Notice – Burnham RSA User Manual

35

nozzle will compress when burner is on and will

expand when burner stops, causing oil to squirt from

nozzle at low pressure as burner slows down and

causing nozzle to drip after burner stops. Usually

cycling the burner operation about 5 to 10 times will

rid oil line of this air.

2. IF NOZZLE CONTINUES TO DRIP, repeat step

N.1. If this does not stop the dripping, remove cut

off valve and seat, and wipe both with a clean cloth

until clean. Then replace and readjust oil pressure.

If dripping or after burn persist replace fuel pump.

O.

HINTS ON COMBUSTION
1. NOZZLES— Although the nozzle is a relatively

inexpensive device, its function is critical to the

successful operation of the oil burner. The selection

of the nozzle supplied with the RSA boiler is the

result of extensive testing to obtain the best flame

shape and efficient combustion. Other brands of

the same spray angle and spray pattern may be

used but may not perform at the expected level of

CO

2

and smoke. Nozzles are delicate and should

be protected from dirt and abuse. Nozzles are mass

produced and can vary from sample to sample. For

all of those reasons a spare nozzle is a desirable item

for a serviceman to carry.

2. FLAME SHAPE — Looking into the combustion

chamber through the flame plug hole, the flame

should appear straight with no sparklers rolling up

toward the top of the chamber. If the flame drags to

the right or left, sends sparklers upward or makes

wet spots on the combustion chamber, the nozzle

should be replaced. If the condition persists look

for fuel leaks, air leaks, water or dirt in the fuel as

described below.

3. FUEL LEAKS— Any fuel leak between the

pump and the nozzle will be detrimental to good

combustion results. Look for wet surfaces in the air

tube, under the ignitor, and around the air inlet. Any

such leaks should be repaired as they may cause

erratic burning of the fuel and in the extreme case

may become a fire hazard.

4. AIR LEAKS— Any such leaks should be repaired,

as they may cause erratic burning of the fuel and in

extreme cases may become a fire hazard.

There may be many possible causes of leaks in oil

lines such as:
a. Fitting leaks due to misflared tubing or damaged

fitting.

b. Fuel line leak due to crushed or bent tubing.
c. Filter connection leaks.
d. Tank connection leaks.

The following actions can eliminate air leaks:

a. Bleed pump as detailed in System Start-Up

Section of this manual.

b. Replace flare fittings.

c. Replace oil supply line.
d. Repair oil filter leaks
e. Replace or repair tank fittings.

5. GASKET LEAKS— If 11.5% to 12.5% CO

2

with a

#1 smoke cannot be obtained in stack, look for air

leaks around the canopy seal. Such air leaks will

cause a lower CO

2

reading in the stack. The smaller

the firing rate the greater effect an air leak can have

on CO

2

readings.

6. DIRT— A fuel filter is a good investment.

Accidental accumulation of dirt in the fuel system

can clog the nozzle strainer and produce a poor

spray pattern from the nozzle.

7. WATER— Water in the fuel, in large amounts, will

stall the fuel pump. Water in the fuel pump, in

smaller amounts, will cause excessive wear on the

pump, but more importantly water does not burn.

It chills the flame, causes smoke, and allows un-

burned fuel to pass through the combustion chamber

and clog the flueways of the boiler.

NOTICE

CHECK TEST PROCEDURE. A very good test for

isolating fuel side problems is to disconnect the

fuel system and with a 24" length of tubing, fire

out of an auxiliary five gallon pail of clean, fresh,

warm #2 oil from another source. If the burner runs

successfully when drawing out of the auxiliary

pail then the problem is isolated to the fuel or fuel

lines being used on the jobsite.

8. COLD OIL— If the oil temperature approaching

the fuel pump is 40°F or lower, poor combustion

or delayed ignition may result. Cold oil is harder

to atomize at the nozzle. Thus, the spray droplets

get larger and the flame shape gets longer. An

outside fuel tank that is above grade or has fuel lines

buried in the ground above the frost line is a good

candidate for cold oil. The best solution is to place

the tank and oil lines in the ground below the frost

line.

9. HIGH ALTITUDE INSTALLATIONS
Typically, the rule to use for high altitudes is to

increase the air supply by 4% per each 1000 ft.

above 2000 ft. altitude from sea level. This means

that the air setting will have to be higher than the

calibration marks in proportion to the altitude. Use

instruments and set for 11.5 to 12.5% CO

2

.

10. START-UP NOISE — Late ignition is the cause of

start-up noises. If it occurs recheck for electrode

settings, flame shape, air or water in the fuel lines.

11. SHUT DOWN NOISE — If the flame runs out of

air before it runs out of fuel, an after burn with

noise may occur. That may be the result of a faulty

cut-off valve in the fuel pump, or it may be air