Wolf MKS 250 Technical Manual And Installation Instructions

Brand: Wolf

Model: MKS 250

Category: Water heaters & boilers

Type: Technical Manual And Installation Instructions

This manual is also suitable for

Technical Guide

and

Installation Instructions

MKS / MUS Steel boiler

70 - 550 kW

The installation instructions for the Unit pressure jet oil burner is included in the pressure

jet oil burner pack.

The control unit installation and service instructions

included in the control unit pack.

Wolf GmbH · 84048 Mainburg · Postfach 1380 · Telephone +49-8751/74-0 · Fax +49-8751/741600

Part no. 30 48 034 03/03 TV GB

Suitable for heating systems in accordance with DIN 4751 part 1 and 2 with maximum

flow temperatures up to 120 °C.

Oil- and gas-fired steel boilers

Type MKS

Oil-fired Unit steel boilers

with two-stage pressure jet oil burner

Type MUS

Oil- and gas-fired steel boiler for pressure jet combustion in accordance with EN 303

and EC Directive 90/396/EEC (gas consuming equipment), 73/23/EEC (Low Voltage

Directive), 89/336/EEC (EMC Directive), 92/42/EEC (Hot Water Boiler Efficiency) and 93/

68/EEC (Identification Directive) for heating systems with heating circuit pumps and

flow temperatures up to 110 °C and 4 bar permissible operating pressure in accordance

with DIN 4751 and max. DHW cylinder pressure 10 bar in accordance with DIN 4753.

The NO

limits required by the 1st BImSchV §7(2) are maintained.

Specification

Boiler type MUS 85 100

MKS 85 100 140 190 250 340 420 500

Output range oil/gas (MKS) kW 70-100 85-120 110-160 160-230 200-300 280-380 360-460 420-550

Recommended range (MKS) kW 70-85 85-100 110-140 160-190 200-250 280-340 360-420 420-500

Upper range oil (MUS) kW 70-85 85-100 - - - - - -

Set output UNIT burner MUS kW 85 100 - - - - - -

Flue gas temperatures

from/to °C 145-165 145-165 145-165 145-165 145-165 150 -170 150-165 155-170

stage flue gas temperature °C 120 120 120 120 120 120 120 120

Flue gas mass flow rate

Fuel oil EL CO

=13% kg/h 127-142 142 -168 184-235 269-319 336-420 470-571 605-706 706-840

Flue gas mass flow rate

Natural gas E CO

=9.5% kg/h 125-151 151-178 196-249 285-338 356-445 498-605 641-748 748-890

Flue gas mass flow rate

Natural gas LL CO

=9.0% kg/h 129-157 157-185 203-259 296-351 370-462 517-628 665-776 776-924

Flue gas mass flow rate

LPG CO

=11% kg/h 120-146 146-172 189-240 274-326 343-429 480-583 618-721 721-858

Relative standby loss q

% 0.7 0.7 0.6 0.5 0.5 0.4 0.4 0.3

Total weight MKS kg 406 413 524 730 772 908 975 1035

Total weight MUS kg 426 433 - - - - - -

Boiler dim. Width mm 796 796 796 976 976 1036 1036 1036

Height

mm 1335 1335 1335 1500 1500 1680 1680 1680

Length MKS mm 1415 1415 1760 1950 1950 2085 2085 2085

Length MUS mm 1825 1825 - - - - - -

Flue pipe Ø mm 178 178 195 195 195 250 250 300

Burner aperture MKS mm 130 130 130 245

245

305

Minimum blast tube length MKS mm 170 170 170 215 215 125 125 125

Foundation / plinth Height mm 80/80 80/80 80/80 80/80 80/80 80/- 80/- 80/-

Width mm 800/850 800/850 800/850 1000/950 1000/950 1100/- 1100/- 1100/-

Length mm 1360/1300 1360/1300 1700/1500 1850/1500 1850/1500 2000/- 2000/- 2000/-

Boiler flow

(flange) DN 65 65 65 80 80 100 100 100

Safety flow, air-vent valve

(male thread) R 1¼" 1¼" 1¼" 1½" 1½" 2" 2" 2"

Boiler return

(flange) DN 65 65 65 80 80 100 100 100

Filling, draining, safety return

(male thread) R 1½" 1½" 1½" 1½" 1½" 1½" 1½" 1½"

Boiler water content l 216 213 288 508 494 697 665 635

Boiler gas content l 140 143 206 333 346 428 445 460

Heating surface m

3.5 3.8 5.2 8 8.4 10.6 12.5 14.2

Flue gas resistance

mbar 0.3 0.4 0.8 1.1 1.4 2.0 2.0 2.0

Heating water resistance (at Dt=20K)

mbar 1.2 1.7 3.5 4.5 5.5 9.0 14.0 19.0

Combustion cham. dia. Length mm 808 808 1158 1292 1292 1496 1496 1496

Diameter mm 447 447 447 547 547 588 588 588

Type approval ID 02-226-626

ÖVGW-Reg.-Nr. G2,416

CE designation CE-0085AR0034

Electrical connection 230V / 50Hz / 10A

Max. perm. temperature

°C 120

Max. boiler pressure bar 4

At a mean boiler water temperature of 60 °C for the upper and lower output of the recommended range.

Including control unit

Plain burner plate, drill on-site.

Adjustable high limit safety cut-out: 120/110/100 °C at R31 STAV, R32, R33 and R33/4 (not applicable to installations in Austria).

The chimney stack dimensions must be calculated in accordance with DIN 4705, or local regulations. For flue gas temperatures below 160 °C,

combustion equipment must be connected to highly insulated chimney stacks (heat conductivity resistance class I acc. to DIN 18160 T1) or use

suitable, moisture-resistant, type-tested, flue gas systems.

These installation instructions apply exclusively to WOLF oil- and gas-fired boilers as

well as to WOLF Unit steel boilers.

Authorised personnel should read these instructions before any installation,

commissioning or maintenance work. Adhere to the instructions given in this document.

Non-adherence to these installation instructions voids WOLF warranty.

The following symbols and references are used in these installation instructions:

Non-observance of these references can put individuals at risk.

Non-observance of these references can lead to damage to the oil/gas-fired boiler or

the Unit boiler.

In addition to the installation instructions, operating instructions and adhesive labels

are included or fitted to the boiler. These must also be observed.

Observe the enclosed references for heating system installers.

Only qualified and trained personnel may install, commission and maintain these

boilers.

In accordance with VDE 0105 part 1, work on electrical components (e.g. control unit)

may only be carried out by qualified electricians.

The regulations of VDE/ÖVE and those of your local electricity supplier as well as all

other local regulations are apply to electrical installation work.

Only operate the boiler within its output range which is stated in the specification

supplied by WOLF.

Appropriate use of the boiler refers to the exclusive use in hot water heating systems

in accordance with DIN 4751.

Never remove, bypass or otherwise disable any safety and monitoring equipment.

Only operate the boiler in perfect technical condition.

Any faults and damage with a potential impact on safety, which might limit the safe use

of the equipment, must be remedied immediately by a qualified contractor.

Replace faulty components or equipment only with original WOLF spare parts.

The boilers described in these installation instructions are low-temperature boilers

according to HeizAnlV and 92/42/EEC (Hot Water Boiler Efficiency).

In accordance with the Heating System Order, heating systems above 70 kW may not

be operated in single stage mode.

Retain the enclosed operating instructions clearly visible in the boiler room. Insert all

further documentation in a clear wallet and clip to the boiler side casing.

Your boiler and burner should be maintained and cleaned on an annual basis by a

heating contractor, to ensure the reliable and economic function of your heating system.

We would recommend a maintenance contract.

Boilers may only be installed and operated in boiler rooms which are suitable according

to the Landes-FeuVo [or local regulations].

General

Reference symbols

Safety instructions

Standards and regulations

Safety instructions

Please note:

Installation references

Positioning

The boiler should be installed on a level surface which is substantial enough to carry

its weight.

It is recommended to place the boiler on a foundation or plinth. For dimensions see

the specification.

During the boiler installation observe all building regulations, the FeuVo and VDI 2050

[in Germany] and local regulations, particularly regarding the size of the boiler room,

the fresh air and exhaust air ventilation as well as the chimney stack connection.

Only install the boiler in boiler rooms which are free from frost and where adequate

ventilation is ensured.

Drain the boiler, the DHW cylinder and the entire heating system if there is a danger of

frost, if the system has been shut down.

Position the boiler horizontally or slightly rising towards the back to ensure adequate

venting of any trapped air.

Boilers should not be installed in areas subject to aggressive vapours or very dusty/

highly humid conditions (workshops, washrooms, hobby rooms etc).

The combustion air must be free from halogenated hydrocarbons (e.g. as contained

in sprays, solvents and cleaning fluids, paints and adhesives) and high dust

concentration.

Clearances towards walls and combustible materials must comply with local fire

regulations. The above clearances are recommended.

Keep the flue pipe connection as short as possible and inclined towards the chimney

stack.

Thoroughly seal-in the flue pipe.

Use flue pipe bends with clean-out covers to facilitate the cleaning of the flue pipe.

Repositioning the fixing screws enables the boiler door to be opened in the opposite

hand.

Please note:

1 Thermal insulation: Position (overlapping) around the boiler block and secure with spring clips.

2 Spacers: Secure on the boiler with nuts enclosed.

(MKS-85 to 500) Four spacers at the real panel.

(MKS-85 to 140) Two bottom spacers per side.

(MKS-190 to 500) Three bottom spacers per side and one central top spacer.

3 Thermal insulation: Loosely fitted to the rear boiler wall.

4 Rear panels: Centrally locate both parts and secure with self-tapping screws and with the screws (M8x16)

supplied on the rear boiler wall spacers.

5 Thermal insulation: Insert from the top between door and boiler front and locate on the boiler front.

6 Thermal insulation: Fit loosely to the boiler front and secure with spring clips.

7 Thermal insulation: Fit loosely to the boiler front and secure with adhesive strips.

8 Side panels: Push the l.h./r.h. casing over the rear panel and secure with the screws

(MUS-85 to 100 / MKS-85 to 140) (M8x16) supplied to the lower two spacers.

8 Side panels: Secure the l.h./r.h. front and rear panels with screws (M6x10) then push over the rear panel

(MKS-190 to 500) and secure with the screws (M8x16) supplied on the lower three spacers.

9 Wolf label: Hook into the front panel lid (10).

1 0 Front panel lid: Locate and click into the panel with fitted control unit.

Only complete the fitting of the casing after the control unit has been installed (page 7).

10 Panel lid l.h. rear: Locate on the panel and click into place.

10 Panel lid r.h. rear: Locate on the panel and click into place.

1 3 Type plate: Affix to the boiler in a clearly visible position.

Accompanying documentation: Affix with the clips supplied to the side of the boiler.

Casing installation

Burner cables

stage

Boiler sensor

Control unit cable

Control unit installation

High limit safety cut-out

Ensure, during the control unit installationthat the sensor capillaries are not kinked or

twisted and have only been pulled out of the boiler casing as far as necessary.

Do not route on-site cables for outside temperature and flow temperature sensors

together with mains power cables.

Electrical wiring in accordance with the wiring diagram enclosed.

Ensure that cables which are not required are secured against contact.

R31-STAV control unit

Control accessories

Please note:

Installation and electrical wiring according to the wiring diagram supplied with the

control accessories.

If Wolf boilers are equipped with control units not supplied by Wolf or if technical

modifications are carried out on Wolf control units, Wolf will not be liable for any

consequential losses which may occur.

The high limit safety cut-out (STB) is factory-set to 120 °C.

Change the setting of the STB, if required.

Such changes are irreversible.

Disconnect the control unit from its power supply.

Remove the control unit lid with a screwdriver.

Unscrew the plastic cap and locking nut.

Remove the high limit safety cut-out.

Adjust the setscrew in accordance with the scale.

Install in reverse order.

Changing the setting of the high limit

safety cut-out (STB) for R31-STAV

Observe the respective installation and operating instructions for

R32, R33 and R33/4 control units.

Burner cable

stage

Boiler sensor

Mains supply cable

Heating circuit pump cable

Loading pump cable

DHW cylinder cable

Adjusting the boiler thermostat If necessary, the boiler thermostat can be adjusted from 80 °C to 90 °C. To do this, turn

the boiler thermostat clockwise to its end-stop (80 °C); pull out the rotary selector approx.

3 mm and continue to turn clockwise to its end-stop (90 °C).

Please note: The boiler thermostat must not be set to 90 °C if the high limit safety

cut-out has been adjusted to 100 °C.

Control unit

Guide the cable through the casing lid cut-out, and secure the control unit housing on

the casing lid with the self-tapping screws supplied.

Guide the burner cables

through the boiler front cut-out.

Push the boiler sensors

in any order into the boiler sensor well.

Guide the mains supply cable, and the heating circuit pump cable

through the boiler back cut-out.

Guide the loading pump cable

(for DHW cylinder connection accessories) through the boiler back cut-out.

Guide the DHW cylinder cable

(for DHW cylinder connection accessories) through the boiler back cut-out.

Please note:

Installation / maintenance

Connections

Venting

Safety flow

Flue pipe connection

Draining, filling

Boiler flow Boiler return

Connect the heating flow and return to the respective boiler fittings. For connections,

see above.

Install a check valve behind the boiler circuit pump(s) to prevent incorrect circulation.

Install a safety equipment assembly.

The pipework between the boiler and the safety valve must not be able to be shut off.

Connect underfloor heating via a four-way mixer.

Provide system separation by means of a heat exchanger, when using pipes which are

not impermeable to oxygen.

The boiler and central heating system may only be filled, if a type-tested safety valve

(opening pressure max. 3 bar) has been installed at the "ventilation“ connection of the

boiler.

Install a filling/drain valve to fill the central heating system at the "drain, filling“

connection, and connect a water hose.

Observe the pressure gauge in the safety equipment assembly when filling the system

with water.

Check the safety valve function.

Ventilate the boiler (automatic air-vent valve).

Shut down the heating system and let it cool down.

Open the drain valve on the boiler.

Open the radiator bleed valves.

Pipework

Central heating boiler

Filling the heating system

Draining the heating system

Please note:

Kmin

= min. boiler temperature

Rmin

= min. return temperature

Please note: A weather-compensated control unit is equipped with soft boiler start, which prevents condensate being formed

during the start-up phase.

System Fuel Oil Gas

Control unit R31, R32 R31, R32

R33, R33/4 R33, R33/4

Radiator central heating t

Kmin

°C 38 50

less than 20l/kW t

Rmin

°C 30 40

Design 80/60 Return temp. raising 1-3 2/3

acc. to sys. example

Low-temp. central heating t

Kmin

°C 38 50

with less than 20l/kW; t

Rmin

°C 30 40

Design temperature Return temp. raising 1-3 2/3

55/45 and above acc. to sys. example

Systems with more than t

Kmin

°C 38 50

20l/kW underfloor/ t

Rmin

°C 30 40

low-temp. central heating

Design temperature Return temp. raising 2/3 2/3

under 55/45 acc. to sys. example

Minimum return temperatures To prevent falling below the dewpoint, the following measures for raising the return

temperature are required in order to maintain the minimum temperatures t

Rmin

listed

in the table.

Sizing shunt pump The flow rate of shunt pump V is calculated according to the following formula:

x 3600

V = in m

x ∆t x ρ

V = Shunt pump volume flow in m³/h

= Rated boiler output in kW

= Specific energy 4.2 kWs/kgK

= Specific weight of water 1000 kg/m³

∆t = Temperature differential between the flow temperature and bypass

temperature (recommended design temperature differential 30k)

The shunt pump head results from the boiler pressure loss at the selected volume

flow, the pipework pressure loss as well as all individual boiler circuit pressure

losses.

A return temperature limit stat T switches the shunt pump ON, when the permissible

return temperature is no longer maintained.

A return temperature limit stat T1 switches the shunt pump ON, when the minimum

return temperature is no longer maintained.

If the return temperature falls further, the return temperature limit stat T2 signals to

the control unit R, which throttles the heat transfer via one or several mixers M in the

heating circuit.

A return temperature limit stat T regulates a distribution valve M, so that if the

permissible return temperature is no longer maintained, the heating circuit flow will

be partially or fully closed.

After the boiler has been heated up, the distribution valve M will open as wide as the

permissible return temperature requires.

The distribution valve M, can also be installed as mixer into the return.

System example

Minimum return temperatures /

return temperature raising facility

MKS MUS

Type 85 100 140 190 250 340 420 500 85 100

Output range kW 70-100 85-120 110-160 160-230 200-300 280-380 360-460 420-550 70-85 85-100

Min. boiler output

burner stage 1

kW 51 60 84 114 150 204 252 300 51 60

Fill water / burner connection

Fill water Water guidelines for heating systems in accordance with VDI 2035 at operating

temperatures up to 100 °C:

Burner connection

Observe the TRD 411 (oil combustion) and TRD 412 (gas combustion) guidelines.

The gas installation and operation of heating systems must comply with the DVGW

Code of Practice "Gas" and the technical connection conditions of your gas supply

company and/all local regulations.

Burner size MKS-85-140 Acc. to EN 226 adjustable to burner size

connection

MKS-190 - Burner plate in acc. with blast tube dia.

MKS-500 cut-out and tap thread.

Match the door insulation to the blast tube diameter of the burner.

The blast tube must protrude into the combustion chamber at least 25 mm beyond the

door installation.

Use fixing screws for the burner flange, which cannot the inserted into the boiler

door more than 15 mm.

Connect the ventilation fitting at the sight glass with the burner fitting.

After the control unit installation, plug the burner cable into the burner.

Ensure that the combustion output matches the rated boiler output.

Observe the details provided by the burner supplier.

To prevent the system falling below the dewpoint, the following minimum boiler output

for two-stage burners are required for the first stage:

Minimum boiler output

*) for exceptions see VDI 2035

(+) may be required, see VDI 2035

Water guidelines for heating systems in accordance with VdTÜV guidelines at

operating temperatures above 100 °C:

Filling and

top-up water

Circulating water

Residual hardness

mval/kg

pH value

Diamide Na

p value

mval/kg

<0.03 0.5-1.5 8.5-10.0 0.5-25 10-40

Group

Total of rated

boiler output Q

Filling and top-up

water

Heating water

Total alkaline

earths in mol/m³

pH value Diamide Na

Excess in mg/kg

0Q ≤ 100 -*) - - -

1 100 < Q ≤ 350 1 to 3 8 to 9.5 - -

2 350 < Q ≤1000 1 to 2 8 to 9.5 2 to 5(+) 5 to 20(+)

Excess in mg/kg

Electrical connection

Mains power connection 230V 50 Hz 10 A

To the control unit

Heating system

emergency

stop switch

(on site)

Heating circuit pump(s) / return shunt pump connection

Return limit thermostat

Heating circuit

pump on-site

Return

shunt pump

Burner two-stage without socket part

Burner plug

plug into the

control unit

Burner plug on the

control unit

Burner with socket part

Burner socket part Burner socket part

stage 2

stage

Connection for on-site safety equipment

To the control unit

To the burner

Terminals for

low water indicator

Terminals for

safety pressure

switch

Control unit

junction box

Terminals for

remote pressure

monitoring

Burner connection

To the control unit To the control unit

ye/gn

PE L1 N

ye/gn

blk ye/gn blu br w gr r 2 3 4 1

blk ye/gn bl br w gr r

To the control unit

Remove the burner plug from the control unit, connect the black to

the brown core and connect the white core to the burner phase.

Electrical connection Connect the heating circuit pump(s), the return shunt pump and the DHW cylinder

loading pump(s) on-site via contactors, if:

- three-phase pumps (400 V) are connected.

- burner and pump draw more than 2 A each.

- the total control unit power consumption is exceeded.

3 x 1.5

3 x 1.0

7 x 1.0

4 x 1.0

blk

7 x 1.0

4 x 1.0

Safety equipment

Expansion vessels of sealed heating systems are provided with a standpipe as safety

equipment in accordance with DIN 4750 or a safety valve in accordance with TRD 721.

Install an expansion vessel compliant with DIN 4807 T2 for each boiler system at its

highest point.

A thermometer with sensor well is fitted to the flow of each boiler.

Each boiler is equipped with a water level indicator which is visible from the boiler

control position, which enables the static pressure of the heating system to be

checked that any time.

Mark the lowest permissible water level on the water level indicator.

The pipework between the boiler, the expansion vessel and the safety valve must not

be able to be shut off. A valve which has been protected against unauthorised closure,

e.g. a cap valve, would also be acceptable.

The system diagram only indicates the safety requirements but is not a recommendation

for specific types of heating network control.

Fresh air

ventilation/

exhaustion

Cap valve

Safety valve

Expansion vessel

Test line

Heat consumer

Shut-off valve

Boiler fill and

drain valve

Safety valve

Expansion vessels

Thermometer

Water level indicator

Please note:

Thermometer

Safety equipment

acc. to DIN 4751 part 1

Scope:

Open and sealed, physically

protected heat generator systems

with flow temperatures up to 100 °C.

Safety equipment

acc. to DIN 4751 part 2

Scope:

Sealed, thermostatically

protected heat generator systems

with flow temperatures up to 120 °C.

Thermometer

Heat. circ. pump

Safety valve

Pressure

gauge

Heat consumer

External pressure

monitoring

Fresh air

ventilation/

exhaustion

Cap valve

Expansion vessel

Drain valve

Minimum pressure

switch

Boiler fill and drain valve

Every boiler must be protected against exceeding the permissible operating pressure

by a diaphragm safety valve or other spring-biased safety valves. Safety valves must

comply with TRD 721. A maximum of three safety valves may be applied to each heat

generator. A flash trap must be installed immediately next to each safety valve for

boilers with a rated output in excess of 350 kW. The installation of flash traps is not

required for hot water heating systems, if each heat generator is equipped with one

or an additional STB and one or an additional pressure switch.

Sizes and internal diameters of diaphragm safety valves, dimensions of supply lines

and blow-off lines.

Safety valve

Diaphragm

safety valve

Blow-off output in kW 50 100 200 350 600

Size, internal diameter, DN 15 20 25 32 40

Fitting thread for supply line G ½" G ¾" G 1" G 1¼" G 1½"

Fitting thread for blow-off line G ¾" G 1" G 1¼" G 1½” G 2"

The water and gas chamber of pressure expansion valves must be calculated in

accordance with DIN 4807 part 2.

If the permissible operating pressure is lower than the highest working pressure of

the pressure dwell valve, protect the expansion vessel by suitable type-tested safety

valves against excessive pressures. Size open expansion vessels for a minimum

pressure of 2 bar.

Arrange all expansion vessels with shut-off facilities towards the heating system.

Ensure that the shut-off equipment is sufficiently protected against unintentional

closure (e.g. cap valve protected with a wire and seal).

Equip each boiler with a type-tested low-water indicator. A low-water indicator is not

required for boilers up to 350 kW, since excessive heating at low water conditions is

prevented. This was verified as part of the type testing of the STB installed in the control

unit.

Expansion vessels

Low water indicator

Open flash trap

Low water indicator

Maximum pressure

limiter

Install a temperature indicator and a facility for checking the flow temperature into the

boiler flow line, so that the actual heating water flow temperature can be recorded. The

permissible flow temperature must be permanently marked on the display scale.

The boiler must be equipped with a pressure gauge with immediate connection to

the water chamber or in immediate proximity of the flow, as well as a suitable

connection for the pressure testing device according to DIN 16263 or DIN 16271. The

response pressure of the boiler safety valve and the minimum system pressure must

be permanently marked on the display scale.

Equip every boiler, which is protected above 3 bar or which has a rated output higher

than 350 kW, with a maximum pressure switch (type-tested according to VdTÜV Code

of Practice Issue 100/l).

Monitor the operating pressure of hot water heat generator systems with a minimum

pressure switch, type-tested in accordance with the VdTÜV Code of Practice Issue

100/I, in order to prevent water evaporating inside the heating system as a result of

insufficient external pressure.

Install a check valve downstream of the boiler circuit pump to prevent incorrect

circulation.

The pipework between the boiler, the safety valve and the low-water indicator must

not be able to be shut off.

The system diagram only indicate the safety requirements, but is not a recommendation

for specific types of heating network control.

Thermometer

Pressure gauge

External pressure monitoring

Please note:

Safety equipment

Approximate sizing of

chimney cross-sections

Approximate calculation:

Circular cross-sections

Rated output in kW

Required chimney size

in cm x cm

Effective chimney height in m

Rated output in kW

Please note:

We recommend that you let your chimney manufacturer design the chimney.

Square cross-sections

Required chimney diameter

in cm

Part numbers

1 Thermal insulation

2 Spacers

3 Thermal insulation

4 Back panels

5 Thermal insulation

6 Thermal insulation

7 Thermal insulation

8 Side panels

9 Wolf label

10 Front panel lid

11 Left-hand rear panel lid

12 Right-hand rear panel lid

13 Type plate

MKS

Steel boiler MKS / MUS 70 up to 550 kW Part no. 85 100 140 190 250 340 420 500

Packing cord for boiler door, 3200 mm long 16 41 401 X X X X X X X X

Gasket for clean-out aperture 39 03 000 X X X X X X X X

Flat seal/flue gas collector box to approx. 3

quarter of ’98 16 08 015 X X X - - - - -

Flat seal/flue gas collector box to approx. 3

quarter of ’98 16 08 016 - - - X X - -

Flat pack./flue gas collector box to approx. 3

quarter of ’98 16 08 017 - - - - - X X X

Sight glass flat packing 39 01 040 X X X X X X X X

Cleaning brush 24 40 240 X X - - - - - -

Cleaning brush 24 40 241 - - X - - - - -

Cleaning brush 24 40 242 - - - X X - - -

Cleaning brush 24 40 243 - - - - - X X X

Sight glass 24 00 125 X X X X X X X X

Sensor well (up to model M 2850) 45 00 150 X X X X X X X X

Sensor well (from model M 2851) 24 25 070 X X X X X X X X

Turbulators 89 00 150 X X - - - - - -

Turbulators 89 00 151 - - X - - - - -

Turbulators 89 00 152 - - - X X - - -

Turbulators 89 00 153 - - - - - X X X

Jamb brick 16 10 415 X X X - - - - -

Jamb brick 16 10 416 - - - X X - - -

Jamb brick 16 10 417 - - - - - X X X

Casing and insulation from approx. 3

quarter of ’98 89 00 557 X X - - - - - -

Casing and insulation from approx. 3

quarter of ’98 89 00 561 - - X - - - - -

Casing and insulation from approx. 3

quarter of ’98 89 00 562 - - - X X - - -

Casing and insulation from approx. 3

quarter of ’98 89 00 570 - - - - - X X X

Fault Cause Remedy

Burner does not start No voltage present Check fuse, electrical connections, position of ctrl.unit,

or enters fault state ON/OFF switch and heat. system emerg. stop switch

Oil tank empty / Fill oil tank /

Gas supply line shut off Open gas supply line

Burner fault Press the reset button at the boiler control unit

(see burner installation instructions)

High limit safety cut-out Press the reset button on the control unit.

has switched OFF

Oil filter clogged Replace oil filter

Heating circuit System in summer mode Check summer/winter switch position

pump does not start

Heating circuit pump locked up Turn the pump shaft with a screwdriver

Heating circuit pump faulty Replace the heating circuit pump

Cylinder loading pump DHW cylinder thermostat faulty Check the DHW cyl. thermostat and replace, if nec.

does not run

DHW loading pump locked up Turn the pump shaft with a screwdriver

Cylinder loading pump faulty Replace the DHW loading pump

The heating system operates, Maximum boiler temperature Raise maximum boiler temperature.

but room temp. too low set too low

Troubleshooting

Notes

Declaration of Conformity

in accordance with the 97/23/EC Pressure Device Directive Appendix VII

Product designation: Steel boiler

type MKS, MUS

Applied conformity Module B + C1

assessment procedure:

Name and address TÜV Süddeutschland Bau und Betrieb GmbH

of the named body: Westendstraße 199

80686 Munich

ID of the named body: CE 0036

Applied standards TRD 702

and specifications: DIN EN 297 and 656

We, Wolf GmbH, Industriestraße 1, 84048 Mainburg, hereby declare that the above boiler complies with the appropriate regulations

laid down in the 97/23/EC Directive, when the safety temperature has been set to > 110 °C.

This declaration loses its validity, if the product is modified without our express permission. Observe the safety instructions in the

documentation and the operating instructions.

Mainburg, 11.06.2002

pp. Steppe

Wolf MKS 250 Technical Manual And Installation Instructions

Brand: Wolf

Model: MKS 250

Category: Water heaters & boilers

Type: Technical Manual And Installation Instructions

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