Nortec WB230 Installation guide

Brand: Nortec

Model: WB230

Type: Installation guide

This manual is also suitable for

Multi-fuel oil burners

NORTEC WB

Installation manual

Models WB60, WB120, WB230, WB270

www.nortec.pro

2013

Read carefully the Guide before installing and using the burner

Nortec WB!

Installation and start works have to be carried out only by specialists.

Power supply must be switched off before the works start!

Neglecting safety rules can cause an accident.

Dear customer!

Thank you for purchasing NORTEC products. We do everything to make sure you use

NORTEC equipment effectively for a long time!

1. Multi-fuel burners NORTEC WB features

NORTEC WB burners use waste engine and transmission oil, kerosene, diesel oil, light fuel oil,

liquid animal and vegetable oil.

Don’t use as fuel:

flammable liquids such as gas, ester, acetone, spirit etc.

The burners combine the functions of fuel supply, heating, spray and air supply, ignition and

flame supervision, so achieving automatic control of the combustion process.

Thanks to their robust and high-quality design NORTEC burners have the following features:

1. Well-automated fuel supply.

NORTEC burners are low pressure burners and compressed air supply with the pressure

from 0.15 to 0.4-0.5 MPa is required for good fuel spray.

2. Optimum mix of air and fuel, stable flame and efficient combustion.

The burners use air swirl technology with a sparger that provides fine and even mix of

sprayed fuel and secondary air, stable, complete and economic combustion.

3. Safe, reliable, automatic control.

NORTEC burners are equipped with an advanced control and safety system from Siemens.

It stops fuel supply and combustion process in case of emergency. Automatic control of fuel

temperature, fuel level in the chamber of preliminary heating, ignition and flame, the system

of automatic shutdown and restart make NORTEC WB burner easy and safe to use.

4. Flexible installation.

Each burner is equipped with long combustion tube and sliding flange that allows to use the

burner with any boiler and heat generator.

5. Easy maintenance.

The burners are easy to dismantle for regular cleaning and service.

2. Multi-fuel burners NORTEC WB description and features

NORTEC WB burners are designed in 2 frames of typical sizes (see section 4).

Models WB60/120 (pic. 1) have one line to connect compressed air and one pressure regulator.

Models WB 230/270 (pic. 2) have two lines to connect compressed air and two pressure

regulators what follows the principle of two-stages start.

Pic. 1 Burners NORTEC WB60 and WB 120

Pic. 2 Burners NORTEC WB230 and WB270

Preliminary fuel

heater

Air regulator with a moisture

separating filter and manometer

Control chamber with an

indicator of emergency

shutdown

Electric socket

Electromagnetic

valve

Ignition transformer

Photocell

Fuel heating

thermostat

Nozzle for

adding fuel

Combustion tube

Fuel heating

thermostats

Preliminary fuel heater

Air regulators with a

moisture separating

filter and manometer

Electromagnetic

valves

Electric socket

Control chamber with an

indicator of emergency

shutdown

Ignition transformer

Photocell

Combustion tube

Diffuser

Fan electric engine

Technical features of the burners NORTEC WB:

Model

Heat

power

Air

consumption

Air

pressure

MPa

Fuel

consumption

kg/h

Power

consumption

(voltage/frequency)

V/Hz

Number and

value of

nozzles

Weigh

t, kg

WB 60

30–59

0,15-0,3

3,65–6

1,5 (220/50)

1 / 2.0 –

WB 120

55–130

9,5

0,2-0,3

6,03–13

1,5 (220/50)

2 / 2.0 –

WB 230

130-230

0,2-0,4

14-23

2,6(220/50)

2 / 2.5 –

WB 270

190-270

0,2-0,4

19-27

2,6(220/50)

3 / 2.5 –

45,5

The sizes of burners – see section 4.

3. Diagram and function of NORTEC WB burners

* *not in the models NORTEC WB60 and WB120

** model NORTEC WB60 has 1 nozzle, WB120 and WB230 have 2 nozzles each and WB 270 - 3 nozzles

1. After getting a signal from the float placed in the preliminary fuel heater box the pump of

the lifting unit starts filling the box. At some point depending on the position of the float a

micro switch goes off which means that the box is full and the pump is off.

2. The thermostats of the preliminary fuel heating box set the maximum and minimum

temperature for heating the fuel.

3. From the thermostats signal the heaters start heating the fuel. At the minimum temperature

of the fuel one of the thermostats switches off and only one heater remains to work.

4. As soon as the given temperature of the oil is reached, the second heater switches off and

the burner gets ready to blow off the chamber of combustion. At this moment the fan of

secondary air works and the primary air valve is closed.

nozzles **

Preliminary fuel

heater

Lifting unit with

a pump and filter

External fuel tank

Compressed air line 1

Solenoid valves

Primary air

regulator 1

fuel

Primary air

Compressed air line 1

Primary air

regulator 2*

float

5. After the blow-off is finished, the control chamber sends a signal to start ignition and opens

the electromagnetic valve for compressed air line 1. The air goes through the filter

separating moisture that has a pressure regulator and manometer. The amount of

pressure for primary air of line 1 is set within 0.15 - 0.4 MPa.

6. While going through the nozzle primary air causes vacuum on the fuel line and it starts

sucking the heated fuel from the preliminary heater.

7. In the flow of primary air the fuel gets atomized (becomes finely dispersed) and mixes up

with a swirled flow of secondary air.

8. The spark sent to the ignition electrodes inflames air and fuel mix. The photocell marks the

presence of flame, and the ignition process begins.

9. After a while the control chamber sends a signal to open the electromagnetic valve of line

2 (not in NORTEC WB 60/120 burners) and the burner starts working at full power.

10. For models NORTEC WB 60/120 full power of a burner is shown by the amount of primary

air pressure in line 1, and for models NORTEC WB 230/270 it is shown by the amount of

pressure in both inlets.

11. If the fuel level in the preliminary heater gets lower a certain level, the float goes down and

blocks the pump contact. The fuel is added in the heater.

12. If the flame goes out when the fuel runs out because of too high primary air pressure or

due to other reasons, the photocell switches the burner off and the error signal turns on.

Manual restart is needed.

13. If the temperature of the fuel in the heater is lower than it was given on the thermostat, the

burner stops working and heats the fuel up to the given temperature. The restart is

automatic.

4. Design, main elements and sizes of NORTEC WB burners

Pic.3 NORTEC WB burners elements

Pic.4 NORTEC WB burners dimensions

* Air line 2 is in NORTEC burners WB 230 and WB 270

Dimension and set-up sizes of burners NORTEC WB

5. Burner head (electrodes and dispenser position) adjustment

Consistent ignition, optimum flame shape and the most efficient combustion depend on correct

adjustment of such elements as dispenser, nozzles, combustion tube and ignition electrodes in

relation to each other.

An incorrect electrode position causes inconsistent ignition or contamination of the electrodes.

An incorrect dispenser position may change the flame shape and burner power, cause drops of

unburnt fuel on the bottom of the combustion chamber.

To adjust the burner head correctly use the diagrams (pic. 5 and pic.6) and the chart showing

distance between the elements.

Before starting the adjustment take the combustion tube off by unscrewing 4 fixing screws that

attach the tube to the burner shell.

Adjustment of the burner with 3 nozzles (WB 270) is similar to the one for the burner with 2

nozzles (WB 230).

Element name (pic.1)

Diffuser (not used in models WB60 and WB120)

Combustion tube

Asbestos heatproof pad

Installation flange

7-pin socket for power and fuel pump connection

6 А, B

Thermostats unit for preliminary fuel heating

Preliminary fuel heater

Burner shell

Fan engine

Socket for compressed air connection

Control chamber with an indicator of emergency shutdown

Drain tap of the preliminary heater

Ignition transformer

View hole

15 (1),(2)*

Electromagnetic valves (solenoids) 1 and 2* of air lines

16 (1),(2)*

Air filters separating moisture and regulating primary air pressure in lines 1

and 2*

Drain tap of the preliminary heater

Fuel way inlet

Size

WB60/120, mm (pic. 2)

WB230/270

460

530

280

300

180

230

205

212

415

540

80 – 110

105 – 200

134

137

105

150

114

Pic. 5 Burner with 1 nozzle

Pic. 6 Burner with 2 and 3 nozzles

Element name (pic. 1)

Diffuser (not for models WB60 and WB120)

Dispenser

Nozzle

Electrode

Combustion tube

Burner

model

Relative distance between elements (mm)

WB 60/120

4-5

2-4

5.5-6

WB 230/270

5-6

3-5

5-7

A dispenser position affects relation of the volumes of straight air going along the outer edge of

the dispenser and swirled air going through the dispenser blades. If distance A gets bigger, the

volume of straight air grows, fuel mixes with air at lower speed, the flame grows higher and

becomes less consistent. If distance A gets smaller, the flame becomes less intensive, air and

fuel mix at higher speed, the flame gets shorter and wider.

6. Secondary air shutter adjustment

A secondary air shutter is used to adjust the burner according to back pressure in the

combustion chamber to get maximum fuel combustion. NORTEC WB burners are single-stage

with manual adjustment of the shutter.

To do the adjustment loose screw A (pic. 7) and get the amount of CO

in waste gas within 10-

11,5% by adjusting the air shutter, then tighten screw A.

Pic.7 Secondary air shutter

7. Burner power (primary air pressure) adjustment

Pic. 8 Primary air control with air filter

Inlet connector for

compressed air

Manometer

Drain filter valve

Air inlet

Pressure regulator cap

Burner power is regulated by changing primary air pressure.

To maintain combustion primary air pressure in inlet 1 with open electromagnetic valve has to

be more than 0.15 MPa and less than 0.3 MPa.

This value is set on the regulator for a burner with one air line (NORTEC WB60/120) and on a

regulator of line 1 (left manometer) for burners with two air lines (NORTEC WB230/270).

To adjust primary air pressure pull the pressure regulator cap up and rotate it to increase or

decrease the pressure.

To increase pressure rotate the regulator cap clockwise, to decrease it rotate the cap counter-

clockwise.

After adjustment press the cap lightly to get it back to its start position.

The set pressure is reflected on the manometer of each regulator.

The pressure in the second line of burners NORTEC WB 230/270 can be more than 0.4 MPa

and is chosen according to the allowed boiler power.

NB! Sometimes the manometer shows the set pressure value with a closed

electromagnetic valve, but after it is open, the pressure falls abruptly. It’s important to

get the set pressure value by rotating the cap when the valve is open.

In case of condensed vapor in the drying filter box, pour it out by pressing the drain valve head.

8. Preliminary fuel heating temperature

Consistent fuel combustion are provided with fine spray and ignition. For this reason, the fuel is

heated in the preliminary heating chamber where fuel viscosity is lowered.

The preliminary heating chamber has two heaters each of which is controlled by its own

thermostat.

Thermostats knobs are placed on the front board of the heater (pic. 9).

Pic. 9. Regulating thermostats

Thermostat 1

Thermostat 2

Thermostat 1 (top thermostat) controls switching on and off the burner automatic system. It

must set on 0 if diesel or kerosene are used and in case of other fuel types it must be set on the

temperature indicated in the chart below:

Fuel type

Thermostat 1

temperature,

Thermostat 2

temperature,

Diesel

Kerosene

Waste motor oil

75-80

Waste transmission oil

80-85

Vegetable oil

100

105-110

After the burner is turned on, both heaters get switched on and fuel heating begins. As soon as

the fuel is heated up to the temperature set on the thermostat 1, the burner control chamber

starts working and the ignition begins, then the heater 1 switches off. The heater 2 is on to keep

the fuel temperature up to its working value.

NB! Fuel characteristics may differ a lot. Generally, starting the burner first time set

thermostat 2 on its maximum temperature at which fuel doesn’t start boiling yet. Set

thermostat 1 5-10 grades lower than thermostat 2

9. Photocell, fault indicator and controller

Photocell is a flame-monitoring device. If the burner hasn’t started up or the flame has gone out

suddenly, the photocell sends a signal for emergency shutdown of the burner. In 10 seconds

after the photocell discovers flame absence, the burner will be shut down and the emergency

indicator will be switched on the control chamber.

NB! If the photocell is exposed to intense room light that gets inside the burner

through the view hole, the burner may stop working correctly. Keep the view hole

away from intense light source.

Emergency shutdown indicator is placed on the control chamber surface and it looks like a

rubber red button. In case of emergency the control chamber switches off the burner and the

emergency light turns on inside the indicator.

NB! In case of emergency shutdown the burner’s work can be resumed only after a

complete fix of the emergency situation. Then the burner can be manually restarted.

To restart the burner manually press the emergency indicator button until it clicks. The indicator

will switch off and the burner will start up again. If necessary an emergency signal (lamp or ring)

can be connected to inlet T1 as it is shown on the diagram of burner electrical wiring (see

below).

NB! To prevent premature manual restart the control chamber has a restart delay for

3 minutes after emergency shutdown.

Control chamber Siemens LOA24.171B27 is placed on the right above the burner electric

engine. It controls safety and consistency of the burner work in automatic mode. The control

chamber has the following work periods:

Emergency shutdown delay,

sec.

Blow-off, sec.

Ignition, sec.

Period before flame

control start, sec.

10. Electric wiring diagram

NB! Installation, connection and adjustment works on burners NORTEC WB must be carried

out only by qualified staff having a pass to electric installation, experience in service and

installation of these burner types and authorized by the producer or official distributer of

NORTEC equipment.

Pic. 10 Electric diagram of burners NORTEC WB 60/120

Н3

To the pump of a

lifting unit

Burner socket

Pic.11 Electric diagram of burners NORTEC WB 230/270

Electric diagram symbols:

K1: Heater №1

K2: Heater №2

K3: Heating elements of fuel inlets

H1: Thermostat №1

H2: Thermostat №2

H3: Floating switch of a fuel pump

LOA24: Control chamber of the burner

TA: Ignition transformer

V1: electromagnetic valve of air inlet 1

V2: electromagnetic valve of air inlet 2

M: burner fan engine

FR: photocell

HL: external emergency shutdown signal

F: cutout (16A)

TC: boiler thermostat

TS: safety thermostat

Electric diagrams of NORTEC burners WB 230 / 270 have an electromagnetic valve for

compressed air inlet 2.

To the pump of a

lifting unit

Н3

Burner socket

11. Lifting unit

A lifting unit (pic. 12) has a gear pump with its own electric engine, a flange to connect fine fuel

filter and a set of flexible tubes one of which has a sieving fuel inlet on the end.

Pic. 12 Lifting unit with a fine fuel filter

Instead of a fine fuel filter any car oil filter with standard rim diameter and screw can be used.

Cargo vehicle filters are more long-lasting because of their large volume.

Before installing an oil filter fill it with fuel and put some on a rubber o-ring. Assembling and

dismantling the filter should be done with a catch hook that can be bought in a car parts shop.

The lifting unit has to be installed on the main fuel box, if it is placed in the room next to the

burner, or on the waste fuel box next to it, if the main box is not placed in the room. In the latter

case the fuel flow from the main box to the waste one has to be organized.

Electric connection of the lifting unit is done according to the burner electric diagram (pic.10 and

11)

The base box of the lifting unit must be grounded!

NB! To keep fuel clean, a sieving fuel inlet needs to be installed so that its lowest part

was no less than 15-20 cm from the bottom of the fuel box. It will prevent water and

solid dregs from getting into the burner.

It is better to have a floating fuel inlet. For this purpose, any suitable float (sanitary or an empty

plastic bottle) can be adjusted to it. It is recommended to use a limiting chain or wire which will

not let the fuel inlet to go down to the bottom of the box. (pic. 13)

Electric engine

Gear fuel pump

Fuel filter flange

To the fuel box

(via flexible tube

with a fuel inlet)

To the burner

(via blue flexible tube)

Base box

So, the fuel intake will mostly happen from the top, cleanest layers and, thus, service intervals

for the burner will increase a lot.

It is recommended to do the cleaning and service of the fuel box to get rid of solid dregs and

moisture concentrating on the bottom of the box at least once a month.

That is why, while installing the fuel box, one of its walls needs to be inclined and a drain tap

adjusted to its lowest part.

Pic.13 Floating fuel inlet diagram

NB! Service intervals and the burner lifetime directly depend on the purity of the fuel.

It is recommended to filter the fuel before pouring it into the fuel box, settle the

vegetable oil in cold environment at least for 1-2 weeks before use. Change the

filtering element of the lifting unit at least once a month.

12. Installation of the burner and fuel system

Install the burner on the furnace of a boiler or heat generator using a set-up flange 4 and an

asbestos pad 3 (pic. 4).

To do that:

1. Loose the flange screw so that the burner combustion tube 2 could move easily in the

flange hole. Draw the flange beaks apart with a big screwdriver, if needed.

2. For burners WB230 and WB270, dismantle diffuser 1 by unscrewing three locking screws.

3. Put the flange on the combustion tube with its flat part to the furnace and adjust it on the

combustion tube. Length of the combustion tube sticking out into the combustion chamber

is indicated in the manual for your boiler (heat generator). Calculating a place for the

flange take the thickness of pad 3 and the length of diffuser 1 into account. (pic. 4).

4. Tighten the flange screw so that the burner had a horizontal position after installation.

Don’t tighten too much to avoid breaking the flange.

5. Put on a pad and diffuser, tighten the locking screws of the diffuser.

to the pump

Float

fuel

dregs and

moisture

sieving fuel inlet

limiting chain

Fuel tank

6. Connect the burner and the furnace and fasten the flange with four screws. Tighten the

flange screws diagonally so the pad was pressed to the furnace evenly. Don’t allow the

flange inclination error!

After installing the burner, install the lifting unit on the fuel box. (pic. 12).

Adjust a fuel inlet in the fuel box as it is shown on pic. 13 and connect the flexible tube of the

fuel inlet with the pump nozzle.

Set the nozzle in the hole 18 (pic.4) of the burner preliminary heating box.

The nozzle is an angle brass unit with carving and a pad. It is screwed onto a blue flexible tube.

Disconnect the nozzle from the flexible tube and put its carving part with a pad inside the box

into the hole 18 so that the outlet hole of the nozzle looked down. Put a nut of the blue flexible

tube on the carving from the outside and tighten until the connection is stationary and leak-

proof.

NB! The nozzle hole must look down for safe fuel entry.

Connect the end of the blue flexible tube to the pump nozzle (pic.13).

Install the filtering element from the kit on the flange of the lifting unit (pic.13)

For that, first fill the element with fuel and put some fuel on a rubber ring pad to make the

connection leak-proof.

NB! Further on it is possible to use any suitable car oil filter as a filtering element.

Using cargo vehicle filters will increase service intervals and help the pump work

thanks to their big volume and large surface of the filtering element.

Connect an oil-resistant flexible tube to the nozzle for fuel flow (pic.1) and return it to the main

fuel box or a metal box with at least 5-liter volume in case of accidental overflow of heated fuel

from the heater box. So you will keep your room tidy and avoid losing the fuel.

NB! The main fuel box must NOT be higher the drain nozzle of the preliminary

heating box (pic.1). Otherwise the fuel will get into the heater uncontrollably and

cause fuel overflow what may lead to a fire hazard situation.

If the fuel box is below the burner, set up an electromagnetic locking valve on the fuel-supply

line by connecting it into a gap of the power-supply circuit of the fuel pump.

Examples of correct and incorrect installation of the fuel box in relation to the burner can be

found on pic. 14:

Pic. 14 Examples of installation of the fuel box in relation to the burner

13. Electrical connection of the burner

ATTENTION!

Works on electrical connection and start-up of the burner must be carried out only by competent

staff who are allowed to work on electrical connection, have experience in burners installation

and are authorized by the producer or an official distributor of NORTEC products!

Electricity must be switched off before the works start!

Ignoring safety rules may cause emergency!

Damage caused by incompetent installation can not be covered by warranty!

CORRECT

INCORRECT!

Fuel tank

Fuel pump

Preliminary heater

1. Switch off the electricity on the supply line.

2. Connect the cable of the lifting unit pump to suitable inlets of the burner outer part. (pic. 10,

11).

3. Connect the outer security thermostat and the heater thermostat into a gap of the power-

supply chain as it is shown on pic.10, 11.

4. Connect the grounding of the lifting unit and burner.

5. Connect the power-supply chain to the burner outer part according to the pictures 10, 11.

6. Check all the connections, tighten the locking screws and check isolation.

14. Burner start-up

Add 3-3.5 litres of fuel into the preliminary fuel heater box so the fuel fills up to ⅔ of the box.

Connect air lines of the compressor. Make sure output pressure of the compressor is at least 4

atm and the compressor capacity is enough for this burner model.

Open the compressor tap and set all the necessary values for air pressure in lines 1 and 2 (see

section 7). For consistent ignition keep the pressure in lines 1 and 2 at 0.2-0.3 MPa.

NB! In some cases when the electromagnetic valve is closed, the manometer shows

the set pressure value, but after the valve gets open, the pressure falls immediately.

Turning the regulator cap get the pressure value back with the electromagnetic valve

open.

Set the temperature in the preliminary fuel heater using thermostats 1 and 2 (6A and 6B on pic.

3) as it is shown in section 8.

Connect the outer burner part to the relevant part on the burner base.

The burner will start working according to the scheme described in section 3.

15. Regulating burner work

Due to back pressure from the combustion chamber of the boiler (heat generator) the burner

power and secondary air volume may need to be regulated.

The burner power depends on the volume of primary air, hence on pressure set on the

regulators 16(1) and 16(2) (pic. 3).

Setting the burner power at the first stage keep the consistency of ignition. Don’t increase the

value more than 0.3 MPa to avoid losing the flame.

At the second stage (for burners WB 230 and WB 270) the pressure can reach 0.4 MPa and

depends on the consistency of this burner work at full power with this boiler model.

Current burner power is defined by fuel consumption which is approximately 1 kg of fuel for 10

kW of burner power at rated operation conditions.

So, if you know the fuel consumption per hour, you can define burner power in this boiler with

this fuel.

It is impossible to define exact burner power value because of different heat capacity of fuel

types used for these burners.

NB! Burner power must NOT be more than rated combustion chamber power. Set

the burner power at about 80% from the rated boiler power. Otherwise, there may be

burnout of the combustion chamber.

The amount of secondary air is regulated by changing the position of the secondary air shutter

(pic.7) as it is described in section 6.

Work diagrams for the burners are shown on pic. 15.

Pic. 15 Work diagrams of burners NORTEC WB

16. Main troubles and their solving methods

Troubles in this section are caused by ignoring the information in this guide or other reasons not

connected with equipment faults.

In case of an equipment fault trouble we recommend you to call an authorized NORTEC service

center or the place where the equipment was purchased to consult a specialist.

NB! Non-authorized repair works make your warranty on NORTEC equipment

invalid!

Restart the burner after trouble shooting by pressing the red button of the emergency shutdown

indicator (section 9).

kg/h

mBar

WB60

WB120

WB230

WB270

Trouble

Possible reason

Solving method

Burner does not start after

start-up or works

inconsistently giving out an

error

Primary air pressure in line 1

is set beyond recommended

value.

Regulate primary air pressure value according to

section 7.

Fuel does not heat up to

necessary temperature.

Increase fuel heating temperature value according

to section 8.

There is too much moisture in

the fuel.

Let the fuel stand before use. Adjust the floating fuel

inlet according to section 11.

There are mud or solid dregs

in the fuel.

Replace the filtering element according to section

11. Clean the fuel box, let the fuel stand and adjust

the floating fuel inlet according to section 11.

There is too much synthetic

oil in the fuel.

Add some mineral oil into the fuel. It should be 30%

fuel, 70% mineral oil.

Add 10-20% of diesel to the fuel volume.

Fuel does not ignite properly.

Check the fuel. Replace it or add diesel. Combine

proportion experimentally.

Littered sieving filter in the

preliminary fuel heating box.

Clean the filter. Replace the filtering element of the

lifting unit. Clean the heater box from dregs and

soot.

Moisture in the preliminary

heating box.

Pour moisture out via drain tap 17 (pic.3). Adjust a

floating fuel inlet according to section 11.

Littered nozzles.

Use an authorized service center NORTEC to clean

the nozzles.

Clean the fuel system thoroughly, replace a filtering

element of the lifting unit.

Fuel does is not delivered to

the preliminary heater box

Lifting unit pump is not

connected.

Check the connection and connect the pump

according to section 13.

No fuel in the main fuel box.

Add fuel to the box.

Littered fuel inlet.

Clean the fuel inlet, clean the fuel box from dregs

and moisture, set the floating fuel inlet according to

section 11.

Fine cleaning filter is

exhausted.

Replace the filtering element according to section

11.

Fuel tube is pinched.

Remove the pinch.

The float is hung up in the

heater box.

Release and work on the float. Clean the box from

dregs and resin.

The lifting unit and burner are

too far from each other.

Move the fuel box closer to the burner or set up

another box next to the burner. Make the fuel line

cross section bigger.

Fuel flows out via the drain

hole of the heater box

Fuel is heated up too much.

Turn down the temperature of fuel heating

according to section 8.

The float is hung up in the

heater box.

Release and work on the float. Clean the box from

dregs and resin.

Compressed air is not

delivered to the burner or its

pressure is not enough

The compressor is switched

off.

Switch the compressor on.

The compressor does not

comply with the burner by its

capacity.

Replace the compressor based on the information in

section 2.

Pressure set on the

compressor is too low.

Set the pressure on the compressor within 4-5 atm.

Air tube is pinched or broken.

Check the air connection and solve the trouble.

Condensed water in filters,

settlers of regulators 16

(pic. 3).

Press the drain valve and pour condensed water

out. If necessary, turn the glass cap of the settler off

and clean the sieving filter

The burner power is lower

than indicated

Incorrect burner adjustment in

the combustion chamber.

Regulate the combustion tube position according to

the guide on the boiler or heat generator.

Incorrect regulation of

secondary air use.

Regulate the shutter position according to section

15 or call a specialist from NORTEC service center

to do the adjustment.

Low primary air pressure in

lines 1 and 2.

Regulate primary air parameters according to

section 15 call a specialist from NORTEC service

center to do the adjustment.

To consult a NORTEC representative, please, call: 8 (495) 223 27 03

17. Service and warranty

You have purchased reliable long-life equipment from NORTEC.

For long and smooth use of NORTEC WB burners follow service intervals, regularly monitor the

burner and fuel systems, timely replace the filtering element of the lifting unit and clean the

preliminary heater, fuel inlet, nozzle unit from dregs, soot and mechanical dirt.

Do not allow dregs and moisture to accumulate in the fuel box, timely pour condensed water out

of the fuel box, the preliminary heater box and moisture separating filter of the air line.

Cleaning intervals depend on fuel quality and purity. Normally, a service interval is 1-2 weeks, if

waste oils are used.

NB! Do not use the burner without cleaning for a long time as it will cause difficult-to-

remove dregs on heating elements, float, nozzles and sparger.

To clean the preliminary heater box use a detergent. To remove dregs and soot from nozzles

and sparger use acetone.

To clean the sparger and nozzles take the burner off the furnace without changing the flange

position on the combustion tube.

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