PRIOR TO START UP

ADJUSTMENT PROCEDURE

REQUIRED ABILITY

INITIAL START-UP

INSTALLATION OR SERVICE OF THIS WATER HEATER REQUIRES ABILITY EQUIVALENT TO THAT OF A LICENSED TRADESMAN IN THE FIELD INVOLVED. PLUMBING, AIR SUPPLY, VENTING, GAS SUPPLY AND ELECTRICAL WORK ARE REQUIRED.

Before attempting start-up, thoroughly study and familiarize yourself with the exact sequence of operation and all other details on the specific heater being used.

The power burner is equipped with an ignition system which automatically sequences prepurge and ignition, senses and ignites main burner flame and sequences burner operation. Heater is equipped with an ignition control which locks out after three unsuccessful ignition attempts. Familiarize yourself with the sequence of operation of this unit prior to start-up.

Be certain that the water heater is full of water, that air is purged from all lines, there are no leaks (gas and water), and all inlet water lines are open.

The following test equipment should be on hand (all test equipment must be acclimated to ambient temperature before calibration and use.)

Two U-tube manometers or calibration 0-10" and 0-35" W.C. pressure gauges.

Attach a gas pressure gauge or manometer to the upstream side of main gas cock and a gas pressure gauge or manometer to the manifold pressure tap (see Figure 15).

You are now ready to begin the burner start-up procedure.

OPERATING INSTRUCTIONS

IMPORTANT

ITISRECOMMENDEDTHATAQUALIFIEDSERVICETECHNICIANPERFORM THEINITIALFIRINGOFTHEHEATER.ATTHISTIMETHEUSERSHOULDASK THE TECHNICIAN ANY QUESTIONS IN REGARD TO THE OPERATION AND MAINTENANCEOFTHEUNIT.

CAUTION

BEFORE PROCEEDING WITH THE OPERATION OF THE UNIT, MAKE SURE HEATERANDSYSTEMAREFILLEDWITHWATERANDALLAIRISEXPELLED FROMHEATERANDPIPING.

NEVEROPERATETHEHEATERWITHOUTFIRSTBEINGCERTAINITISFILLED WITH WATER AND A TEMPERATURE AND A PRESSURE RELIEF VALVE IS INSTALLED IN THE RELIEF VALVEOPENING OF THE HEATER. DO NOT ATTEMPTTOOPERATEHEATERWITHCOLDWATERINLETVALVECLOSED.

FILLING:

1.Close the heater drain valve.

2.Open a nearby hot water faucet to permit the air in the system to escape.

3.Fully open the cold water inlet pipe valve allowing the heater and piping to be filled.

4.Close the hot water faucet as water starts to flow.

5.The heater is ready to be operated.

THE MAIN MANUAL GAS SHUTOFF VALVE MUST HAVE BEEN CLOSED FORAT LEAST FIVE (5) MINUTES. THIS WAITING PERIOD IS AN IMPORTANT SAFETY STEP. ITS PURPOSE IS TO PERMIT GAS THAT MIGHT HAVE ACCUMULATEDINTHECOMBUSTIONCHAMBERTOCLEAR.IFYOUDETECT GAS AT THE END OF THIS PERIOD, DO NOT PROCEED WITH LIGHTING. RECOGNIZE THAT GAS ODOR, EVEN IF IT SEEMS WEAK, MAY INDICATE THE PRESENCE OF ACCUMULATED GAS SOMEPLACE IN THE AREA WITH A RISK OF FIRE OR EXPLOSION. SEE THE FRONT PAGE FOR STEPS TO BE TAKEN.

DO NOT USE THIS HEATER IF ANY PART HAS BEEN UNDER WATER. IMMEDIATELY CALL A QUALIFIED SERVICE TECHNICIAN TO INSPECT THE HEATER AND TO REPLACE ANY PART OF THE CONTROL SYSTEM AND ANY GAS CONTROL WHICH HAS BEEN UNDER WATER.

LIGHT THE UNIT IN ACCORDANCE WITH THE OPERATING INSTRUCTIONS LABEL ATTACHED TO THE HEATER.

THESEINSTRUCTIONSAREREPEATEDINTHELIGHTINGANDOPERATING LABEL ILLUSTRATION ON PAGE 20 IN THIS MANUAL.

A minimum gas supply pressure of 5.0" W.C. (4.5" on BTH 150 and 199) for natural gas (11.0" W.C. for L.P. Gas) is required before making any adjustment to the gas control pressure regulator Attempts to adjust the regulator during periods of low gas supply pressure could result in overfiring of the heater when the gas supply pressure returns to normal.

1.Check gas line pressure with a manometer.

2.Check manifold pressure (see Table 4, page 20) using a pressure gauge (manometer) connected to the manifold pressure tap on the gas control valve, (Figure15).

If full rate adjustment is required, remove cover screw from top of the gas control valve, (Figure 15).

Using a small screwdriver, turn adjusting screw clockwise to increase

or counterclockwise to decrease gas pressure to obtain 4.0" on BTH 120 and 250 (3.5" on BTH 150 and 199) for natural gas (10.0" W.C. for L.P. Gas) Water Column.

3. Cycle the burner on and off several times to check its operation.

4.Check the operation of the limit and operating controls.

5.Check the vent system seams and joints and ensure that there is no discharge of flue products into the room.

6.Check the input rate:

For appliance installation locations with elevations above 2000 feet, refer to HIGH ALTITUDE INSTALLATIONS section of this manual.

a.Attach a pressure gauge (manometer) to the manifold pressure tap (Figure 16) and refer to Table 4, page 20 for correct pressure.

b.Use this formula to “clock” the meter. Be sure other gas consuming appliances are not operating during this interval.

3600 X H = Btuh

T

Should it be necessary to adjust the gas pressure to the burner, to obtain the full input rate, the steps below should be followed:

T = Time in seconds to burn 1 cubic foot of gas. (With a stopwatch read the gas meter and measure the amount of time required for the heater to consume 1 cubic foot of gas.)

H = Heating value of gas (in Btu’s per cubic foot of gas). Btuh = Actual heater input rate, in Btuh.

EXAMPLE: (Using BTH-199,900 heater)

T = 18.9 seconds

3600 X 1050 = 199,900 Btuh

H = 1050 Btu/ft.3

BTUH = ?

18.9

 

For high altitude installations, compare result to the derated input required for the elevation at the installation location.

c.Remove the pressure regulator cover screw (Figure 16) and adjust the pressure by turning the adjusting screw with a small screwdriver. Do not exceed 4.0" on BTH 120 and 250 (3.5" on BTH 150 and 199) Water Column.

Clockwise to increase gas pressure and input rate. Counterclockwise to decrease gas pressure and input rate.

d.“Clock” the meter as in step (b) above.

e.Repeat steps (c) and (d) until the specified input rate is achieved.

f. Turn the manual gas valve to “OFF”. Replace the pressure regulator cover screw. Remove the pressure gauge or manometer from the manifold pressure tap. Replace the set screw in the manifold pressure tap. If the gas pressure regulator cannot be adjusted to give the full input rating with sufficient gas pressure at the valve, check to ensure the unit is equipped with the correct orifice.

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A.O. Smith BTH 120 - 250 Prior to Start UP Adjustment Procedure, Operating Instructions, Required Ability Initial START-UP

BTH 120 - 250 specifications

The A.O. Smith BTH 120 - 250 is a high-efficiency water heater designed for commercial and industrial applications, renowned for its advanced technology and durable construction. This model stands out for its ability to provide reliable hot water while minimizing energy consumption, making it an ideal choice for businesses looking to enhance operational efficiency.

One of the main features of the A.O. Smith BTH series is its innovative design that integrates cutting-edge condensing technology. This system maximizes energy use by capturing and reusing heat that would otherwise be lost in traditional water heating methods. As a result, the BTH 120 - 250 delivers exceptional thermal efficiency ratings, often exceeding 90%, thereby reducing overall operating costs.

The BTH series is available in various capacities, ranging from 120,000 to 250,000 BTU per hour, ensuring that it meets the diverse needs of different businesses. This flexibility allows for installation in a variety of settings, from small restaurants to large manufacturing facilities.

Another significant characteristic of the BTH 120 - 250 is its robust construction. Built with high-quality materials, this unit is designed to withstand the rigors of continuous use. Its stainless steel heat exchanger resists corrosion and scale build-up, providing longevity and reduced maintenance requirements.

Safety features are integrated into the BTH series as well. It includes an electronic ignition system that eliminates the need for a standing pilot light, enhancing operational safety and reducing energy waste. Additionally, the built-in diagnostic system allows for quick identification of issues, streamlining maintenance procedures.

The BTH series also emphasizes user-friendly operation. Equipped with advanced control options, operators can monitor and adjust performance settings effortlessly. The digital display provides real-time operational data, which can assist in optimizing performance and ensuring consistent hot water availability.

In summary, the A.O. Smith BTH 120 - 250 is an exceptional choice for commercial water heating, combining high efficiency, advanced technology, and robust durability. Its innovative design, safety features, and user-friendly controls position it as a trusted solution for businesses seeking reliable hot water systems. By investing in this model, operators can ensure optimal performance while enjoying significant energy savings over time.