In recent decades, coastal ports have experienced rapid development and become an important economic and ecological hub in China. Atmospheric particle is a research hotspot in atmospheric environmental sciences in inl...In recent decades, coastal ports have experienced rapid development and become an important economic and ecological hub in China. Atmospheric particle is a research hotspot in atmospheric environmental sciences in inland regions. However, few studies on the atmospheric particle were conducted in coastal port areas in China, which indeed suffers atmospheric particle pollution. Lack of the physicochemical characteristics of fine particles serves as an obstacle toward the accurate control for air pollution in the coastal port area in China. Here, a field observation was conducted in an important coastal port city in Yangtze River Delta from March 6 to March 19, 2019. The average PM2.5 concentration was 63.7 ±27.8 μg/m^3 and NO3^-, SO4^2-, NH4^+, and organic matter accounted for ?60% of PM 2.5. Fe was the most abundant trace metal element and V as the ship emission indicator was detected. Transmission electron microscopy images showed that SK-rich, soot, Fe, SK-soot and SK-Fe were the major individual particles in the coastal port. V and soluble Fe were detected in sulfate coating of SK-Fe particles. We found that anthropogenic emissions, marine sea salt, and secondary atmosphere process were the major sources of fine particles. Backward trajectory analysis indicated that the dominant air masses were marine air mass, inland air mass from northern Zhejiang and inland-marine mixed air mass from Shandong and Shanghai during the sampling period. The findings can help us better understand the physicochemical properties of atmospheric fine particles in the coastal port of Eastern China.展开更多
Nitrogen and carbon are common elements in nature. The development of nitrogen chemistry, however, is obviously left behind by that of carbon chemistry. Prof. Christ [1] attributed this reason to the stability differe...Nitrogen and carbon are common elements in nature. The development of nitrogen chemistry, however, is obviously left behind by that of carbon chemistry. Prof. Christ [1] attributed this reason to the stability difference between nitrogen-nitrogen bond and carbon-carbon bond. From N≡N,N=N to N–N bond, the bond dissociation energy increases significantly and the stability becomes worse rapidly, which is in contrast with stable C–C bond and unstable C≡C bond in carbon chemistry. Thus, lots of stable "polycarbon"展开更多
基金supported by the National Natural Science Foundation of China (Nos. 41805099,91844301)the China Postdoctoral Science Foundation (No. 2018M632449)the Zhejiang Provincial Natural Science Foundation of China (No. LZ19D050001)。
文摘In recent decades, coastal ports have experienced rapid development and become an important economic and ecological hub in China. Atmospheric particle is a research hotspot in atmospheric environmental sciences in inland regions. However, few studies on the atmospheric particle were conducted in coastal port areas in China, which indeed suffers atmospheric particle pollution. Lack of the physicochemical characteristics of fine particles serves as an obstacle toward the accurate control for air pollution in the coastal port area in China. Here, a field observation was conducted in an important coastal port city in Yangtze River Delta from March 6 to March 19, 2019. The average PM2.5 concentration was 63.7 ±27.8 μg/m^3 and NO3^-, SO4^2-, NH4^+, and organic matter accounted for ?60% of PM 2.5. Fe was the most abundant trace metal element and V as the ship emission indicator was detected. Transmission electron microscopy images showed that SK-rich, soot, Fe, SK-soot and SK-Fe were the major individual particles in the coastal port. V and soluble Fe were detected in sulfate coating of SK-Fe particles. We found that anthropogenic emissions, marine sea salt, and secondary atmosphere process were the major sources of fine particles. Backward trajectory analysis indicated that the dominant air masses were marine air mass, inland air mass from northern Zhejiang and inland-marine mixed air mass from Shandong and Shanghai during the sampling period. The findings can help us better understand the physicochemical properties of atmospheric fine particles in the coastal port of Eastern China.
基金supported by the National Natural Science Foundation of China (21771108, 11702141, U1530101)
文摘Nitrogen and carbon are common elements in nature. The development of nitrogen chemistry, however, is obviously left behind by that of carbon chemistry. Prof. Christ [1] attributed this reason to the stability difference between nitrogen-nitrogen bond and carbon-carbon bond. From N≡N,N=N to N–N bond, the bond dissociation energy increases significantly and the stability becomes worse rapidly, which is in contrast with stable C–C bond and unstable C≡C bond in carbon chemistry. Thus, lots of stable "polycarbon"
基金financially supported by the joint fund of the National Natural Science Foundation of China and China Academy of Engineering Physics (NSAF, U1530101)