Nitropropane

Abstract: Micronucleus tests were carried out in bone marrow of mice treated with 1-nitropropane, 2-nitropropane and cisplatin. For 1-nitropropane and 2-nitropropane the results were negative. With cisplatin a dose-dependent increase in the number of polychromatic erythrocytes with micronuclei was observed. The lowest positive dose was 0.1 mg/kg (P less than 0.001, Mann-Whitney-Wilcoxon test). The hepatocarcinogen 2-nitropropane showed clastogenic activity in human lymphocytes in vitro in the presence of S9 (Bauchinger et al., 1987). The negative results in bone marrow suggest that short-lived genotoxic metabolites may be formed in the liver but do not reach the bone marrow.

Abstract: form (seealso entries 1 and 2 in Table 1). With these successful results we examined the generalityof the reactions with other entries as summarized in Table 1.We obtained similar results when we changed nitroethaneinto nitropropane (entries 3 and 4) or nitrohexane (entries 5and 6). However, the separation of

Abstract: Adding an initiator is an effective method of promoting hydrocarbon pyrolysis and improving the heat sink of fuels. Nitropropane was proposed as an initiator with good performance, owing to its lower reaction activation energy for C–N bond cleavage. To study the effects of this initiator on hydrocarbon pyrolysis, a miniature tube reactor that can simulate a real heating procedure in an aeroengine was used to investigate the n-decane pyrolysis with and without nitropropane under experimental supercritical conditions. The results demonstrate that the nitropropane initiator promotes the pyrolysis of fuel as it flows through a tube with a large length–diameter ratio within a certain temperature range. The initial decomposition temperature of n-decane is reduced by approximately 100 K, and the increase in the conversion leads to a higher heat sink for n-decane, which can result in decreases in the fuel and reactor temperatures under the same heating condition and within the effective temperature range. A stronger promoting effect can be achieved by increasing the concentration of the nitropropane initiator. The variation laws for the n-decane pyrolysis reaction rate along the flow reactor are changed by the initiator, the presence of nitropropane greatly accelerates the pyrolysis reaction of fuel at a lower temperature, and the opposite tendency appears as the fuel temperature increases, which is caused by the consumption of the initiator. In addition, the selectivity of methane, propane, and alkenes, especially ethylene, increases because of the propyl radical generated by the C–N dissociation of nitropropane before the initiator is consumed.