Руководство По Проектированию для White Rodgers CAZ-2 Zone Plus Control Panel
www.white-rodgers.com
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TECHNICAL HELP
ZONE 1 CLOSED
DUMPER DAMPER
DUMP ZONE
ZONE 3 CLOSED
ZONE 2 OPEN
The diagram above shows a typical three zone damper system with
a barometric by-pass, Model CSPRD, between the supply air and re-
turn air duct. A round take-off is also shown as an uncontrolled dump
zone delivering air continuously to a non-critical temperature area,
such as a basement or hallway as another method of relieving excess
air. Either a by-pass or a dump zone is used but rarely ever is there a
need for both.
MINIMUM POSITION DAMPER
Another form of by-pass is using minimum position dampers, such as
the CZD and CRDS dampers. Setting the larger zone dampers to a
minimum position can also be a method of relieving excess air pres-
sure. This should be used when only small amounts of air need to be
by-passed as the minimum position air in some cases can cause a
zone to overshoot its comfort zone. Caution must be exercised when
using minimum position dampers for by-pass.
ZONING HEAT PUMPS
Heat Pumps are a very popular form of heating and cooling in the
milder climates of the country. These efficient units use the compres-
sor for both heating and cooling and have a reversing valve that
reverse the flow of refrigerant in order to switch between heating and
cooling modes.
Heat pumps, while very efficient, are also most efficient in milder
climates where often there is more of a cooling demand than a heat-
ing demand, such as the southern United States. A heat pump is also
rated based upon its cooling capacity and not the heating capacity
and rely typically on electric resistance heating to supplement the
heat pump in colder weather, often less than 35°F to 40°F. When this
back-up form of heat is used to supplement the heat pump compres-
sor, the cost to heat the home rises dramatically. It is this reason that
zoning should be installed with every heat pump.
Heat pumps with their limited capacity for heating cannot afford to be
run on the colder climates heating the entire home or building. How-
ever if the heat pump is zoned, most likely less than the total building
requires heat at any one time. The zone calling typically requires less
than the total BTU capacity of the heat pump, more evenly matching
the heat pumps capacity to the load of the calling zone. By doing so
this lessens the need for the supplemental heat to come on, therefore
providing substantial energy savings.
For example, a typical home may have a 3 Ton (36,000 BTU) heat
pump. The total heating load for the home at heating design tempera-
ture maybe 60,000 BTUs or even more. Obviously with only 36,000
BTUs the heat pump can never keep up at design temperatures.
However during milder temperature days, those above 45°F, the heat
pump will often be more than adequate.
Heat pumps most efficient outdoor temperature, typically 45°F to 50°F
and the amount of BTUs produced by the heat pump decreases as
the temperature moves further below this temperature. This is when
the supplemental electric resistance heat is often needed. As the
heat pump compressor heats the air, the electric resistance heaters,
located downstream of the heat pump coil, can come on to supple-
ment the heat pump air. However if the system is zoned and heating
is required for typically only one room or zone, the capacity of the
heat maybe equal to or greater than the heating load of that zone
and even as the output of the heat pump diminishes as the outdoor
temperature falls, the capacity of the heat pump, (BTU output) is
adequate for the zone(s) calling therefore not requiring the use of the
supplemental heating.
The combined use of zoning and heat pumps allows more equally
matched capacity to match the load of those zones calling allowing
the most efficient form of heating to be used. Even during the colder
times when the supplemental electric heat is needed, it is important to
remember that a smaller amount of heating is always required for one
room or zone vs. the whole house. Zoning allows the heating to be
directed only to those areas needing it.
FOSSIL FUEL FURNACES AND ADD-ON HEAT PUMPS
When a heat pump is added on to a fossil fuel (gas or oil) furnace, the
sequence of operation is somewhat different than using electric resis-
tance heating as supplemental heating. The heat pump coil is often
on the supply side of the furnace and both the heat pump and furnace
cannot be run together as the high temperature from the furnace will
cause the heat pump compressor safeties to engage.
All heat pump manufacturers use a fossil fuel kit in order to make
the most effective use of the heat pump and furnace. Simply this
fossil fuel kit uses an outdoor thermostat to switch between the heat
pump and furnace based upon the outdoor temperature or balance
point. The balance point is calculated to determine the most effective
temperature to operate the heat pump vs. the furnace. See the heat
pump manufacturer’s information to calculate the balance point.
When using a White-Rodgers System with an add-on heat pump it is
recommended to use the manufacturer’s fossil fuel kit in order main-
tain the manufacturer’s warranty. The zone control panel equipment
terminal block will be wired to the thermostat connections on the fossil
fuel kit.
When using any heat pump it is important to remember that with a
limited amount of heating capacity, ZONING is imperative in order to
make maximum use of the heat pump and where the individual zone
load is more closely matched to the capacity of the heat pump.
ZONING
DESIGN