PennBarry C25, MV250, C75, C45, MV750 Installation Instructions Manual

INSTALLATION INSTRUCTIONS

MV75-2ERV

SUPERSEDES 10-05-11

JUNE 4, 2012

EN ERGY RE COV ERY WHEEL

INSTALLATION INSTRUCTIONS FOR MINI VENTILATOR (MV) WITH FACTORY INSTALLED OPTIONS

(LOW AMBIENT, ROTATION SENSOR AND CLIMATE SMART [PATENT PENDING])

USED AS A STAND ALONE OR WITH SPLIT SYSTEMS UNITS

Energy recovery COMPONENT
certified to the AHRI Air-to-Air
Energy Recovery Ventilation
Equipment Certification Program in
accordance with AHRI Standard
1060-2000. Actual performance in
packaged equipment may vary.

ETL Certified per UL 1995
and CSA 22.2

I - Ship ping And Pack ing List

Package 1 of 1 contains:

1 - Mini Ventilator Assembly (See Figure 1)

II - Ship ping Dam age

Check unit for shipping damage. Receiving party should
contact last carrier immediately if shipping damage is
found.

III - Gen eral

These instructions are intended as a general guide and do
not supersede local codes in any way. Authorities having
jurisdiction should be consulted before installation.

IV - Re quire ments

When installed, the unit must be electrically wired and
grounded in accordance with local codes or, in the
absence of local codes, with the current National Electric
Code, ANSI/NFPA No. 70.

V - Ap pli ca tion

Mini Ventilators (MV) are used as stand alone. These
ventilators conserve energy by mixing warmer air with
cooler air in the following manner:

Re cov ery Wheel Mode

The Recovery Wheel mode is accomplished by two
blowers providing continuous exhaust of stale indoor air
and replacement by equal amount of outdoor air. Energy
recovery is achieved by slowly rotating the energy
recovery wheel within the cassette frame work. In winter,
the MV adsorbs heat and moisture from the exhaust air
stream during one half of a complete rotation and gives
them back to the cold, drier intake air supply during the
other half rotation. In summer, the process is automatically
reversed. Heat and moisture are absorbed from incoming
intake air supply and transferred to the exhaust air stream.
This process allows outdoor air ventilation rates to be
increased by factors of three or more without additional
energy penalty or increase in size of heating or air
conditioning systems.

VI - Rig ging Unit For Lift ing

1. Maximum weight of unit is

Model# C25 / MV250 C45 / MV450 C75 / MV750

Net Weight 195 195 225

Ship Weight 215 215 261

2. Remove carton.

3. All panels must be in place for rigging.

CAUTION

Danger of sharp metallic edges. Can cause injury.
Take care when servicing unit to avoid accidental
contact with sharp edges.

WARNING

Electric shock hazard. Can cause injury
or death. Before attempting to perform
any service or maintenance, turn the
electrical power to unit OFF at
disconnect switch(es). Unit may have
multiple power supplies.

Figure 1

PAGE 1

VII - In stal la tion

The unit can be installed using two different intakes
general configurations. The unit is shipped in horizontal
intake configuration. Please refer to the following diagrams
for installation instructions:

Note: All duct work and flex connectors are field
supplied.

A - Hor i zon tal Configuration Duct Work In stal la tion

1. Attach Flexible Duct Collar to the MV fresh air intake
and secure with screws. See Figure 2.

2. Attach fresh air supply duct work to fresh air supply
Flexible Duct Collar and secure with screws. See

Figure 2.

3. Attach Flexible Duct Collar return air exhaust and
secure with screws. See Figure 2.

4. Attach return air exhaust duct work to return air
exhaust Flexible Duct Collar and secure with screws.

See Figure 2.

RE TURN AIR EX HAUST

RE TURN AIR EX HAUST

FLEX I BLE DUCT COLLAR

DUCT WORK

RE TURN AIR INTAKE

FLEX I BLE DUCT COLLAR

RE TURN AIR INTAKE

DUCT WORK

FRESH AIR INTAKE

FRESH AIR INTAKE
DUCT WORK

FLEX I BLE DUCT COLLAR

Figure 3

4. Attach return air exhaust duct work to return air
exhaust Flexible Duct Collar and secure with screws.

See Figure 2.

5. Remove fresh air intake duct collar from lateral intake.

See Figure 4.

6. Remove return air intake duct collar from lateral
intake. See Figure 4.

FRESH AIR SUPPLY

FRESH AIR SUPPLY
DUCT WORK

FLEX I BLE DUCT COLLAR

Figure 2

5. Attach Flexible Duct Collar to MV fresh air intake and
secure with screws. See Figure 3.

6. Attach fresh air intake duct work to fresh air intake
Flexible Duct Collar and secure with screws. See

Figure 3.

7. Attach Flexible Duct Collar to return air intake and
secure with screws. See Figure 3.

8. Attach return air intake duct work to return air intake
Flexible Duct Collar and secure with screws. See

Figure 3.

B - Top/Bottom Configuration Duct Work Installation

1. Attach Flexible Duct Collar to the MV fresh air intake
and secure with screws. See Figure 2.

2. Attach fresh air supply duct work to fresh air exhaust
Flexible Duct Collar and secure with screws. See

Figure 2.

3. Attach Flexible Duct Collar return air exhaust and
secure with screws. See Figure 2.

7. Remove cover panel from top fresh air intake. See

Figure 4.

8. Remove cover panel from bottom return air intake.

See Figure 4.

RE TURN AIR INTAKE

DUCT COLLAR

FRESH AIR INTAKE

COVER PANEL

FRESH AIR INTAKE
DUCT COLLAR

Figure 4

RETURN AIR INTAKE
COVER PANEL

9. Attach fresh air duct collar to top fresh air intake and
secure with provided screws. See Figure 5.

10. Attach return air duct collar to bottom return air intake
and secure with provided screws. See Figure 5.

11. Attach fresh air cover panel to lateral fresh air intake
and secure with provided screws. See Figure 5.

12. Attach return air cover panel to lateral return air intake
and secure with provided screws. See Figure 5.

PAGE 2

RE TURN AIR IN TAKE

COVER PANEL

FRESH AIR IN TAKE

DUCT COL LAR

FRESH AIR INTAKE
COVER PANEL

Figure 5

RE TURN AIR INTAKE
DUCT COLLAR

13. Attach Flexible Duct Collar to the MV fresh air intake
and secure with screws. See Figure 6.

14. Attach fresh air intake duct work to fresh air intake
Flexible Duct Collar and secure with screws. See

Figure 6.

15. Attach Flexible Duct Collar to return air intake and
secure with screws. See Figure 6.

16. Attach return air intake duct work to return air intake
Flexible Duct Collar and secure with screws. See

Figure 6.

FRESH AIR IN TAKE

DUCT WORK

FRESH AIR IN TAKE

FLEX I BLE DUCT COL LAR

VIII - Op er a tion

How It Works

The unit contains an Mini Ventilator that is a new concept in
a rotary air-to-air heat exchanger. Designed as a
packaged unit for ease of installation and maintenance,
only connection of electrical power is required to make the
system operational. The concept consists of a unique
rotary energy recovery wheel that rotates in and out of
fresh air streams within a heavy duty, permanently
installed blower cabinet that provides ready access to all
internal components. The Energy Recovery Wheel
contains spirally wound polymeric material that is coated
and permanently bonded with a silica gel desiccant for
transfer of sensible and latent heat. The wheel is belt
driven by one motor and stretch urethane perimeter drive
belt.

When slowly rotating through counter flowing exhaust and
intake air streams the MV adsorbs sensible heat and latent
heat from the warmer air stream and transfers this total
energy to the cooler air stream during the second half of its
rotating cycle. Rotating the wheel provides constant flow of
energy from warmer to cooler air stream. The large
energy transfer surface and laminar flow through the wheel
causes this constant flow of recovered energy to
represent up to 85% of the difference in total energy
contained within the two air streams.

Sensible and latent heat are the two components of total
heat. Sensible heat is energy contained in dry air and latent
heat is the energy contained within the moisture of the air.
The latent heat load from the outdoor fresh air on an air
conditioning system can often be two to three times that of
the sensible heat load and in the winter it is a significant
part of a humidification heat load.

During both the summer and winter, the MV transfers
moisture entirely in the vapor phase. This eliminates wet
surfaces that retain dust and promote fungal growth as well
as the need for a condensate pan and drain to carry water.

Because it is constantly rotating when in the air stream, the
MV is always being cleared by air, first in one direction
then the other. Because it is always dry, dust or other
particles impinging on the surface during one half cycle,
are readily removed during the next half cycle.

RE TURN AIR INTAKE

FLEX I BLE DUCT COLLAR

RE TURN AIR INTAKE

DUCT WORK

Figure 6

PAGE 3

In the heating season, when outdoor air temperatures are
below 10oF, it is recommended to use the (optional) low
ambient kit (factory installed 02 models only). At these
conditions you will need to determine the frost threshold
parameters.

The frost threshold is the outdoor temperature at which
frost will begin to form on the MV wheel. For energy
recovery ventilators, the frost threshold is typically below
10oF. Frost threshold is dependent on indoor temperature
and humidity. The table shows how the frost threshold
temperatures vary depending on indoor conditions.

FROST THRESH OLD TEM PER A TURE

IN DOOR RH AT 70oF

FROST THRESH OLD

TEM PER A TURE

20% 0oF
30% 5oF
40% 10oF

Because Mini Ventilators have a low frost threshold, frost
control options are not necessary in many climates. Where
outdoor temperatures may drop below the frost threshold
during the MV operational hours, exhaust only frost control
option is available.

IX - Standard Features

Low Am bi ent Kit

Extremely cold outdoor air temperatures can cause
moisture condensation and frosting on the energy
recovery wheel (ERW). The outside temperature below
which frost will begin to accumulate is referred to as the
Frost Threshold Temperature, and is a function of both the
indoor DB temperature and the indoor relative humidity
See Table #2. Frost formation causes reduction of airflow
through the ERW; therefore, without frost control, energy
recovery and airflow may be significantly reduced.

A thermostat control is provided to shut down the supply
blower when outdoor temperature drops to a field-selected
frost control setting. The thermostat is located within the
outdoor air intake hood. To avoid depressurization of the
conditioned space, automatic or pressure operated fresh
air dampers may be required as part of the ventilation
system. Factory setting is 20oF.

FROST THRESH OLD TEM PER A TURE (OD DB)

IN DOOR

RH (%)

20

30

40

50

60

IN DOOR DB TEMPERATURE

70oF 72oF 75oF 80oF

-14 -13 -11 -8

-3 -2 -1 3

5 7 9 11

13 13 15 18

18 19 21 26

Table #2

Rotation Sensor

The circuit indicates the absence of pulses, within a
specified time range, provided by a magnetic sensor
detecting a magnet mounted on wheel surface. After the
initial time delay of approximately 5 seconds from circuit
power up, if the sensor fails to provide a signal pulse (no
wheel rotation) within approximately 5 additional seconds,
the alarm relay will activate the latch (until circuit powers
down) providing a 5 amp contact closure output. This
would indicate no wheel rotation and/or magnet in the
system has stopped at the magnetic sensor pickup point. If
the pulse (wheel rotation) is detected within the
approximately 5 second time period, the alarm relay will
remain open. No field timing adjustment of any type will be
required.

of the circuit board. The following diagram details the
jumper location for each mode of operation:

Temperature Control (See Figure 7)

The temperature mode of operation incorporates one
sensor located in the fresh air intake of the ERV. The Start
Stop Jog sequence is activated when the outside air
temperature is between 70°F and 40°F. The SSJ module
provides two potentiometers in order to adjust the Low and
High temperature range of the start stop jog sequence. To
adjust the High temperature range, place a Multimeter on
the COM and HIGH test points. Use a screw driver to
adjust the potentiometer to the desired VDC representing
the temperature. The Low temperature range is adjusted
by placing a Multimeter on the COM and LOW test points
with the adjustment of the potentiometer to the desired
VDC representing temperature. The VDC can be
calculated for a desired temperature using the following
formula: VDC = 0.1429 x (Temperature) - 5.7143.

Figure 7

Enthalpy Control (See Figure 8)

The enthalpy mode of operation incorporates one enthalpy
sensor located in the fresh air intake of the ERV. The SSJ
module compares the outdoor enthalpy to a preselected
set point. The value of the set point can be identified on a
psychometric chart with the standard control curves as A,
B, C or D. The set point can be selected as an aggressive
set point A for higher levels of free cooling or a
conservative set point D for lower levels of free cooling.
The Enthalpy sensor provides a 4-20 mA (0-100%) signal
proportional to the selected control curve A, B, C, or D. The
SSJ module begins the start stop jog sequence when the
Enthalpy sensor reports 60%. The Enthalpy 60% setpoint
for each control curve is detailed in the following table:

Climate Smart [Patent Pending]

There are three modes of control strategies available.
Temperature, Single Enthalpy, or Enthalpy and
Temperature control.

Mode of Operation

The mode of operation is selected with the adjustment of a
jumper. The jumper is located at the lower center position

Figure 8

PAGE 4