Ask Caleffi
Welcome to the Ask Caleffi podcast series, now featuring our powerhouse tech team! Join Cody, Ryan, Matt, and Dan as they dive into the tricky heating and plumbing challenges they tackle every day.
These field experts share real-world insights to help contractors navigate even the toughest jobs with ease. Count on the team to keep things lively, mixing professional wisdom with the entertaining, relatable stories you’ve come to love.
Ask Caleffi
#8 No pressure... but what's THAT noise?
Use Left/Right to seek, Home/End to jump to start or end. Hold shift to jump forward or backward.
Why is my pressure reducing valve rattling, hammering.... screaming??
Greg and Dan take a new spin in this episode of the Ask Caleffi podcast series, inviting you into a "customer" technical support call in order to troubleshoot the problem. They will discuss how a PRV should be sized (based on pipe size?). Is there a more accurate methodology (hint: a design for flow rate!)? What about install tips and maintenance? (another hint: debris is NOT a friend to PRVs).
Want to hear YOUR QUESTION on Ask Caleffi, take this quick 4 question survey for your chance to hear your question in a future episode.
Survey:
https://forms.gle/fRfnU8Px3B1Lq7K69
Thanks for the sound effects!
www.freesfx.co.uk
00:00
[Music]
00:04
welcome to ask Caleffi
00:06
the podcast that dives into real life
00:08
problems that plumbing and hvac
00:10
technicians face in the field we're your
00:12
hosts from the Caleffi tech support team
00:15
i'm greg tubbs and i'm dan ferkus
00:17
welcome
00:18
we look forward to sharing some stories
00:20
from our tech calls and using our
00:21
background and expertise
00:23
to make your days a little easier
00:29
hey there welcome back to the ask Caleffi
00:31
podcast i'm greg tubbs your host and i
00:33
got
00:34
dan firkus here with me welcome back
00:36
everybody today we're going to talk
00:37
about
00:38
prv yeah what's that sound yeah what is
00:41
that sound
00:42
we get that question on occasion here
00:45
on the tech support line we get a guy
00:48
that calls in
00:49
and or even the customer the homeowner
00:51
or the building owner
00:53
with hey your prv is making noise
00:56
what could that be yeah we'll have home
00:59
quite a few homeowners that call in
01:01
and generally it's after the valve's
01:03
been installed for
01:05
you know a day or two or maybe a week
01:06
and it's making a noise and
01:08
you know they're waiting for their
01:09
contractor to get back out and look at
01:11
it so in the meantime that
01:12
homeowner may call us sure we're going
01:15
to run this one a little different
01:16
we're actually going to kind of play a
01:17
roll call so you can kind of get the
01:19
gist of
01:20
like the type of call we get on a day
01:23
about something like this
01:27
good afternoon tech support this is dan
01:30
hi dan this is jim from steve's plumbing
01:32
hey jim how are you doing today well i'd
01:34
be a lot better if your uh
01:36
pressure reducing valve wasn't rattling
01:38
pipes and making so much noise
01:40
i'm sorry to hear that so um let's just
01:43
talk a little bit about your project you
01:45
know what size
01:46
uh prv do you have in well
01:49
the piping to the house is one inch so
01:52
you know i just put a one inch valve in
01:53
okay
01:54
so you got one inch coming in one inch
01:56
going to the home so
01:57
you know you picked a one inch pressure
01:59
reducing valve
02:00
okay um is this a residential or
02:03
commercial property
02:04
well this is definitely residential uh
02:06
it's a
02:07
a three-bedroom house i think they've
02:09
got three bathrooms
02:10
you know and a handful of other things
02:12
running uh
02:14
just two people living there okay so
02:16
only two occupants
02:17
yeah okay um anything unique about the
02:20
home
02:21
as far as like you know high flow
02:23
showers
02:24
or anything like that no everything's
02:26
pretty standard on the shower side of
02:27
things
02:29
i would say they're probably two gal in
02:30
a minute showers if if if that
02:32
okay have you gone through the home and
02:35
come up with a design flow rate that you
02:37
think you need
02:38
well i really didn't i just went with
02:41
what i saw for piping there
02:42
but i suppose we could probably kind of
02:45
figure that out
02:46
yeah it'd be important to do that you
02:47
know kind of total up what
02:49
what you think your shower flow rates
02:52
are
02:53
lavs dishwasher washing machine
02:56
you know kind of kind of come up with a
02:58
total gpm when you look at sizing that's
03:00
what's really important
03:01
so what you did is pretty common you
03:04
sized it based on pipe size coming in
03:07
and through the home
03:08
sure um but not uncommon our valves are
03:10
pretty high flow
03:12
so it's not uncommon that you'll see a
03:15
pressure reducing valve that's
03:17
you know one or even two pipe diameters
03:19
smaller than
03:20
the incoming piping okay that makes
03:23
sense
03:23
you know when you look at that um one
03:26
inch
03:27
pressure reducing valve for example you
03:29
know
03:30
when we size them you know i talked
03:32
about totaling your total gpm coming
03:34
into the home
03:35
and then what you want to do is take a
03:38
look at the flow characteristic charts
03:40
for our pressure reducing valves oh sure
03:43
and then you want to
03:46
take your flow rate and find that in the
03:49
three to six feet per second window
03:51
on that flow characteristic chart gotcha
03:55
um that's going to be the velocity where
03:57
that valve is the happiest
03:59
okay that makes sense so you know what's
04:02
interesting is
04:03
you select at the one inch valve and
04:05
that one inch valve is rated from 10 to
04:07
19 gallons per minute in that three to
04:10
six
04:10
feet per second window on that flow
04:12
characteristic chart
04:13
and here's what i think you're seeing
04:15
you know 10 gallons
04:16
per minute is a pretty high flow rate
04:19
that valve will perform down to one
04:21
feet per second okay so when you look at
04:24
the flow characteristic chart and you
04:25
get down to one foot per second that
04:28
valve will
04:29
is looking deliver 3.25 gpm
04:33
okay so three and a quarter gallon per
04:34
minute so you go to a lab
04:36
sink or you might be one to one and a
04:39
half gpm you're never meeting what that
04:41
valve can handle on a minimum
04:43
that makes total sense so
04:46
i think what you'll find is that you
04:48
know going back
04:50
evaluating the home finding out what
04:53
the typical flow rates are and then
04:56
choosing a valve that
04:58
that will fit that window is what's
04:59
going to work better so you may find
05:01
that the half or even three quarter
05:02
might be a better fit there
05:04
sure so this is
05:07
the typical phone call we get about a
05:10
noisy prv
05:12
or vibrations happening from a prv
05:15
yeah if i could count the amount of
05:16
times i've had this exact conversation
05:19
in real life
05:19
it's it happens a lot yeah so oversizing
05:23
is
05:24
usually the biggest trouble um yeah well
05:26
and you know what you'll find
05:28
is that valve's going to be noisy it's
05:31
going to be
05:31
it's a lot of vibration and shuttering
05:33
and clunking or water hammering sound
05:37
because it's always working at the
05:38
minimum right so
05:40
you know in a home where you can hear
05:43
the valve
05:44
you're gonna notice it if it's located
05:46
in a mechanical room or out in the
05:47
garage or
05:49
or even outside in some applications
05:52
they're outside or in a basement
05:54
you know you may not or the the
05:56
homeowner may not hear that sound
05:58
so that valve will work okay
06:03
but it's going to wear the seat out on
06:04
that valve certainly will
06:07
so going through and really looking at
06:10
the sizing chart
06:11
i mean we have pretty good documentation
06:13
on how to size a valve properly
06:16
right so that's that's a pretty big deal
06:20
yeah so that i mean number number one
06:23
most
06:23
important thing is know your flow rate
06:26
know your flow requirement
06:27
absolutely not do not focus on pipe size
06:30
well and then the same thing can go for
06:33
undersizing
06:34
a valve i mean on occasion we get that
06:36
too we do
06:37
you know too much pressure drop it's
06:39
going to cause a lot of screaming of the
06:41
valve
06:42
yeah cavitation yep and usually we see
06:45
that in much larger systems where
06:47
they're stepping the pressure down
06:48
way too much too soon too right
06:52
yeah typically you'll want to be within
06:53
that two to one pressure ratio but
06:56
you know never exceeding three to one
06:58
right
06:59
it'll operate at three to one but it's
07:02
highly recommended to stick closer to
07:03
that two to one
07:04
what else i mean we talk about two-stage
07:07
pressure reduction
07:08
that's that's another big one you know
07:10
yeah if you uh
07:12
depending on your area you have you know
07:14
you can have some really elevated
07:16
water pressure coming into your
07:18
buildings especially a lot of like like
07:20
mountain areas
07:21
you know that when you're working at
07:22
higher elevations you tend to build a
07:24
lot of pressure
07:25
sure or if you're working on a high-rise
07:29
rise you know they've got booster pumps
07:31
in there and you're looking at
07:33
an incoming of of 150 you know 90 to 150
07:36
psi
07:37
pressure if you're trying to knock it
07:38
down to 60 psi
07:41
at 150 that's not quite gonna do it
07:44
right
07:45
yeah you're really pushing that valve
07:47
yeah it's it's pushing it
07:49
um that's where you know two-stage a
07:51
two-stage installation is gonna be
07:54
a good application you know if you have
07:56
a building that's
07:57
you know 150 psi and you want to take it
08:00
down
08:00
to 50 you know you might take one prv
08:04
your first prv
08:06
and set it to 90.
08:09
right so you're knocking it from 150 to
08:11
90
08:12
and then your second one will take it
08:13
from 90 down to the 50 psi
08:15
which is perfect then you don't have to
08:17
worry about valve streaming and
08:20
wearing things out as fast right right
08:22
quieter application
08:24
certainly and i think another thing that
08:27
you know
08:27
is going to cause maybe an undersized
08:29
condition
08:31
is a dirty prv this thing
08:34
this is what gets me the most is
08:38
we get the phone call it's either not
08:41
closing off
08:42
or the pressure is really reduced you
08:44
know what's going on with this is this
08:46
valve bad
08:47
right or it's building pressure yeah or
08:50
you have that valve where
08:52
you know you're stepping it from 90 to
08:53
50 and then
08:56
um over time it's creeping back up to
08:58
maybe 70 80 or up to that 90 pounds
09:01
because it's it's continuing to over
09:03
pressurize
09:04
right and so then we'll get these back
09:06
as returns
09:08
and we go pull them out of the box
09:12
we look right inside them and you can
09:13
see debris chunks of paint
09:16
uh copper following the one we just got
09:18
back i've never seen so much magnetite
09:20
oh geez that one was really bad yeah and
09:23
then pieces of
09:24
thread tape in it right so yeah chunks
09:27
of copper chunks of solder thread tape
09:30
you name it we found it in debris and
09:32
even the smallest chunk of copper in
09:34
that
09:35
in that seat will cause it to over
09:37
pressurize
09:38
right it doesn't take much it doesn't
09:40
and if you look at the ceiling
09:42
area of that cartridge it's real fine on
09:44
the bottom and you just take
09:46
one little piece of copper fouling in
09:47
there to to wedge it
09:49
right and then it'll it'll basically
09:51
it'll it'll mimic a system without a
09:54
thermal expansion tank right the
09:56
pressure will slowly build
09:58
and all of a sudden you're popping
10:00
relief valves you know what's nice about
10:02
ours is that we do have a
10:04
mesh screen filter on them and it's a
10:06
360 degree filter so
10:08
you know our cartridge goes in on an
10:10
angle it has a real big
10:11
you know body to it and it has
10:14
a screen mesh filter that covers
10:18
360 degrees of the opening so you know
10:21
it
10:21
you've got good flow through it in good
10:23
filtration
10:25
right but even the tiniest pieces of
10:27
debris this isn't a filter
10:29
it's not designed no no but it's
10:31
designed to protect the cartridge from
10:33
larger pieces of debris
10:34
yeah absolutely so but what's nice with
10:37
ours is that you know it
10:39
talk about maintenance so you know
10:42
you install this on a project you walk
10:44
away and then you know maybe the
10:46
municipality comes in and they change
10:48
something or they flush their hydrants
10:50
and they not
10:51
create a lot of velocity in the pipes
10:53
and not debris shot
10:54
or you're in doing service on the water
10:57
heater
10:57
and you know you're recharging the
10:59
system and you know velocity goes up and
11:01
you knock some debris loose and now your
11:03
pressure reducing valve
11:04
is over pressurizing ours you can easily
11:07
pull that cartridge out
11:08
clean it out put it back in and you know
11:10
a wrench to break it loose and then
11:12
you're spinning it out by hand right
11:14
yeah and you pull it apart and you
11:15
notice that hey yeah there is debris
11:18
so you're going to want to wash that
11:19
thing out and hopefully you have some
11:22
a way to wash it off or wipe it out with
11:24
a rag but then what we're going to
11:26
even recommend going further is all
11:28
right if you got that much stuff
11:29
built up in the body and on the
11:31
cartridge maybe what you're going to
11:33
want to do is
11:34
if you can slide a bucket underneath
11:36
this thing and open the main up
11:38
and slowly yeah and just allow
11:41
that debris to kind of carry up and out
11:43
right it's always good to flush it
11:45
before you put it back in so you don't
11:46
get more debris
11:47
and honestly if if you can make it
11:49
practice and not everybody can
11:51
you know every job is different but if
11:53
you can make it a good solid practice
11:56
before installing a new prv have a
11:58
bucket handy
11:59
purge the main you know purge a few
12:01
gallons off you might be surprised how
12:03
much debris comes
12:04
out of it right yeah that debris is
12:06
there so if you can purge it off you
12:08
know it's not going to get stuck in that
12:09
valve right
12:10
then you go through with installing your
12:12
valve you know whether it's press
12:14
npt or sweat and make the install and
12:17
then
12:18
pressurize the system and just go
12:20
through and check it all out again
12:21
right yeah we do have you know all of
12:24
our valves our union connection
12:26
so we do have you know jumper nipples
12:28
that you can put in there
12:30
um if you wanted to sweat it in place
12:32
put it in place
12:33
put a jumper nipple in flush that mane
12:36
purge it off real well or even during
12:38
construction put that jumper nipple in
12:40
until you know the system's been flushed
12:43
and clean
12:43
and then pull it out and then install
12:45
the body right yeah
12:47
so i think what we could take away from
12:48
this i think the biggest
12:50
nugget of information take time and find
12:53
out
12:54
figure out what the gpm demand is for
12:56
each application that's really going to
12:58
save you a lot of headaches
12:59
that's what's really important know know
13:02
your system requirements and then select
13:05
the valve that's going to fit that
13:07
so tune in next week for episode nine
13:09
and i think we're going to talk
13:11
yeah we're going to talk about
13:12
troubleshooting your zone relay box
13:15
that sounds good that's a big topic i'm
13:17
looking forward to that
13:19
yeah i mean you might even get a little
13:20
bit of education on how to use your
13:22
tools a little better
13:23
yeah so well we'll look forward to that
13:25
we'll talk we'll see you next week
13:26
see you next week thank you for tuning
13:29
in
13:30
if you ever need help please feel free
13:32
to contact our tech support team
13:34
anytime at techsupport.us
13:38
caleffi.com or call us during our
13:40
business hours
13:42
at 7 30 a.m to 4 30 p.m
13:45
central time at 414-238-2360