Manual 2100-738C
Page
57 of 73
Well Pump Sizing
Strictly speaking, sizing the well pump is the
responsibility of the well drilling contractor. It is
important, however, that the HVAC contractor be
familiar with the factors that determine what size
pump will be required. Rule of thumb estimates will
invariably lead to under or oversized well pumps.
Undersizing the pump will result in inadequate water
to the whole plumbing system but with especially bad
results to the heat pump
—
NO HEAT/NO COOL calls
will result. Oversized pumps will short cycle and could
cause premature pump motor or switch failures.
The well pump must be capable of supplying enough
water and at an adequate pressure to meet competing
demands of water fixtures. The well pump must be
sized in such a way that three requirements are met:
1. Adequate flow rate in GPM.
2. Adequate pressure at the fixture.
3. Able to meet the above from the depth of the
well-feet of lift.
The pressure requirements put on the pump are
directly affected by the diameter of pipe being used,
as well as by the water flow rate through the pipe.
The work sheet included in manual 2100-078 should
guarantee that the well pump has enough capacity. It
should also ensure that the piping is not undersized
which would create too much pressure due to friction
loss. High pressure losses due to undersized pipe will
reduce efficiency and require larger pumps and could
also create water noise problems.
System Start Up Procedure for Open
Loop Applications
1. Be sure main power to the unit is OFF at
disconnect.
2. Set thermostat system switch to OFF and fan
switch to AUTO.
3. Move main power disconnect to ON. Except as
required for safety while servicing,
do not open the
unit disconnect switch.
4. Check system airflow for obstructions.
A. Move thermostat fan switch to ON. Blower
runs.
B. Be sure all registers and grilles are open.
C. Move thermostat fan switch to AUTO. Blower
should stop.
5. Fully open the manual inlet and outlet valves.
6. Check water flow.
A. Connect a water flow meter to the drain cock
between the constant flow valve and the
solenoid valve. Run a hose from the flow meter
to a drain or sink. Open the drain cock.
B. Check the water flow rate through constant
flow valve to be sure it is the same as the unit
is rated for.
C. When water flow is okay, close drain cock and
remove the water flow meter. The unit is now
ready to start.
7. Start the unit in cooling mode by moving the
thermostat switch to cool. Fan should be set for
AUTO.
A. Check to see the solenoid valve opened.
8. Check the system refrigerant pressures against the
cooling refrigerant pressure table in the installation
manual for rated water flow and entering water
temperatures. If the refrigerant pressures do not
match, check for airflow problem that refrigeration
system problem.
9. Switch the unit to the heat mode by moving the
thermostat switch to heat. Fan should be set for
AUTO.
A. Check to see the solenoid valve opened again.
10. Check the refrigerant system pressures against the
heating refrigerant pressure table in installation
manual. Once again, if they do not match, check
for air flow problems and then refrigeration system
problems.
NOTE If a charge problem is determined (high or low):
A. Check for possible refrigerant loss.
B. Recover all remaining refrigerant from unit and
repair leak.
C. Evacuate unit down to 29" of vacuum.
D. Recharge the unit with refrigerant by weight.
This is the only way to ensure proper charge.
11. For iSeries Smart Actuator and water valve
installation, refer to the
Valve and Actuator
Installation/Removal
section on page 31.
12. It is advised to rotate the manual operation button,
located on the top of the iSeries Smart Actuator,
several times to make sure the water valve is loose
and not seized before operation. This simple step
will provide assurance the 3-way water valve is free
to move once power is applied.
IMPORTANT
Operator must be removed from the valve
body and ball valve must be in the full
open position before soldering. Valve is
shipped in the full closed position.