I’m sure efficiency isn’t high on most player’s list, but I had the test equipment and access to a few markers so collected some data.
All testing was done indoors; same temperature, same barrel (insert and tip), roughly the same velocity, and same 50 reballs.
Used 50 shots and averaged the pressure drop for each shot. Extrapolated that for a few tank sizes. I used 4300 psi since my average marker’s running pressure is 200 psi. In reality you start to lose velocity as soon as your tank pressure reaches the output pressure, since you set velocity based on the tank’s standard output pressure and most HPRs aren’t pressure compensating (that I know of).
I have high confidence in the data acquisition (transducers with less than 0.5% error) but keep in mind some of the markers are 20+ years old. And none have been tuned for min dwell/max efficiency. I plan to dig into the Lazarus valve’s markers some more - I think there’s some gains to be made. I’ll also test more markers as they become available to me.
All testing was done indoors; same temperature, same barrel (insert and tip), roughly the same velocity, and same 50 reballs.
Used 50 shots and averaged the pressure drop for each shot. Extrapolated that for a few tank sizes. I used 4300 psi since my average marker’s running pressure is 200 psi. In reality you start to lose velocity as soon as your tank pressure reaches the output pressure, since you set velocity based on the tank’s standard output pressure and most HPRs aren’t pressure compensating (that I know of).
I have high confidence in the data acquisition (transducers with less than 0.5% error) but keep in mind some of the markers are 20+ years old. And none have been tuned for min dwell/max efficiency. I plan to dig into the Lazarus valve’s markers some more - I think there’s some gains to be made. I’ll also test more markers as they become available to me.
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