2. The return portion of the recirculation piping need not be considered, as that heat loss occurs after the last fixture, and will not impact the supply water temperature.

Determine Recirculation Rate.  The recirculation rate is based on the heat loss that would occur between the heater and farthest fixture at no draw.  To determine this value we consult a piping heat loss chart (Table 1).  Remember, the values listed here are per 100 ft. so we apply our actual values, we will divide by 100.

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Size the Recirculation Return Line.  A sizing calculator (i.e. System Syzer) can be used to size the return line.  For 1.87 gpm we would choose a ¾” copper pipe. The friction loss for this diameter supply pipe will be about 1.4 ft per 100 ft., according to the System Syzer.

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With this information we can complete our calculation to determine the necessary recirculation flow rate required to overcome the heat loss in this particular system.  Since 1 gpm will convey 5000 BTUH at a 10°F ∆T, the recirculation flow rate is:

Determine Pump Head & Select Pump.  Given that our recirculation line is 300 feet in lenth, and our flow rate is 1.9 gpm (rounded up), we must calculate the total friction loss:

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The return portion of the recirculation piping need not be considered, as that heat loss occurs after the last fixture, and will not impact the supply water temperature.

Next, based on using insulated copper tube, with 25 ft. length between risers, we can manually calculate the total supply line heat loss from the heater to the farthest riser, coming up with a total heat loss of 9320 BTUHs.

1. The maximum temperature difference (Delta T) that you are willing to tolerate between the heater and the last fixture.  This is typically 10°F, 15°F or 20°F.

For this design, a 10°F temperature drop has been chosen.  Table 2 shows us what the BTU/GPM relationship is for the various temperature drops.

Admittedly, it’s quite a few calculations to get to the definitive pump size and sizing programs are available to do most of the work.  Still, it’s important to understand the logic that goes into a properly designed hot water recirculation system, especially as system designs become more complex, as we shall see in some up coming blogs.

First, it is important to remember the objective of your design, which is to overcome the heat loss in the pipe between the water heater and the most distant fixture during periods of no draw.  Think of the recirculating portion of the system as an extension of the hot water storage.  The greater the storage volume, the more BTUs that are required to keep the water hot.  How many BTUs depends on the following factors:

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Designing a domestic hot water recirculation system is not typically difficult.  In fact, we see the exact same model recirculation pump used in application after application without incident, as this one pump is typically able to meet the minor head and flow requirements of most recirculation systems.  That said it is important to work through the proper design procedures for any recirculation system.  A little time up front can save a lot time (and money) after the fact.

Damages and issues Please inspect your order upon reception and contact us immediately if the item is defective, damaged or if you receive the wrong item, so that we can evaluate the issue and make it right.

Exchanges The fastest way to ensure you get what you want is to return the item you have, and once the return is accepted, make a separate purchase for the new item.

With this information show here we can determine our required recirculation flow rate, size our recirculation pipe, and select the right size pump.