Full Text Searchable PDF User Manual
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
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
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
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
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
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
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)
3
13
/
16
”
(97 mm)
7
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
8
HRVXXLVU1330
17
9/16
″
[446.9]
4
3/ 4
″
[120.6]
8
1/8
″
DIA
[206.4]
2 PLCS
5
13/16
″
[147.6]
5
7/8
″
DIA
[148.2]
2 PLCS
6
15/16
″
[176.2]
7
1/8
″
[181.0]
18
5/16
″
[465.1]
2
3/16
″
[55.6]
2 PLCS
12
3/4
″
[323.9]
23
15/16
″
[608.0]
43
″
(1092.2)
19
1/16
″
[484.2]
8
3/16
″
[208.0]
7
3/16
″
[182.6]
DRAIN
11/16
″
DIA.
[17.5]
2 PLCS
24
1/16
″
[611.2]
1
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
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.
10
Ventilator installed with forced air system
A99297
Ventilator installed with independent air distribution
A99298
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
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
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
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