Kromschroder ZIO, ZIO 165, ZIO 200 Operating Instructions Manual

F

NL

I

E

03250473

D GB F NL I E

TR CZ PL RUS H

DK S N P GR

➔ www.docuthek.com

Operating instructions

Burners for gas
ZIO 65, ZIO 00

© 2014 Elster GmbH · Edition 05.14

Translation from the German

Contents

Burners for gas ZIO 65, ZIO 00 ..........

Contents ..............................

Safety.................................

Checking the usage .....................

Installation ............................

Installation in a burner quarl ................3

Burner with attachment tube ...............3

Installation on the furnace .................4

Air connection, gas connection .............4

Installing the burner insert .................5

Wiring ................................5

Preparing commissioning ................6

Determining the flow rates . . . . . . . . . . . . . . . . . 6

Notes on the flow rate curve ...............6

Restrictors .............................7

Hot-air compensation .................... 7

Commissioning.........................8

Igniting and adjusting the burner ............8

Tightness test...........................9

Cooling air .............................9

Blocking and recording the settings ..........9

Maintenance ..........................0

Assistance in the event of malfunction ....

Accessories ..........................

Technical data ........................

Logistics .............................

Declaration of Incorporation.............

Certification ..........................4

Contact ..............................4

Safety

Please read and keep in a safe place

Please read through these instructions
carefully before installing or operating. Following the
installation, pass the instructions on to the opera­tor. This unit must be installed and commissioned
in accordance with the regulations and standards
in force. These instructions can also be found at
www.docuthek.com.

Explanation of symbols

• ,  ,  ,  ... = Action

▷ = Instruction

Liability

We will not be held liable for damage resulting from
non-observance of the instructions and non-com­pliant use.

Safety instructions

Information that is relevant for safety is indicated in
the instructions as follows:

DANGER

Indicates potentially fatal situations.

WARNING

Indicates possible danger to life and limb.

CAUTION

Indicates possible material damage.

All interventions may only be carried out by qualified
gas technicians. Electrical interventions may only be
carried out by qualified electricians.

Conversion, spare parts

All technical changes are prohibited. Only use OEM
spare parts.

Changes to edition .

The following chapters have been changed:
– Checking the usage
– Installation
– Preparing commissioning
– Technical data
– Logistics
– Declaration of Incorporation

GB

GB-1

F

NL

I

E

Checking the usage

Burner for heating industrial thermoprocessing equip­ment. For installation in a burner quarl or for use
with an extended, heat-resistant burner tube. For
natural gas, town gas and LPG. Other types of gas
on request.

This function is only guaranteed when used within

the specified limits – see also page 12 (Technical
data). Any other use is considered as non-compliant.
Construction stage, rated capacity Q
see type label.

D-49018 Osnabrück Germany

GB

ZIO 165HB-100/35/18/D

BR 84246114

Qmax

BR 74970471 BK 18

Gas N SN

630 kW

Type code

Code Description

ZIO
ZIOW

Burner for gas with internal

65 – 00 Burner size
R
H
K
B
D
G
M

Coke oven gas, town gas
Propane, propane/butane, butane
Propane, propane/butane, butane

L Ignition lance

-50

-00

-50

Burner tube length [mm]

-00
...
/5­/5­/5-

Position of burner head [mm]

...

-() to -(99)

-(E) to

Burner head identifier

High temperature version

-(99E)
A to Z Construction stage
Z Special version

, gas type–

max

D

1114

Burner for gas

insulation

Normal flame

Long, soft flame

Flat flame

Natural gas

Part designations

5

4

2

3

1

6

8

7

 Burner insert
 Gas housing gasket
 Air housing
4 Burner tube gasket
5 Burner tube with mounting flange
6 Mounting gasket
7 Type label
8 Enclosed documentation (flow rate curves,

operating characteristic diagrams, dimension
sheet, spare parts list, spare parts drawing
and Declaration of Incorporation)

 • Check letter marking and identification marks on

the burner head using the information provided
on the type label.

GB-2

F

NL

I

E

Installation

Installation in a burner quarl

Conical burner quarl

▷

For industrial furnaces and kilns and for burning
in an open combustion chamber.

▷ Control: High/Low, continuous.
▷ Type of burner head: R.
▷ Max. capacity: 100%.
▷

We recommend the cold-air operating mode,
otherwise the nitric oxide values will be too high.

Cylindrical burner quarl

▷

For industrial furnaces and kilns and for burning
in an open combustion chamber.

▷ Control: High/Low, High/Low/Off, continuous.
▷ Type of burner head: R, H.
▷ Max. capacity: 100%.
▷ Normal to medium flow velocity.

Tapered burner quarl

Flat flame burner quarl

▷

For industrial furnaces and kilns and for burning
in an open combustion chamber.

▷

Control: High/Low, High/Low/Off, continuous
(limited control range).

▷ Type of burner head: K.
▷ Capacity range: 40 – 100%.

Burner with attachment tube

▷ Position of the burner head near the interior fur-

nace wall (L

= LO ± 50 mm).



L

O

1

L2 = LO ± 50 mm

▷

Do not fit the attachment tube  directly in the
furnace wall.

▷ Furnace temperature ≤ 600°C.

Radiant tube heating:

▷ Reduce the outlet diameter of the radiant tube

using an orifice



to the point where a pressure
loss of approx. 10 mbar occurs at the burner’s
rated capacity.

2

GB

▷

For industrial furnaces and kilns and for burning
in an open combustion chamber.

▷ Control: High/Low, High/Low/Off, continuous.
▷ Type of burner head: H.
▷ Max. capacity: approx. 80%, depending on the

outlet diameter of the burner quarl.

▷ Medium to high flow velocity.

GB-3

F

NL

I

E

Hot-air generation:

GB

▷

At flow velocities of > 15 m/s, the protective
flame tube FPT is used to protect the flame from
being cooled.

Installation on the furnace

▷

When installing, always ensure that when the
burner is mounted, it is sealed tightly on the
furnace wall.

1

2

▷ Install flexible tubes or bellows units to prevent

mechanical stress or transmission of vibration.

▷ Ensure that the seals are undamaged.

DANGER

Risk of explosion! Ensure the connection is gas­tight.

For connecting to ANSI/NPT connections:

An adapter set is required for connection to ANSI/

▷

NPT, see page 12 (Accessories).

Type

ZIO 165 1½ – 11.5 NPT 4.57"
ZIO 200 2 – 11.5 NPT 6.72"

* Flange hole diameter.

▷

Weld flange H to air pipe P. Use NPT thread
adapter G for gas connection GA.

Gas connection GAAir connection

GA

G

LA*

LA

H

P

Ignition lance connections on the ZIO..L:

▷ Air connection la.
▷ Gas connection ga.
▷ Ignition lance capacity: 1.5 kW.

3

Air connection, gas connection

4

GA

LA

Type

ZIO 165 Rp 1½ DN 100
ZIO 200 Rp 2 DN 150

▷

Threaded connection to DIN 2999, flange dimen-

sions to DIN 2633, PN 16.

Gas connection GAAir connection

LA

la

ga

Type

ZIO..L Rp ¼ Rp ½
ZIO..L with

adapter set

GB-4

Ignition lance

gas connection

ga

¼" NPT ½" NPT

Ignition lance

air connection

la

F

NL

I

E

Installing the burner insert

▷ The burner insert can be rotated to the required

position in increments of 90°.

▷

Insert the gas housing gasket between the
burner insert and the air housing.

▷

On ZIOW, avoid the formation of dust and do
not damage the surface of the internal insulation.

1 2

▷ Tighten the burner insert in a crosswise fashion

with max. 37 Nm (27.3 lbfft).

Wiring

DANGER

Electric shocks can be fatal! Before working on
possible live components, ensure the unit is discon­nected from the power supply.

▷

For the ignition and ionization cables, use (un-

screened) high-voltage cable:

FZLSi 1/6 up to 180°C (356°F),
Order No. 04250410, or
FZLK 1/7 up to 80°C (176°F),
Order No. 04250409.

Ionization electrode I

▷

Install the ionization cable well away from mains
cables and interference from electro-magnetic
sources and avoid external electrical interference.
Max. length of ionization cable – see automatic
burner control unit operating instructions.

▷

Connect the ionization electrode to the automatic
burner control unit via the ionization cable.

Ignition electrode Z

▷

Length of ignition cable: max. 5 m (15 ft), recom­mended < 1 m (40").

▷

For permanent ignition, max. ignition cable length

1 m (40").

▷

Lay the ignition cable individually and not in a
metal conduit.

▷

Install the ignition cable separately from ionization
and UV cables.

▷ A ≥ 7.5kV, ≥ 12mA ignition transformer is rec-

ommended; 5kV for ignition lance.

Ionization and ignition electrodes

1

3

4

2

5

GB

6 Connect the PE wire for burner ground to the

burner insert. In the case of single-electrode op­eration, route the PE wire from the burner insert
directly to the terminal on the automatic burner
control unit.

I

Z

WARNING

High-voltage risk! It is essential that a high-voltage
warning label is attached to the ignition cable.

7 For more detailed information on how to wire

the ionization and ignition cables, refer to the
operating instructions and connection diagrams
of the automatic burner control unit and ignition
transformer.

GB-5

F

NL

I

E

Preparing commissioning

δ

Safety instructions

▷ Arrange the adjustment and commissioning of

the burner with the system operator or manu­facturer.
Check the entire system, upstream devices and

▷

electrical connections.

▷

Note the operating instructions for individual
controls.

DANGER

The burner must only be commissioned by author-

ized trained personnel.

GB

Risk of explosion! Please observe the appropriate
precautions when igniting the burner.
Risk of poisoning! Open the gas and air supply
so that the burner is always operated with excess
air – otherwise CO will form in the furnace chamber.
CO is odourless and poisonous! Conduct a flue
gas analysis.

▷

Pre-purge the furnace chamber with air (5 x
furnace chamber volume) before every ignition
attempt.

▷ If the burner does not ignite although the auto-

matic burner control unit has been switched on
and off several times: check the entire system.

▷ After ignition, monitor the flame and the gas and

air pressure measured on the burner. Measure
the ionization current. Switch-off threshold – see
automatic burner control unit operating instructions.

Z

+ µA –

I

▷

The burner must only be ignited at low fire

(between 10 and 30% of the rated capacity
Q

) – see type label).

max

DANGER

Risk of explosion! Fill the gas line to the burner
carefully and correctly with gas and vent it safely
into the open air – do not discharge the test volume
into the furnace chamber.

Determining the flow rates

Q

= PB/H

Gas

Q

Luft

▷ Q

: Gas flow rate in m3/h (ft3/h)

Gas

▷ P

: Burner capacity in kW (BTU/h)

B

: Gas calorific value in kWh/m3 (BTU/ft3)

▷ H

u

▷ Q

: Air flow rate in m

Luft

▷ λ: Lambda, air index

= Q

Gas

u

. λ . L

3

/h (SCFH)

(n)

min

▷

L

: Minimum air requirement in m

min

(SCF/SCF)

 • Use the lower calorific value H

▷ Information on the gas quality supplied can be

obtained from the competent gas supply com­pany.

Common gas qualities

H

u

Gas type

kWh/m

3

(n)

(BTU/SCF)

Natural gas H

Natural gas L

Propane

Town gas

Butane

* Data in kWh/m³

value Hu and data in BTU/SCF refer to the upper

11

(1114)

8.9

(901)

25.9

(2568)

4.09
(425)

34.4

(3406)

refer to the lower calorific

(n)

calorific value Ho.

For safety reasons, a minimum air excess of 5%

▷

(lambda = 1.05) should be ensured.

Notes on the flow rate curve

▷

If the gas density in the operating state differs
from that reflected in the flow rate curve, convert
the pressures according to the local operating
state.

pB = p

▷

δ

: Gas density reflected in the flow rate curve

M

[kg/m3 (lb/ft3)]

▷

δ

: Gas density in operating state

B

[kg/m3 (lb/ft3)]

pM: Gas pressure reflected in the flow rate

▷

M

δ

M

B

.

curve

▷ pB: Gas pressure in operating state

• Read off the gas pressure p
p

from the enclosed flow rate curve for cold

air

air on the basis of the calculated flow rates.

[mbar ("WC)]

p

air

p

gas

p

gas

Q

gas

p

gas

air

[m

3

/h (ft3/h)]

▷ Note possible capacity changes due to positive

or negative pressures in the furnace/combustion
chamber. Add positive pressures or subtract
negative pressures.

GB-6

3

3

/m

(n)

(n)

u.

L

min

3

3

m

/m

(n)

(n)

(SCF/SCF)

10.6

8.6

24.4

3.67

32.3

and air pressure

Q

air

F

NL

I

E

▷ As not all the effects caused by the equipment

3

2

4

L

are known, setting the burner using the pressure
values is only approximate. It is possible to set
the burner precisely by measuring the flow rates

5

p

atm.

p

0

air

p

=

atm

atmospheric
pressure.

or flue gas.

Restrictors

▷ The air volume required for the low-fire rate at a

given air pressure is determined by the ignition
position of a butterfly valve, a bypass hole in the
air valve or an external bypass with restrictor.

Hot-air compensation

▷

The combustion air pressure p

creased in hot-air operating mode (lambda =

must be in-

Air

constant).

250

[%]

200

Air

p

150

100

0 100 200 300 400

T

[°C]

Air

▷ The gas pressure is increased by 5–10mbar.
▷

The total burner capacity PB rises as the air tem-

perature T

[%]

B

120

P

increases.

Air

Low fire:

▷ The burner must only be ignited at low fire (be-

tween 10 and 30% of the rated capacity Q
see type label).

max

• Reduce the air supply on the air control valve
and set the desired low-fire rate, e.g. using a
limit switch or mechanical stop.

▷

On air control valves with bypass, the bypass
orifice should be determined on the basis of the
required flow rate and the existing supply pres­sure if required.

High fire:

• Set the required air pressure p
tor upstream of the burner.

on the air restric-

air

• When using air restricting orifices: check the air
pressure p

.

air

Preparing the gas pressure measurement for
low fire and high fire

• Connect all measuring devices for subsequent
fine adjustment of the burner.

▷ Leave the gas supply closed.

–

GB

▷ Gas measuring nipple G, external dia. = 9 mm

110

100

0 100 200 300 400

T

[°C]

Air

Setting the air pressure for low fire and high
fire
 Shut off the gas and air supply.

▷

Air measuring nipple L, external dia. = 9 mm (0.35").

(0.35").

• Read off the gas pressure p
flow rate from the enclosed flow rate curve for

for the required

gas

cold air.

[mbar ("WC)]

p

air

p

gas

p

gas

p

air

2

L

3

Loosen the
screw 2
turns.

4

Fully open

Q

gas

[m

3

/h (ft3/h)]

Q

air

the air supply.

GB-7

F

NL

I

E

1

Loosen the
screw 2 turns.

G

2

G

GB

Integrated ignition lance on the ZIO..L:

▷ Air pressure test nipple l, external dia. = 9mm

(0.35").
Gas pressure test nipple g, external dia. = 9mm

▷

(0.35").

1

l

g

▷ Ignition lance:

p

= 30 – 50 mbar,

gas

p

= 30 – 50 mbar.

air

▷ Check flame stability and ionization current.
▷

The gas and air pressure of the ignition lance

must be higher than the gas and air pressure of
the main burner.

Loosen the
screws 2
turns.

2

g

Commissioning

Igniting and adjusting the burner

WARNING

Ensure adequate ventilation of the furnace chamber
before each burner start!

▷ The burner housing will become hot during op-

eration with preheated combustion air. Provide
protection against accidental contact as required.

• All valves of the installation must be checked for
tightness before ignition.

Setting the low-fire rate:

• Set the valves to ignition position.

• Limit the maximum gas volume.

▷ Should an adjustable gas restrictor be installed

upstream of the burner, open the restrictor by
approx. a quarter.

• Open the gas supply.

• Ignite the burner.

▷ The safety time of the automatic burner control

unit starts to elapse.

• If no flame forms, check and adjust the gas and
air pressures of the start gas adjustment.

• In the case of operation with bypass (e.g. when
using an air/gas ratio control): check the bypass
nozzle and adjust if required.

• In the case of operation without bypass (e.g.

l

when using an air/gas ratio control without by­pass):increase the low-fire rate setting.

• Check the basic setting or bypass of the air con­trol valve.

• Check the position of the restrictor in the air line.

• Check the fan.

• Reset the automatic burner control unit and re-

ignite the burner.

▷ The burner ignites and proceeds to normal op-

eration.

• Check flame stability and ionization current at
low fire. Switch-off threshold – see automatic
burner control unit operating instructions.

Z

+ μA –

I

• Monitor flame formation.

• Adjust the low-fire rate settings if required.

• If no flame forms – see page 11 (Assistance

in the event of malfunction).

GB-8

F

NL

I

E

Setting the high-fire rate:

p

0

p

2

p

1

• Set the air and gas circuit of the burner to high
fire while continuously monitoring the flame.

▷

Avoid CO formation – always operate the burner
with excess air when starting up!

▷ When the desired maximum valve positions are

reached, set the gas pressure p
restrictor upstream of the burner.

p

atm.

p

gas

0

using the

gas

Re-adjusting the air flow rate:

• Check the air pressure p
adjust using the air restrictor if required.

on the burner and

air

• When using air restricting orifices: check the air
pressure p

and rework the orifice if required.

air

DANGER

Risk of explosion and poisoning during burner
adjustment with an air deficiency! Adjust the

gas and air supply so that the burner is always oper­ated with excess air – otherwise CO will form in the
furnace chamber. CO is odourless and poisonous!
Conduct a flue gas analysis.

• Measure the gas and air flow rates if possible.
Determine the lambda value and re-adjust the
settings if required.

Tightness test

DANGER

To ensure that there is no danger resulting from a

leak, check the gas connections on the burner for
leaks immediately after the burner has been put
into operation.

1

Cooling air

▷ While the burner is switched off and depending

on the furnace temperature, there must be a cer­tain air flow for cooling the burner components.

ZIO

6

5

4

Cooling air at 20°C,

3

2

air volume at rated capacity [%]

1

0

700 800 900 1000 1100 1200 1300 1400

▷

Diagram: the relative air volume in percentage

ZIO..K

ZIO..KB..E

Furnace temperature [°C]

12

10

8

Cooling air at 450°C,

6

4

2

0

values, based on the air volume for the rated ca­pacity of the relevant size, is given in the diagram.
For hot air (450°C), the values on the right-hand
axis are based on the standard air volume for
the relevant rated capacity.

▷ Leave the air fan switched on until the furnace

has cooled down completely.

Blocking and recording the settings
 Produce a measurement report.
 Set the burner to low fire and check the settings.

 Set the burner to low and high fire several times

while monitoring the pressure settings, flue gas
values and flame patterns.

4 Remove the measuring devices and close off

the test nipples – tighten the grub screws.

5 Block and seal the adjusting elements.
6 Induce a flame failure, e.g. by pulling the plug off

the ionization electrode. The flame detector must
close the gas safety valve and signal a fault.

7 Switch the system on and off several times while

monitoring the automatic burner control unit.

8 Produce an acceptance report.

]

air volume at rated capacity [%

GB

▷

Avoid condensation due to the furnace atmos­phere entering the burner housing. While the
burner is switched off, at furnace temperatures
above 500°C (932°F), it must be cooled with a
low air volume – see page 9 (Cooling air).

DANGER

An incorrect change of the burner settings may
change the gas/air ratio and lead to unsafe oper­ating conditions. Risk of explosion in case of CO
being formed in the furnace chamber! CO is odour­less and poisonous!

GB-9

F

NL

I

E

Maintenance

6 5

11 12

14

We recommend that a function check is carried out
every six months.

WARNING

Risk of burning! Outflowing flue gases and burner
components are hot.

 Check the ionization and ignition cables.
 Measure the ionization current.

▷ The ionization current must be at least 5 µA and

must not vary.

Checking the burner

13

15

GB

Z

+ μA –

I

 Disconnect the system from the electrical power

supply.

4 Shut off the gas and air supply – do not change

the restrictor settings.

Checking the ignition and ionization
electrodes

▷

Ensure that the electrode length does not change.

7 Remove dirt from electrodes or insulators.

3

2

1

8 If the star 4 or insulator  is damaged, replace

the electrode.
Before changing the electrode, measure the

▷

total length L.

9 Connect the new electrode with the spark plug

 using the dowel pin .

0 Adjust spark plug and electrode to the measured

total length L.

L

16

▷

If the burner insert is dismantled, the gas housing
gasket will have to be renewed.

7 Place the burner insert in a safe place.

▷

Depending on the amount of dirt or wear: replace
the ignition/ionization electrode rod and dowel
pin during servicing – see page 10 (Checking
the ignition and ionization electrodes).

8 Check burner head for dirt and thermal cracks.

WARNING

Risk of injury! Burner heads have sharp edges.

▷

4

When replacing any burner components: ap­ply ceramic paste to the screw connections in
order to avoid cold-setting – see page 12
(Accessories).

9 Check the electrode positions.

▷ The insulator must be flush with the front edge

of the burner air disc.

▷

Distance of ignition electrode from ground pin or
gas nozzle: 2 ± 0.5 mm (0.08 ± 0.02").

)

▷

Turning the spark plug makes it easier to feed

the electrode into the burner insert.

GB-10

mm

0,5

2 ±

0.02"

(0.08 ±

F

NL

I

E

0 When the furnace chamber has cooled down,

21

27

check the burner tube and burner quarl through
the furnace flange.

New gas
housing
gasket.

22

Assistance in the event of malfunction

DANGER

Electric shocks can be fatal! Before working on
possible live components, ensure the unit is discon­nected from the power supply.
Risk of injury! Burner heads have sharp edges.
Fault-clearance must only be undertaken by author­ized trained personnel.

▷ If no fault is detected when checking the burner,

proceed to the automatic burner control unit and
check for faults in accordance with the relevant
operating instructions.

GB

23

▷

Tighten the burner insert with max. 37 Nm

24

(27.3lbft).

5 Connect the system to the electrical power sup-

ply.

6 Open the gas and air supply.

8 Set the burner to low fire and compare the pres-

sure settings to those stated in the acceptance
report.

9 Set the burner to low and high fire several times

while monitoring the pressure settings, flue gas
values and flame patterns.

? Faults
! Cause

• Remedy

? Burner does not function?
! Valves do not open.

• Check the voltage supply and wiring.

! Tightness control signals a fault.

• Check the valves for tightness.

• Note the tightness control operating instructions.

! Control valves do not move to low-fire position.

• Check the impulse lines.

! Gas inlet pressure is too low.

• Check the filter for dirt.

! Gas and air pressures on the burner are too low.

• Check the restrictors.

! Automatic burner control unit signals a fault.

• Check the ionization cables and ionization cur­rent.

• Check whether the burner is adequately ground­ed.

• Note the automatic burner control unit operating
instructions.

DANGER

Risk of explosion and poisoning during burner
adjustment with an air deficiency! Adjust the

gas and air supply so that the burner is always oper­ated with excess air – otherwise CO will form in the
furnace chamber. CO is odourless and poisonous!
Conduct a flue gas analysis.

0 Produce a maintenance report.

GB-11

F

NL

I

E

? Burner performs a fault lock-out after burn-

ing faultlessly in normal operation?

! Incorrect gas and air flow rate settings.

• Check the gas and air pressures.

! No ignition spark is created.

• Check the ignition cable.

• Check the voltage supply and wiring.

• Check whether the burner is adequately ground-

ed.

• Check the electrodes – see page 10 (Checking
the ignition and ionization electrodes).

! Automatic burner control unit signals a fault.

GB

• Check the ionization cable.

• Measure the ionization current by connecting a

micro-ammeter into the ionization cable: min.
5µA ionization current – stable signal.

Z

+ μA –

I

! Burner head dirty.

• Clean gas and air bore holes and air slots.

• Remove deposits on the burner head.

WARNING

Risk of injury! Burner heads have sharp edges.

! Excessive pressure fluctuations in the furnace

chamber.

• Ask Elster Kromschröder for control concepts.

Accessories

Ceramic paste

Apply ceramic paste to the relevant screw connec­tions after replacing any burner components in order
to avoid cold-setting.
Order number: 05012009.

Adapter set

8×

8×

For connecting ZIO to NPT/ANSI connections.

Burner Adapter set Order No.
ZIO 165
ZIO 200

BR 165 NPT
BR 200 NPT

Nozzle set

▷

Available on request for connecting integrated
ignition lances to NPT threads.

Technical data

Gas supply pressure: approx. 20 to 50 mbar,
air supply pressure: approx. 25 to 40 mbar,
each depending on flame shape, gas type and air
temperature (gas and air pressures – see operating
characteristic diagrams at www.docuthek.com).
Burner length increments: 100 mm.
Gas types: natural gas, LPG (gaseous) and coke
oven gas; other gases on request.
Heating: direct using a burner quarl or an attachment
tube, indirect using a burner attachment tube inside
the radiant tube.
Control type:
staged: On/Off, High/Low/Off,
continuous: constant λ value.
Most of the burner components are made of corro­sion-resistant stainless steel.
Housing:

ZIO: St.

Flame control: with ionization electrode (UV sensor
as an option).
Ignition: direct spark ignition; ignition lance as an
option.
Maximum furnace temperature:
in the burner quarl: up to 1450°C (higher tempera­tures on request),

with burner attachment tube: up to 600°C.

Maximum air temperature:
ZIO: 450°C,
ZIOW: 500°C.

GB-12

74922636
74922637

F

NL

I

E

Storage temperature: -20°C to +40°C.

Sandra Runde

Die speziellen technischen Unterlagen gemäß Anhang VII B wurden erstellt und werden der zuständigen nationalen Behörde auf

Burner Weight* [kg]
ZIO 165 26
ZIO 200 37

* Shortest overall length.

WARNING

applies to ZIOW only
Information pursuant to REACH Regulation No.

1907/2006, Article 33. Insulation contains refrac-

tory ceramic fibres (RCF)/aluminium silicate wool
(ASW). RCF/ASW are listed in the Candidate List of
the European REACH Regulation No. 1907/2006.

Logistics

Transport

Protect the unit from external forces (blows, shocks,
vibration). On receipt of the product, check that the
delivery is complete, see page 2 (Part designa­tions). Report any transport damage immediately.

Storage

Store the product in a dry and clean place.
Storage temperature: see page 12 (Technical data)
Storage time: 2 years before using for the first time.
If stored for longer than this, the overall service life
will be reduced accordingly (by the corresponding
amount of extra storage time).

Packaging

The packaging material is to be disposed of in ac-

cordance with local regulations.

Disposal

Components are to be disposed of separately in
accordance with local regulations.

Declaration of Incorporation

according to 2006/42/EC, Annex II, No. 1B

The product ZIO is a partly completed machine pur-

suant to Article 2g and is designed exclusively for
installation in or assembly with another machine or
other equipment.

The following essential health and safety requirements

in accordance with Annex I of this Directive are ap-

plicable and have been fulfilled:
Annex I, Articles 1.1.3, 1.1.5, 1.3.2, 1.3.4, 1.5.2, 1.7.4
The relevant technical documentation has been com-

piled in accordance with part B of Annex VII and will

be sent to the relevant national authorities on request

as a digital file.
The following (harmonized) standards have been

applied:

– EN 746-2 (2010) – Industrial thermoprocessing

equipment; Safety requirements for combustion
and fuel handling systems

– EN ISO 12100 (2010) – Safety of machinery –

General principles for design – Risk assessment
and risk reduction (ISO 12100:2010)

The partly completed machine may only be commis-

sioned once it has been established that the machine

into which the product mentioned above is to be

incorporated complies with the provisions of the

Machinery Directive 2006/42/EC.

Elster GmbH

Einbauerklärung / Declaration of Incorporation

nach 2006/42/EG, Anhang II, Nr. 1B / according to 2006/42/EC, Annex II No. 1B

Folgendes Produkt / The following product:

Bezeichnung: Brenner für Gas

Description Burner for gas

Typenbezeichnung / Type: BIO, BIOA, ZIO, BIC, BICA, ZIC

ist eine unvollständige Maschine nach Artikel 2g und ausschließlich zum Einbau in oder zum Zusammenbau mit einer anderen
Maschine oder Ausrüstung vorgesehen.

is a partly completed machine pursuant to Article 2g and is designed exclusively for installation in or assembly with another
machine or other equipment.

Folgende grundlegende Sicherheits- und Gesundheitsschutzanforderungen gemäß Anhang I dieser Richtlinie kommen zur
Anwendung und wurden eingehalten:

The following essential health and safety requirements in accordance with Annex I of this Directive are applicable and have
been fulfilled:

Anhang I, Artikel / Annex I, Article

1.1.3, 1.1.5, 1.3.2, 1.3.4, 1.5.2, 1.7.4

Verlangen in elektronischer Form übermittelt.

The relevant technical documentation has been compiled in accordance with part B of Annex VII and will be sent to the relevant
national authorities on request as a digital file.

Folgende (harmonisierte) Normen wurden angewandt: / The following (harmonized) standards have been applied:

EN 746-2:2010 – Industrielle Thermoprozessanlagen; Sicherheitsanforderungen an Feuerungen und Brennstoffführungssysteme

– Industrial thermoprocessing equipment; Safety requirements for combustion and fuel handling systems

EN ISO 12100:2010 – Sicherheit von Maschinen – Allgemeine Gestaltungsleitsätze – Risikobeurteilung

und Risikominderung (ISO 12100:2010)

– Safety of machinery – General principles for design – Risk assessment

and risk reduction (ISO 12100:2010)

BIOW, ZIOW, BICW, ZICW

GB

Die unvollständige Maschine darf erst dann in Betrieb genommen werden, wenn festgestellt wurde, dass die Maschine,
in der das oben bezeichnete Produkt eingebaut werden soll, den Bestimmungen der Richtlinie für Maschinen
(2006/42/EG) entspricht.

The partly completed machine may only be commissioned once it has been established that the machine into which
the product mentioned above should be incorporated complies with the provisions of the Machinery Directive
2006/42/EC.

Lotte (Büren)

24.03.2014

Datum / Date

Sandra Runde ist bevollmächtigt, die speziellen technischen Unterlagen gemäß Anhang VII B zusammenzustellen.

Sandra Runde is authorized to compile the relevant technical documentation according to Annex VII B.

GB-13

Konstrukteurin / Designer

Elster GmbH

Postfach 28 09
D-49018 Osnabrück
Strotheweg 1
D-49504 Lotte (Büren)

Tel. +49 (0)541 12 14-0
Fax +49 (0)541 12 14-3 70
info@kromschroeder.com
www.kromschroeder.com

F

NL

I

E

Certification

Approval for Russia

Certified by Gosstandart under Technical Regulations.
Approved by Rostekhnadzor (RTN).

GB

Contact

If you have any technical questions, please contact
your local branch office/agent. The addresses are
available on the Internet or from ElsterGmbH.

We reserve the right to make technical modifications
in the interests of progress. info@kromschroeder.com, www.kromschroeder.com

Elster GmbH
Postfach 28 09, D-49018 Osnabrück
Strotheweg 1, D-49504 Lotte (Büren)

T +49 541 1214-0

F +49 541 1214-370

GB-14