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Commercial Piping DiagramWinter 2020
*For proper formatting, download to computer and
view in Adobe Acrobat*
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Disclaimer:These piping diagrams are an example of possible configurations which may not work in all applications. Local codes and authorities should be always be verified with a qualified engineer’s consultation on all installation details including piping schematics. Please consult Patterson-Kelley, LLC Boiler & Water-Heater Owner’s Manuals for correct operational standards for all P-K boilers and water-heaters. Patterson-Kelley LLC cannot, and will not, be held liable for any lack of due diligence of any party involved in the installation of its products.
Section 1; Starting on Page 2: Hybrid Piping System Boilers
Section 2; Starting on Page 6: Primary Piping System Boilers
Section 3; Starting on Page 10: Primary Secondary Piping System Boilers
Section 4; Starting on Page 20: Primary Condensing System Water Heater (Direct Fired)
Section 5; Starting on Page 29: Primary Non-Condensing System Water Heater (Direct Fired)
Section 6; Starting on Page 33: Product Specific: HiDRA, Mach ‘n’ Roll, Compact, Duration III
Table of Contents:
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Flow Meter
Primary
HYDRONIC SYSTEM
PIPING
TT-3
T
T-3
From System
To SystemHouse Pumps
Primary loop diagram
T-3
PK
Co
nd
en
sin
g B
oile
r
Boiler Temperature Sensors to control Boiler Firing Rate
Header Temperature and OA Reset
Schedule to Control staging
Condensate
Notes:
1. Minimum pipe size to boiler equal to boiler supply/return connection size.
2. Return/supply header piping to be at least one pipesize larger than piping to equipment
3. Bypass loop recommended on primary-onlysystems to decrease heat exchanger wear during
boiler off times4. 2 way control valves necessary on primary andbypass loops, can be operated by boiler controls
System fill
3
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Flow Meter
Primary
HYDRONIC SYSTEM
PIPING
TT-3
T
T-3
From System
To SystemHouse Pumps
Primary loop diagram
Boiler Temperature Sensors to control Boiler Firing Rate
Header Temperature and OA Reset
Schedule to Control staging
Patterson-Kelley
1200 Thermific
Notes:
1. Minimum pipe size to boiler equal to boiler supply/return connection size.
2. Return/supply header piping to be at least one pipesize larger than piping to equipment
3. Bypass loop recommended on primary-onlysystems to decrease heat exchanger wear during
boiler off times4. 2 way control valves necessary on primary andbypass loops, can be operated by boiler controls
System fill
4
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Flow Meter
Primary
HYDRONIC SYSTEM
PIPING
TT-3
T
T-3
From System
Primary loop diagram
PK
Co
nd
en
sin
g B
oile
r
Boiler Temperature Sensors to control Boiler Firing Rate
Header Temperature and OA Reset
Schedule to Control staging
Condensate
PK
Co
nd
en
sin
g B
oile
r
Notes:
1. Minimum pipe size to boiler equal to boiler supply/return connection size.
2. Return/supply header piping to be at least one pipe size larger than piping to equipment
3. Bypass loop recommended on primary-only systems to decrease heat exchanger wear during
boiler off times4. 2 way control valves necessary on primary and bypass loops, can be operated by boiler controls
To SystemHouse Pumps
System fill
5
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Primary
HYDRONIC SYSTEM
PIPING
TT-3
T
T-3
From System
Primary loop diagram
T-3
Boiler Temperature Sensors to control Boiler Firing Rate
Header Temperature and OA Reset
Schedule to Control staging
Patterson-Kelley
1200 Thermific
Patterson-Kelley
1200 Thermific Notes:
1. Minimum pipe size to boiler equal to boiler supply/return connection size.
2. Return/supply header piping to be at least one pipe size larger than piping to equipment
3. Bypass loop recommended on primary-only systems to decrease heat exchanger wear during
boiler off times4. 2 way control valves necessary on primary and bypass loops, can be operated by boiler controls
To SystemHouse Pumps
System fill
6
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Flow Meter
Primary
HYDRONIC SYSTEM
PIPING
TT-3
T
T-3
From System
Primary loop diagram
T-3
PK
Co
nd
en
sin
g B
oile
r
Boiler Temperature Sensors to control Boiler Firing Rate
Header Temperature and OA Reset
Schedule to Control staging
Condensate
PK
Co
nd
en
sin
g B
oile
r
PK
Co
nd
en
sin
g B
oile
r
Notes:
1. Minimum pipe size to boiler equal to boiler supply/return connection size.
2. Return/supply header piping to be at least one pipe size larger than piping to equipment
3. Bypass loop recommended on primary-only systems to decrease heat exchanger wear during
boiler off times4. 2 way control valves necessary on primary and bypass loops, can be operated by boiler controls
To SystemHouse Pumps
System fill
7
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Primary
HYDRONIC SYSTEM
PIPING
TT-3
T
T-3
From System
To SystemHouse Pumps
Primary loop diagram
Boiler Temperature Sensors to control Boiler Firing Rate
Header Temperature and OA Reset
Schedule to Control staging
Patterson-Kelley
1200 Thermific
Patterson-Kelley
1200 Thermific
Patterson-Kelley
1200 Thermific
Notes:
1. Minimum pipe size to boiler equal to boiler supply/return connection size.
2. Return/supply header piping to be at least one pipe size larger than piping to equipment
3. Bypass loop recommended on primary-only systems to decrease heat exchanger wear during
boiler off times4. 2 way control valves necessary on primary and bypass loops, can be operated by boiler controls
System fill
8
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Flow Meter
Primary/Secondary
HYDRONIC SYSTEM
PIPING
TT-3
T
T-3
From System
To SystemHouse Pumps
Primary/Secondary loop diagram
T-3
PK
Co
nd
en
sin
g B
oile
r
Boiler Temperature Sensors to control Boiler Firing Rate
Header Temperature and OA Reset
Schedule to Control staging
Condensate
Notes:1. Header piping should be one pipe size larger than
direct boiler piping2. Primary Header should be 4" piping
3. Distance between 1st and 2nd tee should be no more than 4 pipe diameters
System fill
9
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Primary/Secondary
HYDRONIC SYSTEM
PIPING
TT-3
T
T-3
From System
To SystemHouse Pumps
Primary/Secondary loop diagram
T-3
Boiler Temperature Sensors to control Boiler Firing Rate
Header Temperature and OA Reset
Schedule to Control staging
Patterson Kelley
Non condensing boiler
Notes:1. Header piping should be one pipe size larger than
direct boiler piping2. Primary Header should be 4" piping
3. Distance between 1st and 2nd tee should be no more than 4 pipe diameters
3 way valve
System fill
T
10
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System fill
Primary/Secondary
HYDRONIC SYSTEM
PIPING
TT-3
PK
Co
nd
en
sin
g B
oile
rT
T-3
From System
To SystemHouse Pumps
Primary/Secondary loop diagram
T-3
PK
Co
nd
en
sin
g B
oile
r
Boiler Temperature Sensors to control Boiler Firing Rate
Header Temperature and OA Reset
Schedule to Control staging
Condensate
Notes:1. Header piping should be one pipe size larger than
direct boiler piping2. Primary Header should be 4" piping
3. Distance between 1st and 2nd tee should be no more than 4 pipe diameters
T
11
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System fill
Primary/Secondary
HYDRONIC SYSTEM
PIPING
TT-3
PK
Co
nd
en
sin
g B
oile
rT
T-3
From System
To SystemHouse Pumps
Primary/Secondary loop diagram
T-3
PK
Co
nd
en
sin
g B
oile
r
Boiler Temperature Sensors to control Boiler Firing Rate
Header Temperature and OA Reset
Schedule to Control staging
Condensate
Notes:1. Header piping should be one pipe size larger than
direct boiler piping2. Primary Header should be 4" piping
3. Distance between 1st and 2nd tee should be nomore than 4 pipe diameters
T
12
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Primary/Secondary
HYDRONIC SYSTEM
PIPING
TT-3
TT
-3
From System
Primary/Secondary loop diagram
T-3
Boiler Temperature Sensors to control Boiler Firing Rate
Header Temperature and OA Reset
Schedule to Control staging
Patterson Kelley
Non condensing boiler
Notes:1. Header piping should be one pipe size larger than
direct boiler piping2. Primary Header should be 4" piping
3. Distance between 1st and 2nd tee should be no more than 4 pipe diameters
3 way valve
Patterson Kelley
Non condensing boiler
System fill
To SystemHouse Pumps
T
13
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Flow Meter
Primary/Secondary
HYDRONIC SYSTEM
PIPING
TT-3
PK
Co
nd
en
sin
g B
oile
rT
T-3
From System
To SystemHouse Pumps
Primary/Secondary loop diagram
T-3
PK
Co
nd
en
sin
g B
oile
r
Boiler Temperature Sensors to control Boiler Firing Rate
Header Temperature and OA Reset
Schedule to Control staging
Condensate
PK
Co
nd
en
sin
g B
oile
r
Notes:1. Header piping should be one pipe size larger than
direct boiler piping2. Primary Header should be 4" piping
3. Distance between 1st and 2nd tee should be nomore than 4 pipe diameters
System fill
14
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Primary/Secondary
HYDRONIC SYSTEM
PIPING
TT-3
T
T-3
From System
Primary/Secondary loop diagram
T-3
Boiler Temperature Sensors to control Boiler Firing Rate
Header Temperature and OA Reset
Schedule to Control staging
Patterson Kelley
Non condensing boiler
Patterson Kelley
Non condensing boiler
Patterson Kelley
Non condensing boiler
Notes:1. Header piping should be one pipe size larger than
direct boiler piping2. Primary Header should be 4" piping
3. Distance between 1st and 2nd tee should be nomore than 4 pipe diameters
3 way valve
System fill
To SystemHouse PumpsT
15
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Hybrid
HYDRONIC SYSTEM
PIPING
TT-3
Patterson-Kelley
Non condensing boiler
PK
Co
nd
en
sin
g B
oile
r
T
T-3
T-4 T
From System
To SystemHouse Pumps
Three Tee Piping allows for pre-heating from Condensing
Boilers to Non-condensing Boilers
T-3
PK
Co
nd
en
sin
g B
oile
r
Notes:1. Header piping should be one pipe size larger than
direct boiler piping2. Primary Header should be 4" piping
3. Distance between 2nd and 3rd tee should be nomore than 4 pipe diameters
Boiler Temperature Sensors to control Boiler Firing Rate
Header Temperature and OA Reset
Schedule to Control staging
Condensate
System fill
T-4 T
T
16
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Flow Meter
Hybrid
HYDRONIC SYSTEM
PIPING
TT-3
Patterson-Kelley
Non condensing boilerPatterson-Kelley
Non condensing boiler
PK
Co
nd
en
sin
g B
oile
r
T
T-3
T-4 T
From System
To SystemHouse Pumps
Three Tee Piping allows for pre-heating from Condensing
Boilers to Non-condensing Boilers
T-3
PK
Co
nd
en
sin
g B
oile
r
Boiler Temperature Sensors to control Boiler Firing Rate
Header Temperature and OA Reset
Schedule to Control staging
Condensate
Notes:1. Header piping should be one pipe size larger than
direct boiler piping2. Primary Header should be 4" piping
3. Distance between 2nd and 3rd tee should be nomore than 4 pipe diameters
System fill
T
T
T-4
17
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Flow Meter
Hybrid
HYDRONIC SYSTEM
PIPING
TT-3
Patterson-Kelley
Non condensing boiler
PK
Co
nd
en
sin
g B
oile
r
T
T-3
T-4T
From System
To SystemHouse Pumps
Three Tee Piping allows for pre-heating from Condensing
Boilers to Non-condensing Boilers
T-3
PK
Co
nd
en
sin
g B
oile
r
Boiler Temperature Sensors to control Boiler Firing Rate
Header Temperature and OA Reset
Schedule to Control staging
Condensate
PK
Co
nd
en
sin
g B
oile
r
Notes:1. Header piping should be one pipe size larger than
direct boiler piping2. Primary Header should be 4" piping
3. Distance between 2nd and 3rd tee should be nomore than 4 pipe diameters
System fill
T
T
T-4
18
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Flow Meter
Hybrid
HYDRONIC SYSTEM
PIPING
TT-3
Patterson-Kelley
Non condensing boilerPatterson-Kelley
Non condensing boiler
PK
Co
nd
en
sin
g B
oile
r
T
T-3
T-4 T
From System
To SystemHouse Pumps
Three Tee Piping allows for pre-heating from Condensing
Boilers to Non-condensing Boilers
T-3
PK
Co
nd
en
sin
g B
oile
r
Boiler Temperature Sensors to control Boiler Firing Rate
Header Temperature and OA Reset
Schedule to Control staging
Condensate
PK
Co
nd
en
sin
g B
oile
r
Patterson-Kelley
Non condensing boilerNotes:
1. Header piping should be one pipe size larger than direct boiler piping
2. Primary Header should be 4" piping3. Distance between 2nd and 3rd tee should be no
more than 4 pipe diameters
System fill
T
T-4
T
19
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Building recirculation
Cold water inlet
Hot water supply to buildingDomestic hot water with 1 condensing boiler and 1 storage tank
T
T
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet
3. Building recirculation (if utilized) should be tied into dedicated recirculation connection on side of HiDRA
4. 12k OHM tank sensor should be used in storage tanks
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Cond
ensing Bo
iler
20
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Building recirculation
Cold water inlet
Hot water supply to building
Hot water supply to building
T
T
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet
3. Building recirculation (if utilized) should be tied into dedicated recirculation connection on side of HiDRA
4. 12k OHM tank sensor should be used in storage tanks
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Domestic hot water with 1 condensing boiler and 2 storage tanks
Cond
ensing Bo
iler
21
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Cold water inlet
Hot water supply to buildingDomestic hot water with 1 condensing boiler and 1 storage tank
T
T
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet
3. Building recirculation (if utilized) should be tied into dedicated recirculation connection on side of HiDRA
4. 12k OHM tank sensor should be used in storage tanks
Co
nd
en
sing
Bo
iler
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
22
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Building recirculation
Cold water inlet
Hot water supply to building
Hot water supply to building
Domestic hot water with 2 condensing boilers and 2 storage tanks
T
TNotes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet
3. Building recirculation (if utilized) should be tied into dedicated recirculation connection on side of HiDRA
4. 12k OHM tank sensor should be used in storage tanks
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Cond
ensing Bo
iler
Cond
ensing Bo
iler
23
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Cold water inlet
Hot water supply to building
Domestic hot water with 2 condensing boiler and 1 storage tank
T
T
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet
3. Building recirculation (if utilized) should be tied into dedicated recirculation connection on side of HiDRA
4. 12k OHM tank sensor should be used in storage tanks
Cond
ensing Bo
iler
Cond
ensing Bo
iler
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
24
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Building recirculation
Cold water inlet
Hot water supply to building
Domestic hot water with 2 condensing boilers and 1 storage tank
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet
3. Building recirculation (if utilized) should be tied into cold water inlet
4. 12k OHM tank sensor should be used in storage tanks
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Cond
ensing Boiler
Cond
ensing Boiler
T
T
25
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Hot water supply to building
Building recirculation
Cold water inlet
Domestic hot water with 2 condensing boilers and 3 storage tanks
Hot water supply to building
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet
3. Building recirculation (if utilized) should be tied into cold water inlet
4. 12k OHM tank sensor should be used in storage tanks
T
T
Hot water supply to building
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Cond
ensing Bo
iler
Cond
ensing Bo
iler
26
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Building recirculation
Cold water inlet
Hot water supply to buildingHot water supply to building
Domestic hot water with 3 condensing boilers and 2 storage tanks
T
T
T
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet
3. Building recirculation (if utilized) should be tied into cold water inlet
4. 12k OHM tank sensor should be used in storage tanks
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Cond
ensing Bo
iler
Cond
ensing Bo
iler
Cond
ensing Bo
iler
27
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Building recirculation
Cold water inlet
Hot water supply to building
Domestic hot water with 4 condensing boilers and 2 storage tanks
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet
3. Building recirculation (if utilized) should be tied into cold water inlet
4. 12k OHM tank sensor should be used in storage tanks
T
T
T
Cond
ensing Boiler
Co
nd
en
sing
Bo
iler
Co
nd
ensin
g Bo
iler
Co
nd
en
sing
Bo
iler
Hot water supply to building
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
28
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Building recirculationCold water inlet
Domestic hot water with 1 non-condensing boiler and 2 storage tanks
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet
3. Building recirculation (if utilized) should be tied into hot water supply
4. 12k OHM tank sensor should be used in storage tanks
T
T
Hot water supply to building Hot water supply to building
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
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Building recirculationCold water inlet
Domestic hot water with 1 non-condensing boiler and 2 storage tanks
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet
3. Building recirculation (if utilized) should be tied into hot water supply
4. 12k OHM tank sensor should be used in storage tanks
T
T
Hot water supply to building Hot water supply to building
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
30
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Building recirculationCold water inlet
Domestic hot water with 1 non-condensing boiler and 2 storage tanks
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet
3. Building recirculation (if utilized) should be tied into hot water supply
4. 12k OHM tank sensor should be used in storage tanks
T
T
Hot water supply to building Hot water supply to building
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
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Building recirculationCold water inlet
Domestic hot water with 1 non-condensing boiler and 2 storage tanks
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet
3. Building recirculation (if utilized) should be tied into hot water supply
4. 12k OHM tank sensor should be used in storage tanks
T
T
Hot water supply to building Hot water supply to building
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
32
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Double HiDRA piping diagram
HiDRA
Building Recirculation
Cold Water inlet
Hot water supplyHot Mixed
HiDRA
Condensate
Refer to mixing valve installation instructions
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet
3. Building recirculation (if utilized) should be tied into dedicated recirculation connection on side of HiDRA
TT
T
T
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
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Double HiDRA with storage tank piping diagram
HiDRA
Building Recirculation
Cold Water inlet
Hot Mixed
HiDRA
Refer to mixing valve installation instructions
Hot water return
Hot water supply
Building supply
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet
3. Building recirculation (if utilized) should be tied into dedicated recirculation connection on side of HiDRA
4. 12k OHM tank sensor should be used in storage tanks
TT
T
T
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
34
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Double HiDRA with storage tank piping diagram
HiDRA
Building Recirculation
Cold Water inlet
Hot Mixed
HiDRA
120 degree supply
140 degree supply
120 degree return
140 degree return
Refer to mixing valve installation instructions
T
T
T
T
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet
3. Building recirculation (if utilized) should be tied into dedicated recirculation connection on side of HiDRA
4. 12k OHM tank sensor should be used in storage tanks
5. Placing a temperature gauge next to a temperature sensor is recommended
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
35
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Double HiDRA with storage tank piping diagram
HiDRA
Building Recirculation
Cold Water inlet
Hot water supply
Hot Mixed
HiDRA
Condensate
Refer to mixing valve installation instructions
TT
T
T
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet
3. Building recirculation (if utilized) should be tied into dedicated recirculation connection on side of HiDRA
4. 12k OHM tank sensor should be used in storage tanks
5. Placing a temperature gauge next to a temperature sensor is recommended
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
36
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Single HiDRA piping diagram
Building Recirculation
Cold Water inlet
Hot water supplyHot Mixed
HiDRA
Condensate
Refer to mixing valve installation instructions
TT
T
T
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet
3. Building recirculation (if utilized) should be tied into dedicated recirculation connection on side of HiDRA
4. Placing a temperature gauge next to a temperature sensor is recommended
37
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Triple HiDRA piping diagram direct return
HiDRA
Building Recirculation
Cold Water inlet
Hot water supply Hot Mixed
HiDRAHiDRA
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
Temp gauge
Refer to mixing valve installation instructions
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet
3. Building recirculation (if utilized) should be tied into dedicated recirculation connection on side of HiDRA
TT
T
38
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Triple HiDRA piping diagram
HiDRA
Building Recirculation
Cold Water inlet
Hot water supplyHot Mixed
HiDRA
Condensate
Refer to mixing valve installation instructions
HiDRA
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet
3. Building recirculation (if utilized) should be tied into dedicated recirculation connection on side of HiDRA
4. Placing a temperature gauge next to a temperature sensor is recommended
TT
T
T
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Triple HiDRA with storage tank piping diagram
HiDRA
Building Recirculation
Cold Water inlet
Hot water supply
Hot Mixed
HiDRA
Condensate
HiDRA
Mixing valve
T
T
T T
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet
3. Building recirculation (if utilized) should be tied into dedicated recirculation connection on side of HiDRA
4. 12k OHM tank sensor should be used in storage tanks
5. Placing a temperature gauge next to a temperature sensor is recommended
40
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Double Mach N Roll with 200 gallon tank piping diagram
Building Recirculation
Cold Water inlet
Hot water supplyHot Mixed
Refer to mixing valve installation instructions
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
Temp gauge
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet
3. Building recirculation (if utilized) should be tied into cold water inlet
4. 12k OHM tank sensor should be used in storage tanks
TT
T
T
41
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Double Mach N Roll with 200 gallon tank piping diagram
Building Recirculation
Cold Water inlet
Hot water supply
Hot Mixed
Refer to mixing valve installation instructions
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
Temp gauge
42
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Tank
Sensor
Hot Water to Building
Cold Water 0
5 8
10 0
5 8
10
Recirculation Pump
BronzeDomestic Pump
Hot Water Outlet
Hi-Limitto drain
PK
Compact
0
3
0
155
1
0
PKPK
03
0
1
5510
Relief Valve to drain
Hot WaterN.C. Bypass
N.C. Bypass
Expansion
Tank
Mixed Hot
Mixing Valve
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. Refer to ASHRAE 90.1 for return water %
5. Bronze domestic pump must be sized for full COMPACT size
6. All COMPACTS must have a section VIII relief valve downstream
Single water to water 2 way valve Compact with 2 storage tanks
T
T
T
0 30
155
10
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gaugeRelief valve
Control valve
43
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Tank
Sensor
Hot Water to Building
Cold Water 0
5 8
10 0
5 8
10
Recirculation Pump
BronzeDomestic Pump
Hot Water Outlet
Hi-Limitto drain
PK
Compact
0
3
0
155
1
0
PKPK
Relief Valve to drain
Hot WaterN.C. Bypass
N.C. Bypass
Expansion
Tank
Mixed Hot
Mixing Valve
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. Refer to ASHRAE 90.1 for return water %
5. Bronze domestic pump must be sized for full COMPACT size
6. All COMPACTS must have a section VIII relief valve downstream
Single water to water 3 way valve Compact with 2 storage tanks
T
T
T
0 30
155
10
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gaugeRelief valve
Control valve
44
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Tank
Sensor
Hot Water to Building
Cold Water 0
5 8
10 0
5 8
10
Recirculation Pump
BronzeDomestic Pump
Hot Water Outlet
Hi-Limitto drain
PK
Compact
0
3
0
155
1
0
PKPK
03
0
1
5510
Steam Supply
Relief Valve to drain
Hot WaterN.C. Bypass
N.C. Bypass
Expansion
Tank
Mixed Hot
Mixing Valve
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. Refer to ASHRAE 90.1 for return water %
5. Bronze domestic pump must be sized for full COMPACT size
6. All COMPACTS must have a section VIII relief valve downstream
Single Compact with 2 storage tanks
T
T
T
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Steam valve
Relief valve
45
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Hot Water
Hi-Limit
to drain
PK
Compact
0 30
155
10
PKPK
0 30
155
10
Steam Supply
Relief Valve
to drain
Single Compact with NY TRIM
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into recirculation on compact
4. Refer to ASHRAE 90.1 for return water %
5. All COMPACTS must have a section VIII relief valve downstream
0
5 8
100
5 8
10
Cold water
Building recirculation
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Steam valve
Relief valve
T
T
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Hot Water
Cold Water
0
5 8
100
5 8
10
N.C. BypassHouse Recirculation
Expansion
Tank
Hot Water
Hi-Limit
to drain
PK
Compact
0 30
155
10
PKPK
0 30
155
10
Steam Supply
Relief Valve
to drain
Single Compact with NY TRIM and Hot water storage tank
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into compact recirculation
4. Refer to ASHRAE 90.1 for return water %
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Steam valve
Relief valve
47
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Single Water to Water with 2 way valve Compact installation
Hi-Limit
to drain
PK
Compact
0 30
155
10
PKPK
0 30
155
10
Relief Valve
to drain
Cold Water
0
5 8
100
5 8
10
House Recirculation
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. Refer to ASHRAE 90.1 for return water %
5. All COMPACTS must have a section VIII relief valve downstream
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gaugeRelief valve
Control valve
48
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Single Water to Water with 3 way valve Compact installation
Hi-Limit
to drain
PK
Compact
0 30
155
10
PKPK
0 30
155
10
Relief Valve
to drain
Cold Water
0
5 8
100
5 8
10
House Recirculation
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. Refer to ASHRAE 90.1 for return water %
5. All COMPACTS must have a section VIII relief valve downstream
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gaugeRelief valve
Control valve
49
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Steam Supply
Single Compact installation
Hi-Limit
to drain
PK
Compact
0 30
155
10
PKPK
0 30
155
10
Steam Supply
Relief Valve
to drain
Cold Water
0
5 8
100
5 8
10
House Recirculation
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. Refer to ASHRAE 90.1 for return water %
5. All COMPACTS must have a section VIII relief valve downstream
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Steam valve
Relief valve
50
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Hot Water
Cold Water
0
5 8
100
5 8
10
N.C. Bypass
House Recirculation
Circulation Pump
(Size for
Full Capacity
of Compact)
N.C. Bypass
Hot Water
Hi-Limit
to drain
PK
Compact
0 30
155
10
PKPK
0 30
155
10
Steam Supply
Relief Valve
to drain
1 Compact with Hot water storage tank
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. Refer to ASHRAE 90.1 for return water %
5. Bronze domestic pump must be sized for full COMPACT size
6. All COMPACTS must have a section VIII relief valve downstream
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Steam valve
Relief valve
51
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Tank
Sensor
Hot Water to Building
Cold Water 0
5 8
10 0
5 8
10
Recirculation Pump
Recirculation Pump
BronzeDomestic Pump
Hot Water Outlet
Hi-Limitto drain
PK
Compact
0
3
0
155
1
0
PKPK
03
0
1
5510
Steam Supply
Relief Valve to drain
Hot WaterN.C. Bypass
N.C. Bypass
Expansion
Tank
Mixed Hot
Mixing Valve
Single Compact with 3 storage tanks
TT
T
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. Refer to ASHRAE 90.1 for return water %
5. Bronze domestic pump must be sized for full COMPACT size
6. All COMPACTS must have a section VIII relief valve downstream
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Steam valve
Relief valve
52
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Tank
Sensor
Hot Water to Building
Cold Water 0
5 8
10 0
5 8
10
Recirculation Pump
Recirculation Pump
BronzeDomestic Pump
Hot Water Outlet
Hi-Limitto drain
PK
Compact
0
3
0
155
1
0
PKPK
03
0
1
5510
Steam Supply
Relief Valve to drain
Hot WaterN.C. Bypass
N.C. Bypass
Mixed Hot
Mixing Valve
2 Compacts with 2 storage tanks
PK
Compact
0
3
0
155
1
0
PKPK
03
0
1
5510
Steam Supply
Relief Valve to drain
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. Refer to ASHRAE 90.1 for return water %
5. Bronze domestic pump must be sized for full COMPACT size
6. All COMPACTS must have a section VIII relief valve downstream
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Steam valve
Relief valve
TT
T
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Tank
Sensor
Hot Water to Building
Cold Water 0
5 8
10 0
5 8
10
Recirculation Pump
Recirculation Pump
BronzeDomestic Pump
Hot Water Outlet
Hi-Limitto drain
PK
Compact
0
3
0
155
1
0
PKPK
03
0
1
5510
Steam Supply
Relief Valve to drain
Hot WaterN.C. Bypass
N.C. Bypass
Mixed Hot
Mixing Valve
2 Compacts with 3 storage tanks
PK
Compact
0
3
0
155
1
0
PKPK
03
0
1
5510
Steam Supply
Relief Valve to drain
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. Refer to ASHRAE 90.1 for return water %
5. Bronze domestic pump must be sized for full COMPACT size
6. All COMPACTS must have a section VIII relief valve downstream
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Steam valve
Relief valve
T T
T
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Hot Water
Cold Water
Hi-Limitto drain
0
5 8
100
5 8
10
N.C. Bypass
House Recirculation
Condensate Return
(Drain by Gravity to
Vented Receiver)
Circulation Pump
(Size for Full Capacity
of Heater)
N.C. Bypass
Steam Supply
PK
Compact
0
30 15
510
PK
PK
0 30
15510 Relief Valve
to drain
PK
Compact
0
30 15
510
PK
PK
0 30
15510
Expansion
Tank
2 Horizontal Compacts and 2 storage tanks
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Steam valve
Relief valve
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. Refer to ASHRAE 90.1 for return water %
5. Bronze domestic pump must be sized for full COMPACT size
6. All COMPACTS must have a section VIII relief valve downstream
T
T
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Hot Water
Cold Water
Hi-Limitto drain
0
5 8
100
5 8
10
N.C. Bypass
House Recirculation
Condensate Return
(Drain by Gravity to
Vented Receiver)
Circulation Pump
(Size for Full Capacity
of Heater)
N.C. Bypass
Steam Supply
PK
Compact
0
30 15
510
PK
PK
0 30
15510 Relief Valve
to drain
PK
Compact
0
30 15
510
PK
PK
0 30
15510
2 Horizontal Compacts and 2 storage tanks
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Steam valve
Relief valve
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. Refer to ASHRAE 90.1 for return water %
5. Bronze domestic pump must be sized for full COMPACT size
6. All COMPACTS must have a section VIII relief valve downstream
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Hot Water
Hi-Limitto drain
Condensate Return
(Drain by Gravity to
Vented Receiver)
Circulation Pump
(Size for Full Capacity
of Heater)
N.C. Bypass
Steam Supply
PK
Compact
0
30 15
510
PK
PK
0 30
15510 Relief Valve
to drain
Hi-Limitto drain
Condensate Return
(Drain by Gravity to
Vented Receiver)
Circulation Pump
(Size for Full Capacity
of Heater)
N.C. Bypass
Steam Supply
PK
Compact
0
30
15
510
PK
PK
030
15 510Relief Valve
to drain
Cold Water
0
5 8
100
5 8
10
House Recirculation
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. 12k ohm tank sensor must be used.
5. Refer to ASHRAE 90.1 for return water %
6. Domestic water side must have a volume of water on supply side.
2 Horizontal Compacts
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Hot Water
Cold Water
N.C. Bypass
Expansion
Tank
Hot Water
Hi-Limit
to drain
PK
Compact
0 30
155
10
PKPK
0 30
155
10
Steam Supply
Hi-Limit
to drain
PK
Compact
0 30
155
10
PKPK
0 30
155
10
Steam Supply
Relief Valve
to drain
Relief Valve
to drain
2 Compacts with NY TRIM and Hot water storage tank
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into COMPACT recirculation
4. Refer to ASHRAE 90.1 for return water %
5. Bronze domestic pump must be sized for full COMPACT size
6. All COMPACTS must have a section VIII relief valve downstream
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Steam valve
Relief valve
0
5 8
100
5 8
10
House Recirculation
T
T
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Hot Water
Cold Water
0
5 8
100
5 8
10
N.C. Bypass
House Recirculation
Circulation Pump
(Size for
Full Capacity
of Compact)
N.C. Bypass
Hot Water
Hi-Limit
to drain
PK
Compact
0 30
155
10
PKPK
0 30
155
10
Steam Supply
Hi-Limit
to drain
PK
Compact
0 30
155
10
PKPK
0 30
155
10
Steam Supply
Relief Valve
to drain
Relief Valve
to drain
2 Compacts with Hot water storage tank
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. Refer to ASHRAE 90.1 for return water %
5. Bronze domestic pump must be sized for full COMPACT size
6. All COMPACTS must have a section VIII relief valve downstream
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Steam valve
Relief valve
T
T
59
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Hot Water
Steam Supply
Hi-Limit
to drain
PK
Compact
0 30
155
10
PKPK
0 30
155
10
Relief Valve
to drain
2 Compacts parallel installation
Hi-Limit
to drain
PK
Compact
0 30
155
10
PKPK
0 30
155
10
Steam Supply
Relief Valve
to drain
Cold Water
0
5 8
100
5 8
10
House Recirculation
T
T
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. Refer to ASHRAE 90.1 for return water %
5. Bronze domestic pump must be sized for full COMPACT size
6. All COMPACTS must have a section VIII relief valve downstream
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Steam valve
Relief valve
60
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Tank
Sensor
Hot Water to Building
Cold Water 0
5 8
10 0
5 8
10
Recirculation Pump
Recirculation Pump
BronzeDomestic Pump
Hot Water Outlet
Hi-Limitto drain
PK
Compact
0
3
0
155
1
0
PKPK
03
0
1
5510
Steam Supply
Relief Valve to drain
Hot WaterN.C. Bypass
N.C. Bypass
Mixed Hot
Mixing Valve
3 Compacts with 2 storage tanks
PK
Compact
0
3
0
155
1
0
PKPK
03
0
1
5510
Steam Supply
Relief Valve to drain
PK
Compact
0
3
0
155
1
0
PKPK
03
0
1
5510
Steam Supply
Relief Valve to drain
TT
T
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. Refer to ASHRAE 90.1 for return water %
5. Bronze domestic pump must be sized for full COMPACT size
6. All COMPACTS must have a section VIII relief valve downstream
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Steam valve
Relief valve
61
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Tank
Sensor
Hot Water to Building
Cold Water 0
5 8
10 0
5 8
10
Recirculation Pump
BronzeDomestic Pump
Hot Water Outlet
Hi-Limitto drain
PK
Compact
0
3
0
155
1
0
PKPK
03
0
1
5510
Steam Supply
Relief Valve to drain
Hot WaterN.C. Bypass
N.C. Bypass
Mixed Hot
Mixing Valve
3 Compacts with 3 storage tanks
PK
Compact
0
3
0
155
1
0
PKPK
03
0
1
5510
Steam Supply
Relief Valve to drain
PK
Compact
0
3
0
155
1
0
PKPK
03
0
1
5510
Steam Supply
Relief Valve to drain
TT
T
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. Refer to ASHRAE 90.1 for return water %
5. Bronze domestic pump must be sized for full COMPACT size
6. All COMPACTS must have a section VIII relief valve downstream
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Steam valve
Relief valve
62
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Hot Water
Cold Water
0
5 8
100
5 8
10
N.C. Bypass
House Recirculation
Expansion
Tank
Hot Water
Hi-Limit
to drain
PK
Compact
0 30
155
10
PKPK
0 30
155
10
Steam Supply
Hi-Limit
to drain
PK
Compact
0 30
155
10
PKPK
0 30
155
10
Steam Supply
Relief Valve
to drain
Relief Valve
to drain
3 Compacts with NY TRIM and Hot water storage tank
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. 12k ohm tank sensor must be used.
5. Refer to ASHRAE 90.1 for return water %
6. Domestic water side must have a volume of water on supply side.
Hi-Limit
to drain
PK
Compact
0 30
155
10
PKPK
0 30
155
10
Steam Supply
Relief Valve
to drain
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Hot Water
Cold Water
0
5 8
100
5 8
10
N.C. Bypass
House Recirculation
Circulation Pump
(Size for
Full Capacity
of Compact)
N.C. Bypass
Hot Water
Hi-Limit
to drain
PK
Compact
0 30
155
10
PKPK
0 30
155
10
Steam Supply
Hi-Limit
to drain
PK
Compact
0 30
155
10
PKPK
0 30
155
10
Steam Supply
Relief Valve
to drain
Relief Valve
to drain
3 Compacts with Hot water storage tank
Hi-Limit
to drain
PK
Compact
0 30
155
10
PKPK
0 30
155
10
Steam Supply
Relief Valve
to drain
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. Refer to ASHRAE 90.1 for return water %
5. Bronze domestic pump must be sized for full COMPACT size
6. All COMPACTS must have a section VIII relief valve downstream
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Steam valve
Relief valve
T
T
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Hot Water
Hi-Limit
to drain
PK
Compact
0 30
155
10
PKPK
0 30
155
10
Steam Supply
Hi-Limit
to drain
PK
Compact
0 30
155
10
PKPK
0 30
155
10
Steam Supply
Relief Valve
to drain
Relief Valve
to drain
3 Compacts parallel installation
Hi-Limit
to drain
PK
Compact
0 30
155
10
PKPK
0 30
155
10
Steam Supply
Relief Valve
to drain
Cold Water
0
5 8
100
5 8
10
House Recirculation
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water line
4. Refer to ASHRAE 90.1 for return water %
5. All COMPACTS must have a section VIII relief valve downstream
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Steam valve
Relief valve
T
T
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Hi-Limit
to drain
PK
Compact
0 30
155
10
PKPK
0 30
155
10
Steam Supply
Relief Valve
to drainNotes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. Refer to ASHRAE 90.1 for return water %
5. Bronze domestic pump must be sized for full COMPACT size
6. All COMPACTS must have a section VIII relief valve downstream
0
5 8
100
5 8
10
House Recirculation
B I D O
D IB O
Condensate Pump/Trap
Hot water outlet
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Steam valve
Relief valve
COMPACT with condensate reclamation for domestic water preheat
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B I D O
D IB O
PK
B I D O
D IB O
PK
PK
Co
nd
en
sin
g B
oile
r
Condensate
Recirculation loop return
Cold water make up
Single condensing boiler with 2 Duration III and hot water storage tank
System fill
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. 12k ohm tank sensor must be used.
5. Refer to ASHRAE 90.1 for return water %
T
T
T
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
T
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B I D O
D IB O
PK
B I D O
D IB O
PK
PK
Co
nd
en
sin
g B
oile
r
Condensate
Zone 1 Recirculation loop return
Cold water make up
Single condensing boiler with 2 Duration III independent zones
Zone 2 Recirculation loop return
Zone 2 supplyZone 1 supply
System fill
Wye Strainer
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
Temp gauge
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. 12k ohm tank sensor must be used.
5. Refer to ASHRAE 90.1 for return water %
6.Domestic water side must have a volume of water on supply side.
68
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B I D O
D IB O
PK
B I D O
D IB O
PK
PK
Co
nd
en
sin
g B
oile
r
Condensate
Recirculation loop return
Cold water make up
Single condensing boiler with 2 Duration III and hot water storage tank
System fill
Wye Strainer
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
Temp gauge
T
T
T
T Temp sensor
B I D O
D IB O
PK
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. 12k ohm tank sensor must be used.
5. Refer to ASHRAE 90.1 for return water %
6.Domestic water side must have a volume of water on supply side.
T
69
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B I D O
D IB O
PK
PK
Co
nd
en
sin
g B
oile
r
Condensate
Recirculation loop return
Cold water make up
Single condensing boiler with Duration III and hot water storage tank
TT
System fill
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. 12k ohm tank sensor must be used.
5. Refer to ASHRAE 90.1 for return water %
6.Domestic water side must have a volume of water on supply side.
Wye Strainer
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
Temp gauge
T
70
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B I D O
D IB O
PK
B I D O
D IB O
PK
PK
Co
nd
en
sin
g B
oile
r
Condensate
Recirculation loop return
Cold water make up
Double condensing boiler with 2 Duration III and hot water storage tank
System fill
T
T
T
PK
Co
nd
en
sin
g B
oile
r
Condensate
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. 12k ohm tank sensor must be used.
5. Refer to ASHRAE 90.1 for return water %
6.Domestic water side must have a volume of water on supply side.
T
Wye Strainer
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
Temp gauge
71
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B I D O
D IB O
PK
B I D O
D IB O
PK
PK
Co
nd
en
sin
g B
oile
r
Condensate
Recirculation loop return
Cold water make up
Triple condensing boiler with 2 Duration III and hot water storage tank
System fill
T
T
T
PK
Co
nd
en
sin
g B
oile
r
Condensate
B I D O
D IB O
PK
T
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. 12k ohm tank sensor must be used.
5. Refer to ASHRAE 90.1 for return water %
6.Domestic water side must have a volume of water on supply side. Wye Strainer
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
Temp gauge
72
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B I D O
D IB O
PK
PK
Co
nd
en
sin
g B
oile
r
Condensate
Notes:1. Header piping should be one pipe size larger than direct boiler piping
2. Distance between 1st and 2nd tee should be no more than 4 pipe diameters
3.For actual piping locations and dimensions, refer to appropriate appliance submittal
4. Appropriately sized expansion tank should be located on cold water inlet of air elimination
5. Building recirculation (if utilized) should be tied into cold water make up
6.12k OHM tank sensor to be installed in tankR
ecirculation loop return
Cold water make up
Double condensing boiler with Duration III and hot water storage tank
PK
Co
nd
en
sin
g B
oile
r
System fill
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
Temp gauge
TT
Control valve
73
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B I D O
D IB O
PK
PK
Co
nd
en
sin
g B
oile
r
Condensate
Notes:1. Header piping should be one pipe size larger than direct boiler piping
2. Distance between 1st and 2nd tee should be no more than 4 pipe diameters
3.For actual piping locations and dimensions, refer to appropriate appliance submittal
4. Appropriately sized expansion tank should be located on cold water inlet of air elimination
5. Building recirculation (if utilized) should be tied into cold water make up
6.12k OHM tank sensor to be installed in tankR
ecirculation loop return
Cold water make up
Double condensing boiler with Duration III and hot water storage tank
PK
Co
nd
en
sin
g B
oile
r
System fill
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
Temp gauge
TT
74
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B I D O
D IB O
PK
B I D O
D IB O
PK
PK
Co
nd
en
sin
g B
oile
r
Condensate
Recirculation loop return
Cold water make up
Triple condensing boiler with 2 Duration III and hot water storage tank
System fill
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. 12k ohm tank sensor must be used.
T
T
T
PK
Co
nd
en
sin
g B
oile
r
Condensate
PK
Co
nd
en
sin
g B
oile
r
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Control valve
75
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B I D O
D IB O
PK
B I D O
D IB O
PK
PK
Co
nd
en
sin
g B
oile
r
Condensate
Recirculation loop return
Cold water make up
Triple condensing boiler with 2 Duration III and hot water storage tank
System fill
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. 12k ohm tank sensor must be used.
T
T
T
PK
Co
nd
en
sin
g B
oile
r
Condensate
B I D O
D IB O
PK
PK
Co
nd
en
sin
g B
oile
r
Condensate
T
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
76
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B I D O
D IB O
PK
B I D O
D IB O
PK
PK
Co
nd
en
sin
g B
oile
r
Condensate
Recirculation loop return
Cold water make up
Triple condensing boiler with 2 Duration III and hot water storage tank
System fill
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. 12k ohm tank sensor must be used.
T
T
T
PK
Co
nd
en
sin
g B
oile
r
Condensate
PK
Co
nd
en
sin
g B
oile
r
T
Condensate
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
77
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B I D O
D IB O
PK
PK
Co
nd
en
sin
g B
oile
r
CondensateR
ecirculation loop return
Cold water make up
Triple condensing boiler with Duration III and hot water storage tank
PK
Co
nd
en
sin
g B
oile
r
PK
Co
nd
en
sin
g B
oile
r
System fill
Notes:1. Header piping should be one pipe size larger than direct boiler piping
2.For actual piping locations and dimensions, refer to appropriate appliance submittal
3. Appropriately sized expansion tank should be located on cold water inlet of air elimination
4. Building recirculation (if utilized) should be tied into cold water make up
5.12k OHM tank sensor to be installed in tank
T
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
78
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B I D O
D IB O
PK
Co
nd
en
sin
g b
oile
r
System fill
To SystemHouse Pumps
Cold water make up
Building domestic recirculation
Building Domestic Supply
1 condensing boiler with 2 Duration III on Primary/Secondary system
B I D O
D IB O
PK
T
T
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. 12k ohm tank sensor must be used.
5. Refer to ASHRAE 90.1 for return water %
6. Domestic water side must have a volume of water on supply side.
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
79
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B I D O
D IB O
PK
Co
nd
en
sin
g b
oile
r
To System
House Pumps
Cold water make up
Building domestic recirculation
Building Domestic Supply
Single condensing boiler with 1 Duration III and buffer tank
System fill
Notes:1. Header piping should be one pipe size larger than direct boiler piping
2.For actual piping locations and dimensions, refer to appropriate appliance submittal
3. Appropriately sized expansion tank should be located on cold water inlet of air elimination
4. Building recirculation (if utilized) should be tied into cold water make up
Buffer tank
System
Return
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
80
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B I D O
D IB O
PK
Co
nd
en
sin
g b
oile
r
System fill
To SystemHouse Pumps
Cold water make up
Building domestic recirculation
Building Domestic Supply
Single condensing boiler with 1 Duration III on Primary/Secondary system
T
T
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. 12k ohm tank sensor must be used.
5. Refer to ASHRAE 90.1 for return water %
6. Domestic water side must have a volume of water on supply side.
81
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B I D O
D IB O
PK
Co
nd
en
sin
g b
oile
r
System fill
To SystemHouse Pumps
Cold water make up
Building domestic recirculation
Building Domestic Supply
2 condensing boilers with 2 Duration III on Primary/Secondary system
Co
nd
en
sin
g b
oile
r
B I D O
D IB O
PK
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. 12k ohm tank sensor must be used.
5. Refer to ASHRAE 90.1 for return water %
6. Domestic water side must have a volume of water on supply side.
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
82
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Co
nd
en
sin
g b
oile
r
System fill
To SystemHouse Pumps
Cold water make up
Building domestic recirculation
Building Domestic Supply
3 condensing boilers with 1 Duration III on Primary/Secondary system
Co
nd
en
sin
g b
oile
r
B I D O
D IB O
PK
Co
nd
en
sin
g b
oile
r
T
T
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. 12k ohm tank sensor must be used.
5. Refer to ASHRAE 90.1 for return water %
6. Domestic water side must have a volume of water on supply side.
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
83
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Co
nd
en
sin
g b
oile
r
System fill
To SystemHouse Pumps
3 condensing boilers with 2 Duration III on Primary/Secondary system
Co
nd
en
sin
g b
oile
r
Co
nd
en
sin
g b
oile
r
T
T
B I D O
D IB O
PK
Cold water make up
Building domestic recirculation
Building Domestic Supply
B I D O
D IB O
PK
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. 12k ohm tank sensor must be used.
5. Refer to ASHRAE 90.1 for return water %
6. Domestic water side must have a volume of water on supply side.
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
84
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Co
nd
en
sin
g b
oile
r
System fill
To SystemHouse Pumps
3 condensing boilers with 3 Duration III on Primary/Secondary system
Co
nd
en
sin
g b
oile
r
Co
nd
en
sin
g b
oile
r
T
T
Notes:
1.For actual piping locations and dimensions, refer to appropriate appliance submittal
2. Appropriately sized expansion tank should be located on cold water inlet of air elimination
3. Building recirculation (if utilized) should be tied into cold water make up
4. 12k ohm tank sensor must be used.
5. Refer to ASHRAE 90.1 for return water %
6. Domestic water side must have a volume of water on supply side.
Balancing valve
Condensate neutraliztion
Circulator pump
Isolation valve
LEGEND
Flow direction
Expansion tank
T Temp sensor/gauge
B I D O
D IB O
PK
Cold water make up
Building domestic recirculation
Building Domestic Supply
B I D O
D IB O
PK
B I D O
D IB O
PK
85