- #36
qumf
- 44
- 0
For years I always hope to find a way to estimate the time spent for each work course: combustion, spouting out off the chambers, exchange gases by suction (fresh gas and burnt gas) in chambers.
According to the data from some manuals about the internal combustion engine, I know the combustion course need several millisecond to complete. They have similar condition for combustion referred to combustion theory.
Until to the recent days, I find a way to estimate the time spent on later two courses. I study the principle and motivation of the gases in chambers and branch pipes ,I study their change on the gases conditions and interactions ,at last find the reasonable one after many times of hypothesis. That basically is based on Engineering Thermodynamics.
By calculation, each course costs also at the same level of millisecond. Thus the whole work cycle can continue even if accord to the current layout. Of course a few parts' sizes and proportion need to be adjusted a little and some features should be noticed.
According to the data from some manuals about the internal combustion engine, I know the combustion course need several millisecond to complete. They have similar condition for combustion referred to combustion theory.
Until to the recent days, I find a way to estimate the time spent on later two courses. I study the principle and motivation of the gases in chambers and branch pipes ,I study their change on the gases conditions and interactions ,at last find the reasonable one after many times of hypothesis. That basically is based on Engineering Thermodynamics.
By calculation, each course costs also at the same level of millisecond. Thus the whole work cycle can continue even if accord to the current layout. Of course a few parts' sizes and proportion need to be adjusted a little and some features should be noticed.