Iii. water piping and trim, Caution, Warning – Burnham 81433101R16-1/10 User Manual

III. Water Piping and Trim

A

. Design and install boiler and system piping to

prevent oxygen contamination of boiler water.
There are many possible causes of oxygen

contamination such as:

1. Addition of excessive make-up water as a result of

system leaks.

2. Absorption through open tanks and fittings.
3. Oxygen permeable materials in the distribution

system.

In order to insure long product life, oxygen sources

should be eliminated. This can be accomplished by

taking the following measures:

1. Repairing system leaks to eliminate the need for

addition of make-up water.

2. Eliminating open tanks from the system.
3. Eliminating and/or repairing fittings which allow

oxygen absorption.

4. Use of non-permeable materials in the distribution

system.

5. Isolating the boiler from the system water by

installing a heat exchanger.

B.

Connect System supply and return piping to boiler. See

Figures 5 and 7. Also consult I=B=R Installation and

Piping Guides. Maintain minimum ½ inch clearance

from hot water piping to combustible materials.
1. If this boiler is used in connection with refrigeration

systems, the boiler must be installed so that the

chilled medium is piped in parallel with the heating

boiler using appropriate valves to prevent the chilled

medium from entering the boiler, see Figure 6. Also

consult I=B=R Installation and Piping Guides.

2. If this boiler is connected to heating coils located

in air handling units where they may be exposed

to refrigerated air, the boiler piping must be

equipped with flow control valves to prevent gravity

circulation of boiler water during the operation of

the cooling system.

3. If boiler is used with an Alliance™ SL Indirect-

Fired Domestic Water Heater, install the Alliance™

SL as a separate heating zone. Refer to the

Alliance™ SL Installation, Operating, and Service

Instructions for additional information.

4. Use a system bypass if the boiler is to be operated

in a system which has a large volume or excessive

radiation where low boiler water temperatures may

be encountered (i.e. converted gravity circulation

system, etc.).

CAUTION

Do not operate boiler with return water

temperatures below 10°F.

The bypass should be the same size as the supply

and return lines with valves located in the bypass

and return line as illustrated in Figures 5 and 7 in

order to regulate water flow for maintenance of

higher boiler water temperature.

Set the by-pass and return valves to a half throttle

position to start. Operate boiler until the system

water temperature reaches its normal operating

range.

Adjust the valves to maintain 180°F to 200°F boiler

water temperature and greater than 120°F return

temperature. Adjust both valves simultaneously.

Closing the boiler return valve while opening

the by-pass valve will raise the boiler return

temperature. Opening the boiler return valve while

closing the by-pass valve will lower the boiler return

temperature.

5. A hot water boiler installed above radiation level

must be provided with a low water cutoff device as

part of the installation.

If a low water cut-off is required, it must be

mounted in the system piping above the boiler.

The minimum safe water level of a hot water boiler

is just above the highest water containing cavity of

the boiler; that is, a hot water boiler must be full of

water to operate safely.

WARNING

Safety (relief) valve discharge piping must be

piped near floor to eliminate potential of severe

burns. Do not pipe in any area where freezing

could occur. Do not install any shut-off valves,

plugs or caps.

C.

Install Safety Relief Valve. See Figures 5 and 7.

Safety Relief Valve must be installed with spindle in

vertical position. Installation of the relief valve must

be consistent with the ANSI/ASME Boiler and Pressure

Vessel Code, Section IV.

WARNING

Failure to properly pipe boiler may result in improper operation and damage to boiler or building.
Oxygen contamination of boiler water will cause corrosion of iron and steel boiler components, and

can lead to boiler failure. U.S. Boiler’s Standard Warranty does not cover problems caused by oxygen

contamination of boiler water.