed at understanding the emissions of vehicles in China by conducting on-board emission measurements. This paper focuses on light-duty gasoline vehicles. In this study, we measured 57 light-duty gasoline vehicles (LDGVs) in three Chinese mega-cites (Beijing, Guangzhou, and Shenzhen), covering Euro 0 through Euro IV technologies, and generated CO, HC, and NOx emission factors and deterioration rates for each vehicle technology. The results show that the vehicle emission standards have played a significant role in reducing vehicle emission levels in China. The vehicle emission factors are reduced by 47–81%, 53–64%, 46–71%, and 78–82% for each phase from Euro I to Euro IV. Euro 0 vehicles have a considerably high emission level, which is hundreds of times larger than that of Euro IV vehicles. Three old taxis and four other Euro I and Euro II LDGVs are also identified as super emitters with equivalent emission levels to Euro 0 vehicles. Of the measured fleet, 23% super emitters were estimated to contribute 50–80% to total emissions. Besides vehicle emission standards, measures for restricting super emitters are equally important to reduce vehicle emissions. This study is intended to improve the understanding of the vehicle emission levels in China, but some key issues such as emission deterioration rates are yet to be addressed with the presence of a sufficient amount of vehicle emission measurements.

Published

2012