nitrogen-dioxide and nitramine

nitrogen-dioxide has been researched along with nitramine* in 2 studies

Other Studies

2 other study(ies) available for nitrogen-dioxide and nitramine

Article	Year
Effects of flue gas compositions on nitrosamine and nitramine formation in postcombustion CO2 capture systems. Environmental science & technology, 2014, Jul-01, Volume: 48, Issue:13 Amine-based technologies are emerging as the prime contender for postcombustion CO2 capture. However, concerns have arisen over the health impacts of amine-based CO2 capture associated with the release of nitrosamines and nitramines, which are byproducts from the reactions between flue gas NOx and solvent amines. In this study, flue gas compositions were systematically varied to evaluate their effects on the formation of nitrosamines and nitramines in a lab-scale CO2 capture reactor with morpholine as a model solvent amine. The accumulation of N-nitrosomorpholine in both the absorber and washwater increased linearly with both NO and NO2 for concentrations up to ∼20 ppmv. These correlations could be extrapolated to estimate N-nitrosomorpholine accumulation at extremely low NOx levels (0.3 ppmv NO2 and 1.5 ppmv NO). NO played a particularly important role in driving N-nitrosomorpholine formation in the washwater, likely following partial oxidation to NO2 by O2. The accumulation of N-nitromorpholine in both the absorber and washwater positively correlated with flue gas NO2 concentration, but not with NO concentration. Both N-nitrosomorpholine and N-nitromorpholine accumulated fastest in the absence of CO2. Flue gas humidity did not affect nitrosamine accumulation in either the absorber or the washwater unit. These results provide a basis for estimating the effects of flue gas composition on nitrosamine and nitramine accumulation in postcombustion CO2 capture systems. Topics: Aniline Compounds; Carbon Dioxide; Gases; Morpholines; Nitric Oxide; Nitrites; Nitrobenzenes; Nitrogen Dioxide; Nitrosamines; Oxygen; Solvents; Time Factors; Water	2014
Shock waves in high-energy materials: the initial chemical events in nitramine RDX. Physical review letters, 2003, Aug-29, Volume: 91, Issue:9 We extend the reactive force field ReaxFF to describe the high energy nitramine RDX and use it with molecular dynamics (MD) to study its shock-induced chemistry. We studied shock propagation via nonequilibrium MD simulations at various collision velocities. We find that for high impact velocities (>6 km/s) the RDX molecules decompose and react to form a variety of small molecules in very short time scales (<3 ps). These products are consistent with those found experimentally at longer times. For lower velocities only NO2 is formed, also in agreement with experiments. Topics: Aniline Compounds; Computer Simulation; Models, Chemical; Nitrobenzenes; Nitrogen Dioxide; Thermodynamics	2003

Article

Year

Effects of flue gas compositions on nitrosamine and nitramine formation in postcombustion CO2 capture systems.

Environmental science & technology, 2014, Jul-01, Volume: 48, Issue:13

Amine-based technologies are emerging as the prime contender for postcombustion CO2 capture. However, concerns have arisen over the health impacts of amine-based CO2 capture associated with the release of nitrosamines and nitramines, which are byproducts from the reactions between flue gas NOx and solvent amines. In this study, flue gas compositions were systematically varied to evaluate their effects on the formation of nitrosamines and nitramines in a lab-scale CO2 capture reactor with morpholine as a model solvent amine. The accumulation of N-nitrosomorpholine in both the absorber and washwater increased linearly with both NO and NO2 for concentrations up to ∼20 ppmv. These correlations could be extrapolated to estimate N-nitrosomorpholine accumulation at extremely low NOx levels (0.3 ppmv NO2 and 1.5 ppmv NO). NO played a particularly important role in driving N-nitrosomorpholine formation in the washwater, likely following partial oxidation to NO2 by O2. The accumulation of N-nitromorpholine in both the absorber and washwater positively correlated with flue gas NO2 concentration, but not with NO concentration. Both N-nitrosomorpholine and N-nitromorpholine accumulated fastest in the absence of CO2. Flue gas humidity did not affect nitrosamine accumulation in either the absorber or the washwater unit. These results provide a basis for estimating the effects of flue gas composition on nitrosamine and nitramine accumulation in postcombustion CO2 capture systems.

Topics: Aniline Compounds; Carbon Dioxide; Gases; Morpholines; Nitric Oxide; Nitrites; Nitrobenzenes; Nitrogen Dioxide; Nitrosamines; Oxygen; Solvents; Time Factors; Water

2014

Shock waves in high-energy materials: the initial chemical events in nitramine RDX.

Physical review letters, 2003, Aug-29, Volume: 91, Issue:9

We extend the reactive force field ReaxFF to describe the high energy nitramine RDX and use it with molecular dynamics (MD) to study its shock-induced chemistry. We studied shock propagation via nonequilibrium MD simulations at various collision velocities. We find that for high impact velocities (>6 km/s) the RDX molecules decompose and react to form a variety of small molecules in very short time scales (<3 ps). These products are consistent with those found experimentally at longer times. For lower velocities only NO2 is formed, also in agreement with experiments.

Topics: Aniline Compounds; Computer Simulation; Models, Chemical; Nitrobenzenes; Nitrogen Dioxide; Thermodynamics

2003