| reactions of C3H8 + HO2(i) and C3H8 + O(ii) |
the relative
contribution of reaction (i) increases with pressure,
while that of reaction (ii) decreases |
jet-stirred flow
reactor |
(46) |
| hydrocarbon reactions involved in the formation
of the HO2 radical and the H2O2 molecule |
these reactions play a dominant role at temperatures lower
than 1100 K and can reduce the ignition delay times |
shock tube |
(47) |
| some of the key reactions involving
propylperoxy radicals |
these reactions are the key steps
to control the rate of oxidation
in the NTC region under high-pressure conditions |
high-pressure
flow reactor |
(48) |
| reactions about H-abstraction
by HO2 from propane |
the reaction of CH3 + HO2 inhibits ignition
at the lower pressure of 10 bar; the reactions of C3H8 + OH accelerate ignition at 900 K but inhibit reaction at
1100 K |
laminar flow reactor, shock tube, rapid compression
machine |
(49) |
