Carrier HRVCCLHA, HRVCCSHA, HRVCCSVA, HRVCCLHA1150, HRVCCLHA1250 Product Data

HRVCCLHA, HRVCCSVA, HRVCCSHA
Heat Recovery Ventilators

Product Data

The Heat Recovery Ventilation (HRV) system offered by Carrier
is the finest on the market today. The HRV provides efficient and
cost effective heat recovery during the heating season when
needed most.

As temperatures drop below 23_F(--5_C), indoor air is
recirculated periodically through the heat exchanger core to
prevent frost from forming. Competitors’ methods of
supplementary electric defrost waste energy. Unlike rotary wheel
heat exchangers which mix air streams, these cross--flow or
counterflow heat exchangers ensure that there is no mixing of the
stale air stream with the fresh outdoor air stream.

HRVCCLHA

A filter installed on the incoming outdoor air stream removes
large airborne particles from the intake air stream before they
enter the heat exchanger and reduces the maintenance required.
The units’ acoustically engineered design makes the Carrier HRV
the quietest on the market and ensures that comfort is felt, not
heard.

Unlatching two (2) suitcase style latches allows easy removal of
the filters and core for cleaning.

NOTE: The HRV should not be installed in an attic or
unconditioned space unless provisions are made for drainline
freezing and condensation.

HRVCCSVA

HRVCCSHA

STANDARD FEATURES

S Energy saving defrost cycle
S Cross--flow, counterflow heat exchangers
S One filter on incoming air; one filter on outgoing air to

protect core

S Acoustical design
S No-- tools maintenance
S Polypropylene heat exchanger core

1

Model number nomenclature

HRV

Equipment Type:

Heat Recovery Ventilator

CC

Brand:

Carrier

LHA

Descriptor (A Series):
LHA --- Large Horizo ntal
SVA --- Small Vertical
SHA - -- Small Horizontal

1

Electrical Supply:

1 --- 1 1 5 Vo l t s

150

Maximum Capacity:
100 CFM
150 CFM
250 CFM

HRV

Climate Map for Energy and Heat Recovery Ventilators

Edmonton

Vancouver

Calgary

Helena

Salem

Sacramento

Honolulu

Boise

Salt Lake
City

HRV Recommended

ERV Recommended w/HRV or ERV Wall Control

Denver

Regina

Winnipeg

Bismark

Austin

Minneapolis

Des Moines

Topeka

Oklahoma City

Green Bay

Madison

Springfield

Baton Rouge

Timmins

Milwaukee

Chicago

Indianapolis

Nashville

Detroit

Atlanta

Ottawa

Harrisburg

Washington D.C.

Columbia

Orlando

Montreal

Syracuse

Boston

Hartford

Raleigh

ERV Recommended

2

Controls and accessories part number nomenclature

K

K --- A c c e ss o r y K i t

V

V --- H e a t
Recovery
Vent il at or

B

A--- Original Series
B---Seco nd Series

CN

A C --- A c c es s o ry
CN--- Control
FL---Filter Media
TM---Ti mer

01

0 1 --- P a r t N u m b e r

01

0 1 --- S i ng l e P a c k

CAU

CONTROL DESCRIPTION

CAU---Carrier Automatic Control
CBS--- Carrier Basic Control
CST---C arrier Standard Co ntrol

ACCESSORY DESCRIPTION

6 F M --- 6 i n . F l o w m e te r s (2 )
7 F M --- 7 i n . F l o w m e te r s (2 )
8 F M --- 8 i n . F l o w m e te r s (2 )
EXH--- Exhaust Hood
H O D --- I n t a ke H o o d
KIT---Balancing Kit

TIMER DESCRIPTION

20C--- 20-Minute Timer Kit
60M--- 60-Minute Adjustable Timer Kit

FILTER DESCRIPTION

112--- 11-1/2 x 12-3/4
116--- 11-7/8 x 16-5/8
123--- 12-15/16 x 13-1/2
145--- 14-3/8 x 15-1/2
713--- 7-13/16 x 13-1/2
810--- 8-1/8 x 10-3/4
812--- 8-7/8 x 12-3/4
916--- 9 x 16-5/8

HRV

Kit Number Description Where Used

KVBCN0101CBS Basic HRV Control Used with all HRVs

KVBCN0101CST Standard HRV Control Used with all HRVs

KVBCN0101CLT Carrier OneTouch Control UsedwithallHRVsasamainwallcontrol

KVAAC0101HCO Intake and Exhaust Hood Used as a single intake/exh a ust for HRVCCSVA1100, HRVCCSHA1100 only.

KVAAC0101HOD Exterior Intake and Exhaust Hood 2Required

KVATM010120C 20 Minute Push Button Timer Used with all HRVs when 20 minute manual operation is required

KVATM010160M 60 Minute Timer Used with all HRVs, time is adjustable between 10 and 60 minutes

KVAAC0101KIT Start ---Up Balancing Kit Start up Balancing Kit, includes (2) 6 in. Flow Meter Collars & Magnehelic Gage

KVAAC01016FM 6 in. Flow Meter Collar At start up, when 6 in. duct work is connected to HRV

KVAAC01017FM 7 in. Flow Meter Collar At start up, when 7 in. duct work is connected to HRV

KVAAC01018FM 8 in. Flow Meter Collar At start up, when 8 in. duct work is connected to HRV

KVAFK0101100 Internal Filter Used with HRVCCSHA1100, HRVCCSVA1100 Unit 10 1/2 in. x 6 3/4 in. x 1/2 in.

KVAFK0201150 Internal Filter Used with HRVCCLHA1150, HRVCCLHA1250 Unit 15 1/2 in. x 7 in. x 5/8 in.

3

Control

Model

Description

OneTouch Yes No Yes Yes

Basic Yes No Yes No

Standard Yes Ye s Yes Yes

Fan Speed

Control

Control features

Basic Control:

Allows the user to manually set fan speed to low or high as
required to maximize comfort.

Standard Control:

Offers automatic dehumidistat control and the option to select
continuous or intermittent fan operation. Setting the wall control

HRV

to low will activate the continuous mode.

OneTouch Control:

Allows control of ventilator with the touch of a button. This
control will operate as a main wall control. The OneTouch will
operate the unit in Intermittent Mode (20 minutes per hour),
continuous low speed, continuous high speed, and off.

Dehumidistat

Control

Continuous

Mode

Intermittent

Mode

Automatic Defrost Cycle Features

All models offer a non-- electric defrost cycle feature which
prevents frost and ice buildup within the heat recovery core.
When the outside air temperature falls below 23_F(--5_C) it is
electronically sensed and the dampers close the outside air ports.
This allows warm indoor air to recirculate within the heat
recovery core. The frequency of this cycle increases as the outside
air temperature decreases.

25_FTO55_F

Model

HRVCCLHA 6 Minutes 60 Minutes 6 Minutes 32 Minutes 6 Minutes 20 Minutes

HRVCCSHA 6 Minutes 60 Minutes 6 Minutes 32 Minutes 6 Minutes 20 Minutes

HRVCCSVA 6 Minutes 60 Minutes 6 Minutes 32 Minutes 6 Minutes 20 Minutes

* All defrost times are in the standard mode (as shipped)
{ Time between defrost when within specified temperature range

( --- 5 _C T O --- 1 5 _C)

DEFROST* EXCHANGE{ DEFROST* EXCHANGE{ DEFROST* EXCHANGE{

4_F T O --- 1 7 _F

( --- 1 5 . 6 _C T O --- 2 7 . 3 _C)

B E L O W --- 1 8 _F

( --- 2 7 . 8 _C)

4

2 3/16 in.

(56.2)

4 1/2 in.

(114.3)

4 PLCS

16 3/4 in.

(425.5)

D

4

2

1 in.

(25.4)
2 PLCS

1

3

C

B

A

30 1/4 in.

(768.3)

NOTES:

1. FRESH AIR FROM HRV TO HOUSE

2. FRESH AIR FROM OUTSIDE TO HRV

3. STALE AIR FROM HOUSE TO HRV

4. STALE AIR FROM HRV TO OUTSIDE

G

5 7/8 in. Dia

(149.2)
4 PLCS

12 in.

(381.0)

F

E

A B C D

Model

in. mm in. mm in. mm in. mm

HRVCCLHA1150 17-1/4 438.2 10-1/2 266.7 4-1/2 114.3 11 279.4

HRVCCLHA1250 17-1/4 438.2 10-1/2 266.7 4-1/2 114.3 11 279.4

HRV

A05228

E F G

Model

in. mm in. mm in. mm

HRVCCLHA1150 7-3/4 196.9 4-3/8 111.1 7-3/4 196.9

HRVCCLHA1250 7-3/4 196.9 5-13/16 147.6 7-3/4 196.9

Fig. 1 -- HRVCCLHA Unit Dimensions

5

A05426

C

Pol

Pol

Pol

Pol

Fig. 2 -- HRVCCSHA Unit Dimensions

HRV

Fig. 3 -- HRVCCSVA Unit Dimensions

Physical data

Model

Port Locations Side Side Top Side

oreType

Weight — lb (kg) 65 (29.5) 73 (33.2) 42 42

Shipping Weight — lb (kg) 75 (34) 83 (37.6) 48 48

Shipping Dimensions (in.)
Height
Width
Depth

HRVCCLHA1150 HRVCCLHA1250 HRVCCSVA1100 HRVCCSHA1100

ypropylene

Cross Flow

23-1/16
36-1/16

17-13/16

ypropylene

Cross Flow

22-15/16

35-1/16

22-15/16

ypropylene

Cross Flow

25.5

17.5

23.0

A05425

ypropylene

Cross Flow

30.0

15.0

23.0

6

Physical data (continued)

Efficiency(Sensible)Percent

6

5656

5606

6666

6

Model

Capacity—CFM @

0.5-0.3ESP (in. wc)

Efficiency (Sensible)—Percent
32_F(0_ C)

-- 13_F(--25_ C)

Efficiency (Latent)—Percent
@ all temperatures

Heat Core Exchange Area—
cu ft (cu m)

Model

Voltag e 120 120 120 120

MaxPower—watts 150 218 150 150

Max Amps 1.4 1.9 1.3 1.3

HRVCCLHA1150 HRVCCLHA1250 HRVCCSVA1100 HRVCCSHA1100

130--- 168 191--- 210 99--- 107 99---107

0 0 0 0

120 (3.4) 166 (4.7) 55 (5.1) 55 (5.1)

HRVCCLHA1150 HRVCCLHA1250 HRVCCSVA1100 HRVCCSVA1100

Methods to Size HRVs

HEATING LOAD BTU

Method 1:

1. Calculate cubic feet of occupied space

2. Multiply by recommended air changes per hour (AC/h)

3. Divide by 60 minutes per hour to convert to CFM

Example: 2000 sq ft with 8 ft ceiling

0.35 air changes per hour (AC/h)

(2000 sq ft x 8 ft ceiling x 0.35 AC/h) / 60 min/h =

93.3 CFM

Method 2:

1. Multiply number of people times 15 CFM/person

2. Multiply number of bathrooms times 20 CFM/each

3. Add25CFMforkitchen

Example: 2 people

2 bathrooms
1 kitchen

(2 x 15) + (2 x 20) + 25 = 95 CFM

Additional heating and cooling load charts

Although the ventilators process the outside air before it enters
the home, additional heating and cooling loads need to be
considered.

The heating load chart shows the heating loads in BTUh for a
range of winter design temperatures for each model of ventilator.

EXAMPLE: The heating design temperature for Milwaukee,
WI, is --4_F. At -- 5_F, the additional heating load of the
HRVCCLHA1250 is 8417 BTUh. This additional load should be
taken into consideration when sizing the heating equipment.

Outside Temp

°F

–25 4,688
–20 4,466
–15 4,598
–10 4,334

–5 4,069

0 3,805

5 3,541
10 3,502
15 3,220
20 2,938
25 2,950
30 2,636
35 2,322
40 2,009

66

Heat Load (BTUh)

@ Inside Design

Temp 72°F

HRVCCLHA1150

7

COOLING LOAD BTU

Outside

Cooling Load (BTUh) @ Inside Design

Outside

Enthalpy

Btu/lb

30 670 1,071
31 1,090 1,741
32 1,509 2,411
33 1,928 3,080
34 2,347 3,750
35 2,766 4,419
36 3,185 5,089
37 3,604 5,759
38 4,023 6,428
39 4,442 7,098
40 4,861 7,767
41 5,280 8,437
42 5,699 9,107

Tem p 75 °F and 50% Relative Humidity

HRVCCLHA1150 HRVCCLHA1250

The cooling load chart shows the loads in BTUh also. To use the
cooling load chart, first find the design enthalpy from a
psychrometric chart using the design dry bulb and wet bulb
temperatures. (See following psychrometric chart.) The cooling
load can then be found for a range of enthalpies for each
ventilator.

EXAMPLE: The cooling design dry bulb temperature for
Milwaukee, WI, is 87_F and the average wet bulb at that
temperature is 73_F . On the psychrometric chart the enthalpy is
about 37.7 BTU/lb of dry air which will round up to 38 BTU/lb
of dry air. In the left column, at 38 BTU/lb the HRVCCLHA1250
would have an additional cooling load of 6428 BTUh. This
additional load should be taken into account when sizing the air
cooling equipment.

HRV

8

.65

.35

.40

.45

.50

.60

.55

.70

.75

.95

.85

.90

.80

heat

factor

Sensible

14.5 cu ft per pound of dry air

Pounds of moisture

per pound of dry air

180

105

Grains of moisture

per pound of dry air

100

95

90

85

Enthalpy at saturation, Btu per pound of dry air

49

48

47

.025

.024

.023

.022

.021

.020

.019

.018

.017

.016

.015

.014

.013

.012

.011

.010

.009

.008

.007

.006

.005

.004

.003

.002

.001

0

110

170

160

150

140

130

120

110

100

40

70

80

90

pound of dry air -0.3 Btu

Btu per

Enthalpy deviation

50

60

30

20

0

10

105

100

-.02 BTU

14.0 cu ft

95

90

HRV

-.01 BTU

10%

20%

85

30%

60

-.04 Btu

-.02 Btu

40%

-.06 Btu

55

-.08 Btu

80

13.5 cu ft

75

70

65

60

13.0 cu ft

55

80

50%

60%

70%

46

45

44

43

42

41

40

75

39

38

37

36

35

80%

90% Relative Humidity

70

34

33

32

31

30

65

29

28

27

Psychrometric chart

50

26

25

24

23

22

21

20

45

19

40

+0.3 Btu

+0.2 Btu

+0.1 Btu

18

17

16

15

35

14

13

30

12

80%

60%

25

12

11

10

9

8

7

Wet Bulb,

Dewpoint or

Saturation

Temperature F

40%

+0.5 Btu

+0.4 Btu

20%

50

45

30 35 40

25

20

Dry Bulb

Temperature F

12.5 cu ft

Below 32˚F, properties and enthalpy deviation lines are for ice.

9

HRV installed with forced air system

HRVHRV

A99297

HRV installed with independent air distribution

A99298

Copyright 2005 Carrier Corp. S 7310 W. Morris St. S Indianapolis, IN 46231

Manufacturer reserves the right to cha nge, at any time, specifications and desig ns without n otice and without obligations.

Printed in U.S.A. Edition Date: 12/05

C a t a l o g N o : H R V --- 4 P D

Replaces: New

10