Wiz and Fellow PWers,
I have tried this and it works fantastic. Not for all jobs but can be highly beneficial on certain types. I would say 80% of the time spent on a job is rinsing. Improving gpm by 75% can reduce job time tremedously. Have a question though.
Two d.d. machines 3000 psi 4.0 gpm each. Pressure type unloaders. City water in this area is a constant 8.0 gpm. I use 3/4" hose with full flow fittings and a pvc tee I made that is also is full flow 3/4". Both machines are tied together by a stainless tee. I am using standard 1 wire 3/8" hp hose. The whole set up time is 30 seconds.
I want to run a #8 nozzle and be pushing 7.0 gpm and 3000 psi or psi needed for the job.
Would this have any negative affect on my pumps.
Just want to maintain a 1 gallon cushion.
If anyone else has any comments I would appreciate them good, bad, but not ugly.
This is not the greatest thing since white bread but it fits my needs on a limited basis at this point. A high flow skid is a better choice!
I have tried this and it works fantastic. Not for all jobs but can be highly beneficial on certain types. I would say 80% of the time spent on a job is rinsing. Improving gpm by 75% can reduce job time tremedously. Have a question though.
Two d.d. machines 3000 psi 4.0 gpm each. Pressure type unloaders. City water in this area is a constant 8.0 gpm. I use 3/4" hose with full flow fittings and a pvc tee I made that is also is full flow 3/4". Both machines are tied together by a stainless tee. I am using standard 1 wire 3/8" hp hose. The whole set up time is 30 seconds.
I want to run a #8 nozzle and be pushing 7.0 gpm and 3000 psi or psi needed for the job.
Would this have any negative affect on my pumps.
Just want to maintain a 1 gallon cushion.
If anyone else has any comments I would appreciate them good, bad, but not ugly.
This is not the greatest thing since white bread but it fits my needs on a limited basis at this point. A high flow skid is a better choice!
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