Aerco Esteem 399 Unit installation

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Aerco Esteem 399 Unit installation | Manualzz

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PIPING APPLICATION GUIDE

Natural Gas or Propane

Modulating & Condensing

Boilers and Water Heaters

Applies to the following models:

Boilers

• AM 399B

• AM 500B

• AM 750B

• AM 1000B

Water Heaters

AM 399W

AM 500W

AM 750W

AM 1000W

Pending

Pending

399 / 500 / 750 / 1000

Gas-Fired Boilers and Water Heaters

AM 399 Single-Installation Piping Example

04/08/2014

Page 1 of 30 AERCO International, Inc. • 100 Oritani Dr. • Blauvelt, New York 10913 • Phone: 800-526-0288 PR1 04/08/2014

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AM Series Piping

Application Guide

DISCLAIMER

The information contained in this manual is subject to change without notice from AERCO

International, Inc. AERCO makes no warranty of any kind with respect to this material, including, but not limited to, implied warranties of merchantability and fitness for a particular application. AERCO

International is not liable for errors appearing in this manual, nor for incidental or consequential damages occurring in connection with the furnishing, performance, or use of these materials.

AERCO Technical Support:

(Mon–Fri, 8am-5pm EST)

1 (800) 526-0288

AERCO Document Conventions

In this document, some types of information are presented as shown in the following examples:

Message Type

Notes

Example and Description

NOTE

NOTE messages indicate specific information related to the surrounding contextual information, and highlighted for special attention.

Cautions

CAUTION!

CAUTION messages inform of potential problems relating to the functioning of equipment, safety to persons, harm to the environment, and/or damage to property or equipment.

Warnings

WARNING!

WARNING messages warn of potential dangerous situations that may result in serious injury and/or death to persons or animals.

Text is red within a red box.

Instructions

How Instructions are Presented

1.

Instructions are shown in a blue box with an underlined title.

2.

All text, excepting in accompanying illustrations, is colored blue.

3.

All procedures are listed in steps starting with “1.” and using letters [a), b), c), etc.] indicating sub=steps.

4.

Steps that are continued on the next page have a “(Cont.) appended to the instruction title.

Page 2 of 30 AERCO International, Inc. • 100 Oritani Dr. • Blauvelt, New York 10913 • Phone: 800-526-0288 PR1 04/08/2014

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Table of Contents

Table of Contents ..................................................................................... 3

1.

MANDATORY REQUIREMENTS ........................................................ 4

2.

BOILER QUALITY AND MAINTENANCE ........................................... 6

2.1.

BOILER WATER CHEMISTRY ........................................................................ 6

2.1.1.

Scale and Corrosion ....................................................................................... 6

2.1.2.

Make-up or Feed Water Quality .................................................................... 6

2.1.3.

Treating Water to Prevent Freezing ............................................................... 6

2.1.4.

Water Treatment Certification ....................................................................... 6

2.2.

TESTING AND MAINTENANCE OF WATER QUALITY .................................. 6

2.3.

SYSTEM FLUSHING, TREATMENT, AND CLEANSING ................................ 8

2.3.1.

System Flushing Recommendations .............................................................. 8

2.3.2.

Water Quality Maintenance and Boiler Warranty ......................................... 9

2.3.3.

Water Treatment Certification ..................... Error! Bookmark not defined.

2.3.4.

Water Treatment Analysis and Scheduling ................................................... 9

2.4.

PRIMARY PUMP ............................................................................................ 11

2.5.

STRAINERS ................................................................................................... 15

2.6.

ISOLATION VALVES ..................................................................................... 15

2.7.

AIR VENTING OF THE HEATING SYSTEM (Boilers Only) .......................... 16

3.

CSD-1 MANIFOLD ASSEMBLY (SUPPLIED) ...... Error! Bookmark not defined.

4.

CONNECTIONS ............................................................................... 19

4.1.

PRIMARY-SECONDARY PIPING .................................................................. 19

4.2.

SYSTEM FILLING AND DRAINING ............................................................... 19

4.3.

CONDENSATE DRAIN ................................................................................... 19

5.

PIPING DIAGRAMS ......................................................................... 21

Page 3 of 30 AERCO International, Inc. • 100 Oritani Dr. • Blauvelt, New York 10913 • Phone: 800-526-0288 PR1 04/08/2014

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AM Series Piping

Application Guide

1. MANDATORY REQUIREMENTS

The following are mandatory actions required to ensure proper piping and drainage of the AM Series system.

CAUTION!

Local codes and authorities should be consulted prior to installation.

• AERCO requires that the boiler loop to be de-coupled from the system loop. This can be achieved by one of the following: o Employing primary-secondary piping. o Installation of a hydraulic separator between the boiler and the system loop. o Installation of a heat exchanger (for example, plate heat exchanger) between the boiler and the system loop.

• For water heating installations, a storage tank provides the required de-coupling.

• AERCO requires cleaning of the whole system and to fit a mandatory Y-strainer on the return pipe to the boiler, equipped with isolation valves (See Figures 11 to 18 at the end of this document).

• For boiler replacement installations, cleaning of the whole system is required before connecting the boiler (See Section 2.3 for Flushing, Treatment, and Cleansing tips and guidelines). Failure to clean a system will limit it from the full benefits offered by the high efficiency AM Series.

• Boiler drain valve and condensate neutralizer drain should be arranged to permit the fluids to drain freely, by gravity, to a convenient floor drain.

• For units installed in environments likely to experience freezing temperatures, it is necessary to ensure that the condensate line and exhaust manifold are equipped with suitable freeze protection, such as a heat trace line or insulation.

• Relief valve must be installed vertically in the top, side, or to a valveless header connected to the water supply outlet.

• All piping and electrical connections (i.e. service switches, conduit boxes, etc.) should be located at a minimum of 6 inches from the boiler panels and covers.

• See Table 1 (Section 2) for sizing guidelines for the mandatory primary pump and boiler strainer.

• A discharge pipe must be used and must not have an internal cross-sectional area less than the outlet of the relief valve.

• The discharge pipe must be installed so that there will be no danger of scalding to the boiler attendants. See Figure 1 for a discharge pipe example of an AM Series unit.

• The relief valve point of discharge piping must have provisions for proper drainage.

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RELIEF VALVE #1

RELIEF VALVE #1

DISCHARGE PIPING

RELIEF VALVE #2

RELIEF VALVE #2

DISCHARGE PIPING

SEPARATE PIPES

LEADING TO POINT

OF DISCARGE

Figure 1: AM 399/500 Relief Valve Point of Discharge Example

CAUTION!

Each relief valve must have its own discharge piping all the way to the point of discharge, and must never be manifolded, attached to, or combined with any other piping.

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AM Series Piping

Application Guide

2. BOILER QUALITY AND MAINTENANCE

2.1. BOILER WATER CHEMISTRY

2.1.1.

Scale and Corrosion

Free oxygen can cause the formation of rust (iron oxides), which degrade metallic materials.

Magnetite is formed in un-inhibited water if there is electrolytic action in the presence of oxygen.

Sludge is formed when calcium compounds, primarily CaCO3, are heated. Rust and magnetite, when combined with sludge, can form a very hard scale, which significantly reduces system efficiency and life expectancy of the heating system. Scale reduces heat exchange due to its low heat conductivity and so may cause very dangerous localized overheating. Waterside corrosion of all heating circuit surfaces is also a major concern.

2.1.2.

Make-up or Feed Water Quality

Make-up or feed water is water added to a closed hydronic system to replenish water lost through evaporation, maintenance, or leakage. The quality of make-up or feed water, which may contain dissolved oxygen, minerals and other dissolved contaminants, is extremely important. Such introduced water must be chemically treated or strictly limited when ensuring neutral chemical conditions in boiler system water. Generally, any closed hydronic heating system should be restricted from receiving untreated makeup water of no more than 5% of the total volume of system water per year.

2.1.3.

Treating Water to Prevent Freezing

When using anti-freeze solutions, their compatibility with the AM Series 316 (Ti) heat exchanger and other components of the heating system must be determined prior to use. If a glycol solution is used as anti-freeze protection, a backflow preventer must be installed upstream of the fill/makeup valve.

Only virgin glycol should be used for systems requiring freeze protection, and it must be treated with an inhibitor compatible with the particular chemical treatment being used in the system. Note that glycol must be changed from time to time due to its limited useful life.

Use only inhibited propylene glycol solutions, formulated for hydronic systems. Ethylene glycol is toxic and can attack gaskets and seals used in hydronic systems.

2.1.4.

Water Treatment Certification

When using chemical treatments in hydronic systems, it is necessary to ensure that the chosen treatment is appropriate and certified by the manufacturer for such environments. The manufacturer should also guarantee that the treatment, when applied according to the manufacturer’s recommendations, will not cause harm to the boiler, pumps, piping, and other components of the hydronic boiler system.

2.2. TESTING AND MAINTENANCE OF WATER QUALITY

Water in the installation should be checked, monitored, and treated for the following conditions and characteristics:

Hardness – High hardness of the available water is measured in grains of hardness and indicates the quantity of minerals (mostly calcium and magnesium) which are dissolved in the water. Hardness substantially contributes to the formation of scaling, which is highly undesirable.

The total hardness must be less than 350 ppm total dissolved solids (TDS).

Artificial Softness – Do NOT use artificially softened water. Artificial softening agents generally use salt, which creates a chloride water chemistry, a major contributor to the corrosion of the

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Application Guide

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TAG-0074 0B types of metals used in hydronic systems. Elevated salt levels also contribute to higher conductivity levels, another undesirable characteristic in hydronic systems.

Chloride – Chlorides are salts resulting from the combination of the gas chlorine with a metal and are instrumental in accelerating corrosion in the types of metals used in hydronic systems.

Chlorides may be introduced into the water naturally. Concentrations of chlorides in system water should be less than 150 ppm.

Conductivity – Dissolved metals and minerals increase the conductivity of water and indicate not only the presence of undesired corrosive agents, but also contribute to the transfer and migration of ions and charged particles in the water that contribute to fouling of sensors, valves, and other devices used in the system. Additionally, high conductivity contributes to galvanic corrosion, in which one metal will preferentially corrode when in contact with another type of metal, when both are in contact with an electrolyte.

Conductivity should be less than 3000 μS.

pH – The pH, a measure of the acidic, neutrality, and alkalinity of the water, must always be between 7.5 and 9.5 pH.

Oxygen All precautions should be taken to avoid the formation and localization of oxygen in the water of a heating system. Water that is low in minerals (soft water) absorbs oxygen much more readily than mineralized (hard) water. For this reason it is necessary that in heating systems using floor radiant heating, the plastic pipes used be impermeable to oxygen.

Scale and Corrosion The use of an inhibitor is advisable to treat feed and make-up water and to protect heating systems against scale, corrosion and microbiologic growth. To prevent freezing, the use of an anti-freezing agent together with the inhibitor is advisable. Qualified companies can also provide boiler de-scaling.

• Water treatment is also advisable in the following cases: o Very large heating systems o High quantities of replenished water due to leakages or maintenance work

Page 7 of 30 AERCO International, Inc. • 100 Oritani Dr. • Blauvelt, New York 10913 • Phone: 800-526-0288 PR1 04/08/2014

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AM Series Piping

Application Guide

2.3. SYSTEM FLUSHING, TREATMENT, AND CLEANSING

Note that prior to cleaning the heating system, the boiler MUST be isolated from the piping to

prevent infusion of containments, including sludge, into the boiler. Section 2.3 provides recommendations for flushing, cleaning, and treating the water used in the AM Series system.

IMPORTANT!

Cleaning solution and inhibitors used must be compatible with heat exchanger material. Corrosion/scale inhibitor will be ineffective if added to a dirty system; therefore, it is very important to clean the system first.

AERCO recommends the following cleaning solution, inhibitor, and antifreeze products. Visit www.aerco.com

for Product Fact sheet and Material Safety Data Sheets:

Water Quality Testing — X100 Quick Test Kit

Part number 99152-1

Corrosion/Scale Inhibitor — Sentinel X100 Liquid Inhibitor

4 x 1 gallon case – part number 99153-2

5 gallon jug – part number 99153-1

Boiler Noise Reducer — Sentinel X200 Liquid Noise Inhibitor

4 x 1 gallon case – part number 99154-2

5 gallon jug – part number 99154-1

System Cleaner — Sentinel X300 Liquid System Cleaner

4 x 1 gallon case – part number 99199-2

5 gallon jug – part number 99199-1

Cleaning solution — Sentinel X400 Liquid System Restorer

4 x 1 gallon case – part number 99155-2

5 gallon jug – part number 99155-1

Antifreeze — Sentinel X500 Liquid Inhibited Antifreeze

5 gallon jug – part number 99156-1

55 gallon jug – part number 99156-2

275 gallon tote – part number 99156-3

When cleaning, treating, and maintaining, a heating system, consult a qualified professional. The following are AERCO’s tips/guidelines for cleaning a heating system – these do NOT take precedence over detailed instructions from qualified professionals.

2.3.1.

System Flushing Recommendations

• Make sure to use an appropriate amount of cleaning solution, carefully following the manufacturer’s instructions. Follow the chemical manufacturer’s recommendations when introducing cleaning agents into the system.

• Ensure that the cleaning solution is circulated thoroughly in the system.

• Flush the system thoroughly to remove the maximum amount of contaminants. When emptying the system, make sure it is done as quickly as possible using all drain off points and ensuring all

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TAG-0074 0B low lying pipework is fully drained. Opening all bleed valves ensures the system will be completely emptied.

• A reliable test to determine if a system is clean is if the Total Dissolved Solids (TDS) of the water being drained is within 10% of the make-up water TDS. This indicates that sufficient contamination has been flushed from the system. If the difference in TDS is more than 10%, it is recommended to repeat the cleaning process until that is achieved. A turbidity test can be used as an alternate way to determine if a system is clean.

• For boiler retrofit/replacement installation, it will be necessary to repeat the cleaning process until the draining water appears to be clear. Once clear, the above TDS comparison (or a turbidity test) should be performed.

• If a flushing machine is used in the cleaning process, carefully follow the manufacturer’s instructions. If the flushing machine is designed to flush individual zones, the TDS comparison must be made between each zone and the make-up water, or the turbidity test performed for each zone.

• Add corrosion and scale inhibitor after the system has been declared clean, using the appropriate amount recommended by the manufacturer. Introduce the protector/scale inhibitor to the system following the chemical treatment manufacturer’s instructions. Adding inhibitor to a dirty system reduces its effectiveness.

When refilling the system, ensure the boiler is not air-bound by opening the pressure-relief valve located at the rear of the boiler. Leave the relief valve open until a steady flow of water is observed.

Close the valve and finish filling the system.

2.3.2.

Water Quality Maintenance and Boiler Warranty

Heat exchanger failures due to improperly cleaned/treated and poorly maintained water are not covered under warranty. Scheduled system/boiler water maintenance is required to maintain the heat exchanger warranty. AERCO shall reserve the right to require maintenance records when evaluating warranty claims.

2.3.3.

Water Treatment Analysis and Scheduling

The proper mixture of water, chemical treatment, and glycol (if used) should be ascertained based on a sample of the system water and the make-up water. Your local water treatment company, or one of the manufacturers listed below, may analyze your sample. Adjust the chemical composition of your system water based on the analysis. After this initial analysis, the chemical composition of your system water should be tested at the beginning of each heating season. For boilers operating year round, this analysis should be made at least twice a year.

2.3.4.

Boiler Loop Design Guidelines

For proper and safe operation of the water tube AM boiler, the primary (boiler) loop piping and the associated fittings and accessories must be designed/selected as discussed in the following sections.

Table 1 shows the required minimum flow rates at various system designed temperature rises. Also shown are pressure drops through strainers typically needed in the boiler loop (see paragraph 4.2 for strainer requirement details).

The following primary/secondary piping design guidelines should be used for AM Series installations.

The data was calculated based upon systems with Return Water Temperatures above 80

°F. A 20 mesh strainer (or finer) is required at each boiler inlet. Water flow rates and pressure drops shown below are for the boiler loop. Boiler water flow rates vary with system design parameters. The boiler loop fittings and strainer pressure drops shown below are examples only – actual pressure drops will vary depending on actual piping layout and strainer size/type used.

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AM Series Piping

Application Guide

TABLE 1: Flow Rate and Pressure Drops

AM 399 AM 500

Minimum Water Flow (GPM) @ Min. Fire Rate

Minimum Water Flow (GPM) @ Max. Fire Rate

Maximum Water Flow (GPM)

Water Pressure Drop (Ft. of Hd.) at Max. Flow

@ 50°F

Water Flow (GPM) @ Max. ∆T of 50°F

Water Pressure Drop (Ft. of Hd.) at Min. Flow

Strainer, Pipes, Valves and Fittings Size

4

7

37

29

14.7

5

1-1/4" NPT

0.63

4

9

37

55

18.4

17

1-1/2"

NPT

0.54 Strainer

∆P (Ft. of Hd.) – (‘Y’ Strainer, 20 mesh)

∆P (Ft. of Hd.) – (20’ SCH.40, 4 x 90°, 2 x reducing couplings, 2 x Ball Valve)

Total Primary Loop ∆P (Ft. of Hd.) @ ∆T of

50°F

@ 40°F

Water

Flow (GPM) @ 40°F ∆T

Water Pressure Drop (Ft. of Hd.) @ 40°F ∆T

Flow

1.28

6.91

18.4

7.5

1.03

18.57

23.0

25

AM 750

4

14

55

41.5

27.6

13

1-1/2" NPT

1.22

2.37

16.59

34.5

18.5

Strainer, Pipes, Valves and Fittings Size 1-1/4" NPT

0.99

1-1/2"

NPT

0.85

2" NPT

0.56

Strainer ∆P (Ft. of Hd.) – (‘Y’ Strainer, 20 mesh)

∆P (Ft. of Hd.) – (20’ SCH.40, 4 x 90°, 2 x reducing couplings, 2 x Ball Valve)

Total Primary Loop ∆P (Ft. of Hd.) @ ∆T of

40°F

@ 30°F

Water Flow (GPM) @ 30°F ∆T

Water Pressure

Drop (Ft. of Hd.) @ 30°F ∆T

Flow

Strainer, Pipes, Valves and Fittings Size

Strainer ∆P (Ft. of Hd.) – (‘Y’ Strainer, 20 mesh)

∆P (Ft. of Hd.) – (20’ SCH.40, 4 x 90°, 2 x reducing couplings, 2 x Ball Valve)

Total Primary Loop ∆P (Ft. of Hd.) @ ∆T of 30°F

@ 25°F

Water Flow (GPM) @ Min. ∆T of 25°F

Water Pressure Drop (Ft. of Hd.) at Max. Flow

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2.89

11.38

24.5

13

0.96

1.76

15.72

29.4

19

1.64

27.48

30.7

39

1-1/2" NPT 2" NPT

0.44

0.75

40.19

36.8

55

1.11

20.17

46.0

30

2" NPT

1.00

1.74

32.73

55.2

41.5

AM 1000

4

18

74

38

36.8

10.5

2" NPT

0.64

1.22

12.36

46.0

15

2" NPT

1.00

1.74

17.73

61.3

27

2" NPT

1.77

3.11

31.88

73.6

38

AERCO International, Inc. • 100 Oritani Dr. • Blauvelt, New York 10913 • Phone: 800-526-0288 PR1 04/08/2014

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Application Guide

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TABLE 1: Flow Rate and Pressure Drops

AM 399 AM 500

Strainer, Pipes, Valves and Fittings Size

1-1/4" NPT 1-1/2"

NPT

0.41 0.64

Strainer ∆P (Ft. of Hd.) – (‘Y’ Strainer, 20 mesh)

∆P (Ft. of Hd.) – (20’ SCH.40, 4 x 90°, 2 x reducing couplings, 2 x Ball Valve)

Total Primary Loop ∆P (Ft. of Hd.) @ ∆T of

25°F

0.71

20.12

1.21

56.85

AM 750

2" NPT

0.70

0.92

43.13

NOTE: A reducing coupling is not used where boiler line size matches outlet size.

AM 1000

2" NPT

1.25

1.76

41.01

2.4. PRIMARY PUMP

The primary pump shall have a discharge pressure able to assure the designed water flow rate, taking into account pressure drop losses as shown in Figure 2. When selecting a pump, take into account the pressure drop across the unit, fittings, accessories, and piping. The primary pump electrical connection shall be made as shown in Figure 4 for boilers and Figure 5 or 6 for water heaters (terminals 113 and 114).

Pumps shall be calculated by installers or engineers according to boiler and system parameters. The pump is not an integral part of the boiler.

• If water is between 5 and 8 grains, water is soft, and must have a minimum velocity of 4 ft/sec.

See Table 1.

• If water is between 9 and 17 grains, water is normal, and flow should be between 4-8 ft/sec.

• If water is between 18 and 23 grains, water is hard, and must have a minimum velocity of 8 ft/sec.

NOTE

Select the pump flow rate so that the boiler water outlet temperature is

190°F (87.8°C) or below.

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Figure 2: Water Side Pressure Loss Chart

Figure 3: Water Velocity Flow Chart

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Figure 4: AM BOILER: Electrical Connections

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Figure 5: Water Heater Electrical Junction Box Connections

(with Small Storage Tank)

Figure 6: Water Heater Electrical Junction Box Connections

(with Large Storage Tank)

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2.5. STRAINERS

AERCO requires the installation of a Y strainer to keep dirt out of the system and boiler. The strainer should be installed in the return piping with isolation valves to allow for cleaning as necessary. The Y strainer shall have a 20 mesh or finer strainer. Such filter shall protect the boiler from heating system dirt. It should be regularly cleaned to prevent problems.

2.6. ISOLATION VALVES

It is MANDATORY that ball or other type of shut-off valves be installed in the system supply and return piping to isolate the boiler if necessary. In this case the boiler can be disconnected or drained without having to drain the whole system.

WARNING!

NEVER bypass safety devices, such as safety valves and expansion vessels.

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2.7. AIR VENTING OF THE HEATING SYSTEM

The AM Series units come standard with automatic air vents on each of the headers on the rear of the unit (see Figure 6a and 6b). These vents are for the unit only and not the entire heating system. An effective air vent for air removal for the entire heating system must be installed in the highest point of the system piping.

AUTOMATIC AIR

VENTS

SAFETY RELIEF VALVE

PRESSURE AND

TEMPERATURE GAUGE

HEADER

TEMPERATURE

SENSOR

WATER SUPPLY

(OUTLET) CONNECTION

HEADERS

WATER RETURN

(INLET) CONNECTION

DRAINING VALVES

Page 16 of 30

Figure 6a: AM 399/500 Rear Panel Connections

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AUTOMATIC AIR

VENTS

SAFETY RELIEF VALVE

PRESSURE AND

TEMPERATURE GAUGE

HEADER

TEMPERATURE

SENSOR

WATER SUPPLY

(OUTLET) CONNECTION

AM Series Piping

Application Guide

HEADERS

WATER RETURN

(INLET) CONNECTION

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DRAINING VALVES

Figure 6b: AM 750/1000 Rear Panel Connections

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2.3.5.

Flow Switch

A flow switch is required to be installed on every unit (Figure 7). This flow switch is included with the unit and must be field-installed.

The flow switch should be installed in a tee on the boiler outlet piping as shown in Figure 7. The paddle of the flow switch may have to be cut to length for the given pipe diameter according to the manufacturer’s instructions. You must NOT install any valves in between the unit and the flow switch.

FLOW

SWITCH

FLOW SWITCH

BOILER OUTLET

PIPING

FLOW

SWITCH

PADDLE

Figure 7: Supplied Flow Switch (L) and Installation Location (R) Example

2.3.6.

Low Water Cutoff (LWCO)

If a low water cutoff (LWCO) is preferred (Figure 8), one may be installed in place of, or in addition to, the flow switch. This is available as an accessory from AERCO. When installing such a device, you must consult and abide by all local codes and regulations in force.

Page 18 of 30

Figure 8: Optional Low Water Cutoff (LWCO)

NOTE

Use Teflon tape or a suitable pipe joint compound for component and piping connections.

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3. CONNECTIONS

3.1. PRIMARY-SECONDARY PIPING

Primary-secondary piping must be utilized. This can be accomplished by using a common pipe (see

Figures 11, 13, 15, 17) or a hydraulic separator. Primary – secondary piping decouples the boiler loop from the system loop, making it independent from system loop pressure fluctuations associated with opening/closing of zone valves or 3-way valves.

3.2. SYSTEM FILLING AND DRAINING

The boiler is equipped with its own header drains (see Figures 6a and 6b for the drain locations).

NEVER USE IT TO DRAIN THE ENTIRE SYSTEM, since the system dirt could gather in the boiler and compromise its operation. The system itself shall be equipped with its own drain, whose size will depend on the system capacity.

• For filling the system, a filling tap has to be inserted on the system return pipe.

• The filling can also be done through the draining tap on the boiler return manifold

(see drain valve locations in Figure 6a and Figure 6b).

• In both cases, an approved hydraulic disconnection system has to be fitted.

• Before connecting the boiler, carefully rinse out the whole system, as specified in Section 2.3 or by local code and best practices.

3.3. CONDENSATE DRAIN

To maintain proper flow of condensate the drain pipe must have a slope toward the drain of at least

3/8 in./ft. (30 mm/m). In order to prevent ice from forming, the condensate piping must be well insulated.

Figure 9: Typical Condensate Drain Installation

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The AM Series of boilers and water heaters come equipped with a condensate trap and neutralizer tank (see Figure 10). It is crucial that these be filled with water to prevent combustion gases from entering the room and/or gases flowing backwards through the condensate line. A corrugated tube is provided to pipe neutralized condensate to a drain. It may be necessary to add additional piping to the condensate removal system in order to reach an appropriate drain.

Figure 10: Condensate Drain Assembly Components

WARNING!

The condensate collection box must be filled with water to prevent flue gas emissions from escaping during unit operation. Failure to comply with this requirement can result in dangerous levels of carbon monoxide and other dangerous gases.

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4. PIPING DIAGRAMS

NOTES

1) For actual sizes and locations of piping and other connections to the boiler, see appropriate dimensional drawing.

2) Drain valve and condensate drain hose should be arranged to permit the fluids to drain freely by gravity to a convenient floor drain. The relief valve should be piped vertically to a height 18" above the floor.

3) All piping and electric connections (service switches, conduit boxes, etc.) should be 6" away from side panels.

4) Mandatory: primary pump

5) Mandatory: boiler strainer (20 mesh or finer).

6) Recommended: Gas regulator (and is required when supply pressure is greater than 13" W.C.)

7) All drawings are of typical installations. Local codes and authorities should be consulted.

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Figure 11: AM 399/500 Single Unit Installation

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Figure 12: AM Series 399/500 Single Unit Installation with DHW Installed

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Figure 13: AM Series 399/500 Multiple Unit Installation

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Figure 14: AM Series 399/500 Multiple unit Installation

With DHW Installed

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Figure 15: AM 750/1000 Single Unit Installation

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Figure 16: AM Series 750/1000 Single Unit Installation with DHW Installed

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Figure 17: AM Series 750/1000 Multiple Unit Installation

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Figure 18: AM Series 750/1000 Multiple unit Installation

With DHW Installed

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Change Log

Date

04/08/2014

Description

Rev 0A: Release

AM Series Piping

Application Guide

© AERCO International, Inc., 2014 www.aerco.com

Changed By

Curtis Harvey

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