Hi all,
We have a newly constructed, core/shell project having some hot water issues in the core restrooms.
There is a 0.35 Toto lav installed throughout. The hot water heaters are adjacent on each floor, located in the janitor closets. We did the math, and there could be a gallon of water standing and cooling in the pipe between the HWH and the faucets (i.e. over the weekend), and that would take ~3+ minutes to run out at 0.35 GPM.
The tenants are complaining about how long it takes the water in the lavs to get hot. Unconfirmed report is that it takes 14 minutes of flow to get hot water in the early morning. Blame is being thrown around to…wait for it…those "LEED faucets".
Something else may be going on here (that's our hope), but the client is thinking about adding electric POS heaters under the lavs to make the tenant complaints stop. It seems sad to us that we propose to consume more energy to reheat water that was one heated and then cooled in the pipes. Given that nearly every new project uses 0.35 lavs these days, and we have not heard of this issue coming elsewhere, that surely there must be something else happening. Admittedly, we have had several instances where our engineering team did not appreciate how some new element (like a lower flow faucet, or a condensing modular boiler) could upset a conventional design approach. We are wondering if lower flow faucets just require a different approach to hot water heating such as a POS heater or recirculator and we missed it; maybe lower flow faucets just require a different approach to hot water heating, such as a POS heater or recirculator, though this also doesn't seem right, and is counter to what the Googles tell me. The contractor, subcontractor, and Cx agent have all proven useless for this issue, and just throw the A/E under the bus. The owner just wants hot water.
Any insight here would be appreciated.
Disclaimer: I cannot pretend to be a plumbing engineer, but can relay info like a pro.
Is there any insulation on the hot water pipe? Our local code has pipes with 105-140 degree temp water to have 1" thick insulation on pipes up to 1 1/2" diameter and 1.5" thick insulation on pipes larger than 1 1/2".
Thanks,
Mike