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Bryant HRVXX Product Data

ERVXX

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HRVXX

Heat Recovery Ventilators

ERVXX

Energy Recovery Ventilators

Product Data

A05229

ERVXXSVB1100, HRVXXSVB1100

A05330

ERVXXSHB1100, HRVXXSHB1100

A10299

ERVXXLHB1200, HRVXXLHB1150, HRVXXLHB1250

A12338

HRVXXSVU1157

A12339

HRVXXLVU1330

The Heat Recovery Ventilation (HRV) and Energy Recovery
Ventilator (ERV) systems offered by Bryant are the finest on the

market today. These units provide 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.
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 make Bryant ventilators 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 on most units.

NOTE

:

The unit should not be installed in an attic or

unconditioned space unless provisions are made for drain line
freezing and condensation.

STANDARD FEATURES

HRV

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

Polypropylene heat exchanger core

ERV

S

Integrated airflow balancing points

S

Integrated furnace interlock

S

High pressure blowers

S

Onboard control for continuous high/low ventilator operation

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

No--tools maintenance

S

Enthalpic heat exchanger core

 


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2

MODEL NUMBER NOMENCLATURE

ERV

XX

LHB

1

150

PRODUCT TYPE

CFM

ERV --- Energy Recovery Ventilator

HRV --- Heat Recovery Ventilator

VOLTAGE

1 --- 115/60/1

BRAND

STYLE

XX --- Dual Branded

LHB --- Large Horizontal, End Ports

Installer selects and applies logo badge

HRV --- 150, 250 cfm
ERV --- 200 cfm

SVB --- Small Horizontal, Top Vertical Ports

HRV & ERV --- 100 cfm

SHB --- Small Horizontal, End Ports

HRV & ERV --- 100 cfm

SVU --- Vertical, Top Ports

HRV --- 157 cfm

LVU --- Large Vertical, Top Ports

HRV --- 330 cfm

These products earned the 
ENERGY STAR

®

by meeting strict

energy efficiency guidelines set by
Natural Resources Canada and
the US EPA. They meet ENERGY
STAR requirements only when
used in Canada.

Energy Star Canada:

All units in this document meet Energy Star Tier 2

reguirements in Canada except HRVXXLVU1330

reguirements in Canada except HRVXXLVU1

and ERVXXLHB1200

 

Climate Map for Energy and Heat Recovery Ventilators

ERV Recommended w/HRV or ERV Wall Control

ERV Recommended

HRV Recommended

Honolulu

Sacramento

Salt Lake

City

Boise

Salem

Vancouver

Helena

Edmonton

Calgary

Regina

Winnipeg

Bismark

Topeka

Denver

Oklahoma City

Austin

Baton Rouge

Orlando

Atlanta

Columbia

Raleigh

Washington D.C.

Nashville

Indianapolis

Springfield

Chicago

Des Moines

Minneapolis

Green Bay

Milwaukee

Detroit

Madison

Harrisburg

Hartford

Boston

Syracuse

Montreal

Ottawa

Timmins

A00099

 


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3

ERVXXSVB1100, HRVXXSVB1100

2½”

(64 mm)

16¼”

(413 mm)

4’’ (102 mm)

6’’ (152 mm)

12   

16

(310 mm)

3

23¾” (603 mm)

22   

16

” (574 mm)

 9

19    

16

(503 mm)

 13

A

LL PORTS FIT

5

DIAMETER DUCTS

1

: F

RESH AIR TO BUILDING PORT

2

: E

XHAUST AIR FROM BUILDING PORT

3

: F

RESH AIR FROM OUTSIDE PORT

4

: E

XHAUST AIR TO OUTSIDE PORT

3

4

2

1

A12327

PHYSICAL & ELECTRICAL DATA

MODEL

CAPACITY (LO---HI)

PORT

LOC.

CORE

WEIGHT

LBS. [KG]

VOLTAGE

MAX

POWER

WATTS

MAX

AMPS

CFM

L/S

TYPE

AIR FLOW

ERVXXSVB1100

35 --- 105

17 --- 50

Top

Enthalpic

transfer media Cross Flow

45 [20]

115/60/1

104

1.0

HRVXXSVB1100

35 --- 105

17 --- 50

Top

Polypropylene Cross Flow

42 [19]

115/60/1

100

0.85

DEFROST OPERATION

MODEL

OUTSIDE TEMPERATURE

DEFROST CYCLE (MIN.)

_

C

_

F

Defrosting

Operation Time Between

Each Defrost Cycle

ERVXXSVB1100

---5 to ---27

23 to ---17

9

28

Below ---27

Below ---17

10

22

HRVXXSVB1100

---5 to ---27

23 to ---17

8

25

Below ---27

Below ---17

10

22

HVI RATED ENERGY PERFORMANCE

MODEL

MODE

SUPPLY

TEMP

NET

AIR FLOW

POWER

CONSUMED

(WATTS)

SENSIBLE

RECOVERY

EFFICIENCY

APPARENT

SENSIBLE

EFFECTIVE-

NESS

LATENT

RECOVERY

MOISTURE

TRANSFER

TOTAL

RECOVERY

EFFICIENCY

_

C

_

F

L/S

CFM

ERVXXSVB1100 Heat

0

32

23

49

42

67

79

0.61

0

32

30

64

60

65

75

0.55

0

32

40

84

72

63

71

0.48

---25

---13

21

45

58

60

75

0.60

Cool

35

95

21

44

42

50

HRVXXSVB1100 Heat

0

32

23

50

43

65

74

0.01

0

32

30

64

58

62

70

0.01

0

32

39

83

70

59

66

0.01

---25

---13

21

45

56

60

78

0.01

Cool

35

95

VENTILATION PERFORMANCE

MODEL

EXT. STATIC

PRESSURE

NET SUPPLY AIR

FLOW

GROSS AIR FLOW

SUPPLY

EXHAUST

Pa

In w.g.

L/S

CFM

L/S

CFM

L/S

CFM

ERVXXSVB1100

25

0.1

54

115

55

117

55

117

50

0.2

53

112

54

115

54

114

100

0.4

49

105

50

106

50

106

200

0.8

42

89

43

92

42

88

250

1.0

38

81

39

82

38

81

HRVXXSVB1100

25

0.1

53

111

53

112

57

120

50

0.2

51

107

51

108

54

114

100

0.4

46

98

47

99

49

105

200

0.8

37

79

38

80

40

85

250

1.0

34

71

34

72

36

76

NOTE

:

For additional data points, refer to HVI Directory at www.hvi.org

 


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4

ERVXXSHB1100, HRVXXSHB1100

4” (102 mm)

6”

(152 mm)

2” (51 mm)

13¾”

(349 mm)

22   /

16

” (574 mm)

27  /

16

” (688 mm)

1

9

19    /

16

” (503 mm)

13

12   /

16

(310 mm)

3

A

LL PORTS FIT

5

DIAMETER DUCTS

1

2

3

4

1

: F

RESH AIR TO BUILDING PORT

2

: E

XHAUST AIR FROM BUILDING PORT

3

: F

RESH AIR FROM OUTSIDE PORT

4

: E

XHAUST AIR TO OUTSIDE PORT

A12328

PHYSICAL & ELECTRICAL DATA

MODEL

CAPACITY (LO---HI)

PORT

LOC.

CORE

WEIGHT

LBS. [KG]

VOLTAGE

MAX

POWER

WATTS

MAX

AMPS

CFM

L/S

TYPE

AIR FLOW

ERVXXSHB1100

35 --- 105

17 --- 50

Ends

Enthalpic

transfer media Cross Flow

45 [20]

115/60/1

104

1.0

HRVXXSHB1100

35 --- 105

17 --- 50

Ends

Polypropylene Cross Flow

42 [19]

115/60/1

100

0.85

DEFROST OPERATION

MODEL

OUTSIDE TEMPERATURE

DEFROST CYCLE (MINUTES)

_

C

_

F

Defrosting

Operation Time Between

Each Defrost Cycle

ERVXXSHB1100

---5 to ---27

23 to ---17

9

28

Below ---27

Below ---17

10

22

HRVXXSHB1100

---5 to ---27

23 to ---17

8

25

Below ---27

Below ---17

10

22

HVI RATED ENERGY PERFORMANCE

MODEL

MODE

SUPPLY

TEMP

NET AIR

FLOW

POWER

CONSUMED

(WATTS)

SENSIBLE

RECOVERY

EFFICIENCY

APPARENT

SENSIBLE

EFFECTIVE-

NESS

LATENT

RECOVERY

MOISTURE

TRANSFER

TOTAL

RECOVERY

EFFICIENCY

_

C

_

F

L/S CFM

ERVXXCSHB1100

Heat

0

32

23

49

42

67

79

0.61

0

32

30

64

60

65

75

0.55

0

32

40

84

72

63

71

0.48

---25

---13

21

45

58

60

75

0.60

Cool

35

95

21

44

42

50

HRVXXSHB1100

Heat

0

32

23

50

43

65

74

0.01

0

32

30

64

58

62

70

0.01

0

32

39

83

70

59

66

0.01

---25

---13

21

45

56

60

78

0.01

Cool

35

95

VENTILATION PERFORMANCE

MODEL

EXT. STATIC

PRESSURE

NET SUPPLY AIR

FLOW

GROSS AIR FLOW

SUPPLY

EXHAUST

Pa

In w.g.

L/S

CFM

L/S

CFM

L/S

CFM

ERVXXSHB1100

25

0.1

54

115

55

117

55

117

50

0.2

53

112

54

115

54

114

100

0.4

49

105

50

106

50

106

200

0.8

42

89

43

92

42

88

250

1.0

38

81

39

82

38

81

HRVXXSHB1100

25

0.1

53

111

53

112

57

120

50

0.2

51

107

51

108

54

114

100

0.4

46

98

47

99

49

105

200

0.8

37

79

38

80

40

85

250

1.0

34

71

34

72

36

76

NOTE

:

For additional data points, refer to HVI Directory at www.hvi.org

 


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5

ERVXXLHB1200, HRVXXLHB1150, HRVXXLHB1250

17”

(432 mm)

17¼” (438 mm)

6”

(152 mm)

30¼” (768 mm)

35” (891 mm)

17”

(432 mm)

17¼” (438 mm)

6”

(152 mm)

34” (864 mm)

39” (991 mm)

ERV

HRV

1

2

3

4

1

2

3

4

1. Fresh air to house.
2. Exhaust air from house.
3. Fresh air from outside.
4. Exhaust air to outside.

A12341

PHYSICAL & ELECTRICAL DATA

MODEL

CAPACITY (LO---HI)

PORT

LOC.

CORE

WEIGHT

LBS. [KG]

VOLTAGE

MAX

POWER

WATTS

MAX

AMPS

CFM

L/S

TYPE

AIR FLOW

ERVXXLHB1200

80 --- 198

38 --- 93

Ends

Enthalpic

transfer media Cross flow

76 [35]

115/60/1

200

2.1

HRVXXLHB1150

66 --- 163

31 --- 77

Ends

Polypropylene Cross flow

65 [30]

115/60/1

160

1.5

HRVXXLHB1250

82 --- 204

39 --- 96

Ends

Polypropylene Cross flow

65 [30]

115/60/1

195

2.1

DEFROST OPERATION

MODEL

OUTSIDE TEMPERATURE

DEFROST CYCLE (MIN.)

EXTENDED DEFROST CYCLES

(MIN.)

_

C

_

F

Defrosting

Operation Time

Between Each

Defrost Cycle

Defrosting

Operation Time

Between Each

Defrost Cycle

ERVXXLHB1200

---5

23

10

60

10

30

---15

5

10

30

10

20

---27

---17

10

20

10

15

HRVXXLHB1150

---5

23

7

50

10

30

---15

5

7

25

10

20

---27

---17

10

20

10

15

HRVXXLHB1250

---5

23

6

50

10

30

---15

5

6

25

10

20

---27

---17

10

20

10

15

 


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6

ERVXXLHB1200, HRVXXLHB1150, HRVXXLHB1250 (cont.)

HVI RATED ENERGY PERFORMANCE

MODEL

MODE

SUPPLY

TEMP

NET AIR

FLOW

POWER

CONSUMED

(WATTS)

SENSIBLE

RECOVERY

EFFICIENCY

APPARENT

SENSIBLE

EFFECTIVE-

NESS

LATENT

RECOVERY

MOISTURE

TRANSFER

TOTAL

RECOVERY

EFFICIENCY

_

C

_

F

L/S CFM

ERVXXLHB1200

Heat

0

32

39

80

84

60

72

0.60

0

32

54

114

113

58

69

0.53

0

32

79

167

169

56

66

0.45

---25

---13

31

65

116

41

86

0.47

Cool

35

95

39

82

81

52

HRVXXLHB1150

Heat

0

32

31

66

67

67

79

0

0

32

40

86

74

65

75

0

0

32

54

115

90

61

70

0

---25

---13

38

81

87

60

76

0.02

Cool

35

95

HRVXXLHB1250

Heat

0

32

39

82

71

65

75

0.01

0

32

61

130

129

60

69

0.01

---25

---13

40

84

114

60

76

0.03

Cool

35

95

VENTILATION PERFORMANCE

MODEL

EXT. STATIC

PRESSURE

NET SUPPLY AIR

FLOW

GROSS AIR FLOW

SUPPLY

EXHAUST

Pa

In w.g.

L/S

CFM

L/S

CFM

L/S

CFM

ERVXXLHB1200

25

0.1

105

222

106

225

106

225

75

0.3

93

198

94

200

100

212

100

0.4

86

183

88

186

93

198

150

0.6

70

148

71

150

75

158

200

0.8

50

107

51

108

29

61

HRVXXLHB1150

25

0.1

85

180

86

182

92

194

75

0.3

77

163

77

164

81

171

100

0.4

71

150

71

151

71

151

150

0.6

60

128

61

130

40

85

175

0.7

51

108

52

110

27

57

HRVXXLHB1250

25

0.1

106

225

107

227

118

249

75

0.3

96

204

97

205

111

235

100

0.4

90

192

91

193

107

226

150

0.6

76

161

76

162

89

189

175

0.7

67

142

67

143

75

159

NOTE

:

For additional data points, refer to HVI Directory at www.hvi.org

 


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7

HRVXXSVU1157

24 

9

/

16

(624 mm)

22 ½”

(572 mm)

14 

1

/

16

(358 mm)

14 

15

/

16

(380 mm)

18 ¼”

(464 mm)

2 ¹/

16

(53 mm)

23 

9

/

16

(599 mm)

13

/

16

(97 mm)

7

/

16

(189 mm)

NOTE: Every port fits 6” round duct.

1

: E

XHAUST AIR TO OUTSIDE

2

: F

RESH AIR FROM OUTSIDE

3

: E

XHAUST AIR FROM BUILDING

4

: F

RESH AIR TO BUILDING

3

4

2

1

P

OWER

CORD

3’

A12331

PHYSICAL & ELECTRICAL DATA

MODEL

CAPACITY (LO---HI)

PORT

LOC.

CORE

WEIGHT

LBS. [KG]

VOLTAGE

MAX

POWER

WATTS

MAX

AMPS

CFM

L/S

TYPE

AIR FLOW

HRVXXSVU1157

67 --- 170

32 --- 80

Top

Polypropylene Cross flow

56 [25]

115/60/1

125

1.0

DEFROST OPERATION

MODEL

OUTSIDE TEMPERATURE

DEFROST CYCLE (MINUTES

_

C

_

F

Defrosting

Exchange

HRVXXSVU1157

---5 to ---15

23 to 55

7

25

---16 to ---27

4 to ---17

7

25

Below ---27

Below ---17

10

22

HVI RATED ENERGY PERFORMANCE

MODEL

MODE

SUPPLY

TEMP

NET AIR

FLOW

POWER

CONSUMED

(WATTS)

SENSIBLE

RECOVERY

EFFICIENCY

APPARENT

SENSIBLE

EFFECTIVE-

NESS

LATENT

RECOVERY

MOISTURE

TRANSFER

_

C

_

F

L/S CFM

HRVXXSVU1157

Heat

0

32

32

67

56

70

78

0.00

0

32

40

86

64

68

75

0.01

0

32

56

120

86

64

70

0.01

---25

---13

30

63

79

61

83

0.01

VENTILATION PERFORMANCE

MODEL

EXT. STATIC PRESSURE

NET SUPPLY AIR FLOW

GROSS AIR FLOW

Supply

Exhaust

Pa

In w.g.

L/S

CFM

L/S

CFM

L/S

CFM

HRVXXSVU1157

25

0.1

91

193

92

195

91

194

75

0.3

80

170

81

171

80

169

100

0.4

74

157

74

158

74

157

150

0.6

62

132

62

133

63

133

200

0.8

47

101

48

101

49

104

 


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8

HRVXXLVU1330

17 

9/16

[446.9]

3/ 4

[120.6]

1/8

″  

DIA

[206.4]

2 PLCS 

13/16

[147.6]

7/8

″ 

DIA

[148.2] 
2 PLCS

15/16

[176.2]

1/8

[181.0]

18 

5/16

[465.1]

3/16

″ 

[55.6] 

2 PLCS

12 

3/4

[323.9]

23 

15/16

[608.0]

43

(1092.2)

19 

1/16

[484.2]

3/16

[208.0]

3/16

[182.6]

DRAIN

11/16

DIA.

[17.5]
2 PLCS

24 

1/16

[611.2]

1/2

[38.1] 

2 PLCS

22 

3/8

[568.3]

41

[1041.4]

1

 ″ [

25.4]

2 PLCS

15 

1/2

[393.7]

3

1

2

4

NOTES:

1. FRESH AIR FROM OUTSIDE TO HRV

2. FRESH AIR FROM HRV TO HOUSE

3. STALE AIR FROM HOUSE TO HRV

4. STALE AIR FROM HRV TO OUTSIDE

WALL 
CONTROL
WIRING

3/8

 DIA

[9.5]

POWER 
CORD

A12332

PHYSICAL & ELECTRICAL DATA

MODEL

CAPACITY (LO---HI)

PORT

LOC.

CORE

WEIGHT

LBS. [KG]

VOLTAGE

MAX

POWER

WATTS

MAX

AMPS

CFM

L/S

TYPE

AIR FLOW

HRVXXLVU1330

300 --- 334 142 --- 158

Top

Polypropylene Cross flow

145 [66]

115/60/1

500

5.4

DEFROST OPERATION

MODEL

OUTSIDE TEMPERATURE

DEFROST CYCLE (MINUTES

_

C

_

F

Defrosting

Exchange

HRVXXLVU1330

---5 to ---15

23 to 55

6

60

---16 to ---27

4 to ---17

6

32

Below ---27

Below ---17

6

20

HVI RATED ENERGY PERFORMANCE

MODEL

MODE

SUPPLY

TEMP

NET AIR FLOW

POWER

CONSUMED

(WATTS)

SENSIBLE

RECOVERY

EFFICIENCY

APPARENT

SENSIBLE

EFFECTIVE-

NESS

LATENT

RECOVERY

MOISTURE

TRANSFER

_

C

_

F

L/S

CFM

HRVXXLVU1330

Heat

0

32

55

117

219

80

94

---0.07

0

32

86

183

290

74

86

0.02

0

32

117

249

436

70

83

---0.01

---25

---13

115

117

264

74

89

0.07

VENTILATION PERFORMANCE

MODEL

EXT. STATIC PRESSURE

NET SUPPLY AIR FLOW

GROSS AIR FLOW

Supply

Exhaust

Pa

In w.g.

L/S

CFM

L/S

CFM

L/S

CFM

HRVXXLVU1330

25

0.1

168

357

172

364

148

314

75

0.3

158

334

160

340

132

279

100

0.4

151

321

155

328

126

266

150

0.6

136

288

139

294

109

232

200

0.8

126

246

118

251

93

198

 


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9

METHOD TO SIZE ERVs and HRVs

Ventilator Sizing

Tables 1 and 2 should be used to determine the required airflow for a home. These guidelines are taken from ASHRAE 62.2--2007.

Table 1 – Ventilation Air Requirements, cfm

FLOOR

AREA (ft

2

)

BEDROOMS

0---1

2---3

4---5

6---7

>7

<1500

30

45

60

75

90

1501---3000

45

60

75

90

105

3001---4500

60

75

90

105

120

4501---6000

75

90

105

120

135

6001---7500

90

105

120

135

150

>7500

105

120

135

150

165

Table 2 – Ventilation Air Requirements, L/s

FLOOR

AREA (m

2

)

BEDROOMS

0---1

2---3

4---5

6---7

>7

<139

14

21

28

35

42

139.1---279

21

28

35

42

50

279.1---418

28

35

42

50

57

418.1---557

35

42

50

57

64

557.1---697

42

50

57

64

71

>697

50

57

64

71

78

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.

HEATING LOAD BTUH (APPROXIMATE)

OUTSIDE

TEMPERATURE

HEATING LOAD (BTUH) @ INSIDE DESIGN TEMPERATURE 72

°

F (21

°

C)

HRV

ERV

Deg. C

Deg. F

SVB1100

SHB1100

SVU1157

LHB1150

LHB1250

LVU1330

SVB1100

SHB1100

LHB1200

---32

---25

4778

4778

7690

6636

10603

9990

4071

4071

8143

---29

---20

4531

4531

7090

6294

10057

9310

3861

3861

7723

---26

---15

4285

4285

6520

5952

9510

8650

3983

3983

7967

---23

---10

4039

4039

5970

5610

8964

8000

3759

3759

7509

---21

---5

3800

3800

5440

5268

8417

7380

3525

3525

7051

---18

0

3410

3410

4840

4925

7871

6640

3297

3297

6594

---15

5

3095

3095

4360

4583

7324

6060

3323

3323

6647

---12

10

2795

2795

3900

4241

6777

5500

3215

3215

6430

---9

15

2465

2465

3400

3899

6231

4870

3107

3107

6214

---7

20

2195

2195

3000

3557

5684

4350

2834

2834

5669

---4

25

1935

1935

2610

3215

5138

3850

2562

2562

5124

---1

30

1680

1680

2250

2873

4591

3370

2289

2289

4579

2

35

1425

1425

1880

2531

4045

2870

2017

2017

4034

4

40

1200

1200

1560

2189

3498

2430

1744

1744

3489

COOLING LOAD BTUH (APPROXIMATE)

Outside

Enthalpy

Cooling Load (btuh) @ Inside Design Temperature

72

°

F (21

°

C) and 50% Relative Humidity

HRV

ERV

Btu/lb

SVB1100

SHB1100

SVU1157

LHB1150

LHB1250

LVU1330

SVB1100

SHB1100

LHB1200

30

482

482

990

670

1071

1390

320

320

640

31

785

785

1650

1090

1741

2310

520

520

1040

32

1086

1086

2310

1509

2411

3240

720

720

1441

33

1388

1388

2970

1928

3080

4170

920

920

1841

34

1690

1690

3630

2347

3750

5090

1120

1120

2241

35

1992

1992

4290

2766

4419

6020

1320

1320

2641

36

2293

2293

4950

3185

5089

6940

1520

1520

3041

37

2595

2595

5610

3604

5759

7870

1720

1720

3441

38

2897

2897

6270

4023

6428

8790

1921

1921

3842

39

3198

3198

6930

4442

7098

9720

2121

2121

4242

40

3478

3478

7590

4831

7767

10650

2321

2321

4642

41

3802

3802

8250

5280

8437

11570

2521

2521

5042

42

4103

4103

8910

5699

9107

12500

2721

2721

5442

HEATING LOAD BTUH

The heating load chart shows the heating loads in Btuh for a range

of winter design temperatures for each model of ventilator.

COOLING LOAD BTUH

The cooling load chart shows loads in Btuh as well. To use the

cooling load chart, first find the design enthalpy from a

psychrometric chart using the design dry bulb and wet bulb
temperatures. The cooling load can then be found for a range of

enthalpies for each ventilator.

 


background image

10

Ventilator installed with forced air system

A99297

Ventilator installed with independent air distribution

A99298

 


background image

11

BR

Y

ANT

VENTI

L

A

T

OR

CONTROLS

COMP

A

T

IB

IL

IT

Y

M

A

T

RI

X

C

o

n

tro

l

Na

m

e

O

ne-

T

ouc

h

E

c

ono (

B

a

s

ic

)

S

tandar

d (

H

R

V

)

S

tandar

d Lat

ent

 

(ER

V

)

A

u

to

60 m

in.

 C

rank

 T

im

e

r

20 m

in.

 P

u

s

h

 B

u

tt

on

Bry

a

n

t Pa

rt

 #

K

V

B

C

N

0

101B

LT

K

V

B

C

N

0101B

B

S

K

V

B

C

N

0101B

S

T

K

V

A

C

N

0

101B

LC

K

V

B

C

N

0

101B

A

U

K

V

A

T

M

0

10160M

K

V

A

T

M

0

10120B

M

ain f

e

at

ur

es

O

F

F

-mi

n

-ma

x

-

int

er

m

it

tent

- light

ed 

but

to

n

O

F

F

-mi

n

-ma

x

O

F

F

-m

in-

int

er

m

it

tent

-

dehum

idis

ta

t

O

F

F

-m

in-

int

er

m

it

tent

-

dehum

idis

ta

t

O

F

F

-re

c

irc

-m

a

x

-

in

te

rm

it

te

n

t-

 

dehum

idis

ta

t

A

llow

s

 up t

o

 60 m

in 

of

 high s

p

eed

20-

m

in high s

p

eed 

light

ed pus

h-

but

to

n

O

ff

,

O

ff

O

ff

O

ff

O

ff

O

v

er

ri

des

 m

a

in

O

v

er

rides

 m

ain

In

te

rm

it

te

nt

 (

20 m

in.

 

Low

 c

ont

inuous

Low

 c

ont

inuous

Low

 c

ont

inuous

,

Low

 c

o

nt

inuous

w

a

ll c

o

nt

ro

l.

 V

e

nt

.

w

all c

ont

rol.

 V

ent

.

low

, 40 m

in.

 of

f)

,

H

igh c

ont

inuous

.

In

te

rm

it

tent

,

Int

er

m

it

tent

,

20 m

in.

 on /

 

w

ill oper

a

te

 in high

w

ill oper

at

e in high

Low

 c

ont

inuous

,

N

o hum

idis

ta

t.

H

igh s

p

eeed w

h

en

H

igh s

p

eeed w

h

en

40 m

in.

 of

f.

 

fo

r s

e

lec

te

d

for

 20 m

inut

es

M

o

des

H

igh c

ont

inuous

hum

idit

y

 is

hum

idit

y

 is

R

e

c

ir

c

ulat

ion.

num

b

er

 of

 m

inut

e

s

.

unles

s

 but

ton is

 

ab

ov

e

 s

e

tp

oint

be

low

 s

e

tp

oint

D

ehum

idis

tat

 t

u

rn

s

U

p t

o

 5 s

e

c

o

ndar

y

pr

es

s

e

d bef

or

e

unit

 on high if

 

c

ont

ro

ls

 m

a

y

 be

20 m

inut

e

s

 ex

pir

es

hum

idit

y

 lev

els

 r

is

e

c

onnec

ted t

o

 a 

then t

u

rn

s

 unit

 of

f.

 

abov

e s

e

t lev

el.

s

ingle v

e

nt

ilat

or

.

U

p t

o

 5 s

e

c

ondar

y

N

o

 hum

idis

ta

t

c

ont

rols

 m

a

y

 be 

c

o

nnec

te

d t

o

 a 

s

ingle v

e

nt

ilat

or

.

ER

VX

X

S

H

B

1

1

0

0

ER

VX

X

SVB1

1

0

0

●●

HRV

X

X

S

HB

1

1

0

0

HRV

X

X

S

V

B

1

1

0

0

●●

H

R

V

X

X

S

V

U

1157

●●●

E

R

V

X

X

L

H

B

1200

●●

HRV

X

X

L

HB

1

1

5

0

●●●

●●

HRV

X

X

L

HB

1

2

5

0

●●●

●●

H

R

V

X

X

L

V

U

1330

●●●

●●

Main

 C

on

tr

ols

Aux

ili

ar

y C

ont

ro

ls

A

12366

 


background image

12

ACCESSORIES

VENTILATOR ACCESSORY NUMBER NOMENCLATURE

1

2

3

4

5

6

7

8

9

10

11

12

K

V

B

C

N

0

1

0

1

B

B

S

Product

Control Description

BAU -- Bryant Automatic Control

KV -- Ventilator Accessory Kit

BBS -- Bryant Basic Control
BLC -- Bryant Latent Control
BLT -- Bryant OneTouch Control

Series

BST -- Bryant Standard Control

A -- Original Series
B -- Second Series

Accessory Description

HOD -- Intake Hood

Type

KIT -- Airflow Measuring Kit

AC01 -- Accessory

6FM -- Flow Collar 6--in.

CN01 -- Control

7FM -- Flow Collar 7--in.

TM01 -- Timer

8FM -- Flow Collar 8--in.

AC01 -- Accessory

Timer Description

Package Quantity

120B -- 20 Minute Timer Kit

01 -- Single Pack

160M -- 60 Minute Timer Kit

KIT NUMBER

DESCRIPTION

WHERE USED

KVBCN0101BAU

Automatic Wall Control

Used with HRVs

KVBCN0101BBS

Basic Wall Control

Used with HRVs

KVBCN0101BLC

Latent Wall Control

Used with ERVs

KVBCN0101BLT

Bryant OneTouch Control

Used with ERVs and HRVs as a main wall control

KVBCN0101BST

Standard HRV Control

Used with HRVs

KVAAC0101HOD

Exterior Intake and Exhaust Hood

Used with ERVs and HRVs, 2 Required

KVBAC0101KIT

Airflow Measuring Kit

Start up Balancing Kit, includes (2) 6 in. Flow Meter Collars & Magnehelic Gauge

KVATM010120C

20 Minute Push Button Timer

Used with ERVs and HRVs when 20 minute manual operation is required

KVATM010160M

60 Minute Timer

Used with ERVs and HRVs, time is adjustable between 10 and 60 minutes

KVAAC01016FM

6 in. Flow Meter Collar

Used with ERVs and HRVs, at start up, when 6 in. duct work is connected to HRV

KVAAC01017FM

7 in. Flow Meter Collar

Used with ERVs and HRVs, at start up, when 7 in. duct work is connected to HRV

KVAAC01018FM

8 in. Flow Meter Collar

Used with ERVs and HRVs, at start up, when 8 in. duct work is connected to HRV

 


background image

13

PSYCHOMETRIC CHART

.025

.024

.023

.022

.021

.020

.019

.018

.017

.016

.015

.014

.013

.012

.95

.90

.85

.80

.75

.70

.65

.60

.55

.50

.45

.40

.35

.011

.010

.009

.008

.007

.006

.005

.004

.003

.002

.001

0

Sensible

heat

factor

P

o

unds of moisture

per pound of dry air

7

8

9

10

11

12

32

33

34

35

36

37

38

39

40

41

42

43

44

45

47

48

49

46

27

28

29

30

31

19

20

21

22

23

24

25

26

12

13

14

15

16

17

18

W

e

t Bulb,

Dewpoint or Saturation Te

mperature F

Dry Bulb Te

mperature F

20

Below 32ûF

, properties and enthalpy deviation lines are for ice.

25

25

30

35

40

45

50

55

60

65

70

75

80

30

35

40

85

90

95

100

105

180

170

160

150

140

130

120

110

100

90

80

70

60

50

40

30

20

10

0

45

50

55

60

65

70

75

80

85

90

95

100

105

110

Enthalpy at saturation, Btu per pound of dry air

Grains of moisture

per pound of dry air

14.0 cu ft

14.5 cu ft per pound of dry air

13.5 cu ft

13.0 cu ft

12.5 cu ft

90% Relative Humidity

80%

70%

60%

50%

40%

30%

20%

10%

-.02 BTU

-.01 BTU

-.02 Btu

-.04 Btu

-.06 Btu

-.08 Btu

+0.1 Btu

+0.2 Btu

+0.3 Btu

+0.4 Btu

+0.5 Btu

80%

60%

40%

20%

 Btu per pound of dry air  -0.3 Btu

Enthalpy deviation

A98394

 


background image

14

Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations.

E

2012 Bryant Heating & Cooling Systems

D

7310 W. Morris St.

D

Indianapolis, IN 46231

Edition Date: 07/12

Replaces: NEW

Catalog No. PDSERVHRV---02