Grundfos VGA-113 Installation And Operating Instructions Manual

Vaccuperm VGA-113

Gas dosing regulator

Installation and operating instructions

GRUNDFOS INSTRUCTIONS

Other languages

http://net.grundfos.com/qr/i/98028175

2

Table of contents

3

Vaccuperm VGA-113

English (GB)

Installation and operating instructions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4

Čeština (CZ)

Montážní a provozní návod . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24

Deutsch (DE)

Montage- und Betriebsanleitung . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44

Español (ES)

Instrucciones de instalación y funcionamiento. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 65

Français (FR)

Notice d'installation et de fonctionnement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 86

Magyar (HU)

Telepítési és üzemeltetési utasítás . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 106

Polski (PL)

Instrukcja montau i eksploatacji . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 126

Português (PT)

Instruções de instalação e funcionamento. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 147

Română (RO)

Instruciuni de instalare i utilizare . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 168

Srpski (RS)

Uputstvo za instalaciju i rad . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 188

Русский (RU)

,      . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 208

Slovenčina (SK)

Návod na montáž a prevádzku . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 230

Türkçe (TR)

Montaj ve kullanım kılavuzu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 250

Қазақша (KZ)

    . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 271

Declaration of conformity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 292

   EAC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 293

English (GB)

4

English (GB) Installation and operating instructions

Original installation and operating instructions.

CONTENTS

Page

1. Safety instructions

These installation and operating instructions contain important

information for the user of the product:

• Technical data

• Instructions for commissioning and use

• Safety instructions

If you require further information, or if problems occur that are not

described in detail in this manual, please contact Grundfos.

1.1 Symbols used in this document

This manual contains the following standardised safety

instructions about possible residual risks:

1.2 Safety advice for handling chlorine

1.2.1 Hazards of chlorine gas

• Causes whooping cough, dyspnoea and lacrimation.

• Has a slight paralysing effect to the central nervous system.

• Concentrations of more than 10 ppm chlorine gas in the

respiratory air mean an acute danger to life.

• Inhaling air with a high concentration of chlorine gas for a long

time is lethal.

1.2.2 Hazards of liquid chlorine

• Causes burns of skin.

• Causes reddening and blistering of skin.

1.2.3 Rules of conduct

• Change chlorine containers only with gas mask.

• Enter contaminated rooms only with protective suit and

compressed-air respirator.

• In case of flight wear gas mask, if possible. Observe wind

direction.

1. Safety instructions

4

1.1 Symbols used in this document

4

1.2 Safety advice for handling chlorine

4

1.3 Protective equipment

5

1.4 First aid in case of accidents

5

1.5 Handling chlorine containers

6

1.6 Chlorine rooms

7

2. Introduction

8

2.1 Correct usage

8

2.2 Inappropriate usage

8

2.3 Qualification of the users

8

2.4 Responsibilities of the operator

8

2.5 Maintenance and service personnel

8

2.6 Type key VGA-113 dosing regulator

9

2.7 Transport and storage

9

2.8 Unpacking

9

3. Technical data

10

3.1 General technical data

10

3.2 Dosing flow

10

3.3 Accessories

10

3.4 Dimensions

10

3.5 Electrical data of servomotor

12

3.6 Physical and chemical data of chlorine

13

4. Design and function

13

4.1 Description of the device

13

4.2 Functional principle

14

5. Assembly and installation

15

5.1 Selection of vacuum lines

15

5.2 Connecting the dosing regulator

16

5.3 Connecting an external controller to a servomotor with

analog control

16

5.4 Connecting an external controller to a servomotor with

reversing potentiometer

18

5.5 Installation example

19

6. Startup

19

6.1 Checking the tightness

19

6.2 Chlorine extraction

20

7. Operation

21

7.1 Switching on the chlorine gas dosing system

21

7.2 Setting the dosing flow

21

7.3 Reading the dosing flow

21

7.4 Servomotor

22

7.5 Switching off the chlorine gas dosing system

22

7.6 Changing the chlorine container while the system is

running

22

8. Maintenance

22

9. Fault finding

23

10. Disposal

23

Warning

Prior to installation, read these installation and

operating instructions. Installation and operation

must comply with local regulations and accepted

codes of good practice.

Warning

If these safety instructions are not observed, it may

result in personal injury.

Caution

If these safety instructions are not observed, it may

result in malfunction or damage to the equipment.

Note

Notes or instructions that make the job easier and

ensure safe operation.

Warning

Toxic by inhalation.

Irritating to eyes, respiratory system and skin.

English (GB)

5

1.3 Protective equipment

1.3.1 Personal protective equipment

The operating authority of a chlorine gas dosing system has to

provide respiratory equipment (full-sight gas mask), personally

fitted, labelled by name, with an effective chlorine filter (B2P3)

and at least 1 spare filter per gas mask, for each operator.

The protective equipment must be stored easily accessible

outside the chlorine rooms.

• For systems with chlorine drums at least 2 protective suits with

compressed-air respirators must be available.

1.3.2 Obligations of the operating authority

• Introducing the operators to handling the protective

equipment.

• The operators must use the personal protective equipment

regularly, or carry out exercises with it at least every 6 months.

• The gas mask filters must be replaced regularly

– after the expiry of the date of durability

– at least 6 months after opening (note the opening date on

the filter)

– after contact with chlorine.

• Observe employing prohibition according to the local laws.

1.3.3 Storage of the protective equipment

• Outside the chlorine rooms

• Well visible

• Easily available at any time

• Protected from dust and moisture.

1.4 First aid in case of accidents

1.4.1 First aid after inhaling chlorine

1. Keep calm.

2. Remove injured persons from the dangerous area.

3. Helpers must pay attention to personal protection.

4. Remove contaminated clothes.

5. Calm down injured persons and keep them warm with

blankets.

6. Supply fresh air, use oxygen respirator, if possible.

– No mouth-to-mouth resuscitation!

7. Call medical aid or transport to hospital

– lying

– sitting in case of difficulty in breathing.

– State chlorine as the cause.

1.4.2 First aid after chemical burn of skin

1. Keep calm.

2. Remove contaminated clothes.

3. Rinse skin with plenty of water.

4. Bandage the wound aseptically.

5. Seek medical aid.

– State chlorine as the cause.

1.4.3 First aid after chemical burn of eyes

1. Keep calm.

2. Rinse eyes with plenty of water while the patient is lying.

– Protect healthy eye, if necessary.

– Spread eyelids widely, let the eye move to all sides.

3. Seek ophthalmologist.

– State chlorine as the cause.

1.4.4 First aid after internal chemical burn

1. Keep calm.

2. Drink water in short sips.

– If possible, take medical charcoal.

3. Seek medical aid.

– State chlorine as the cause.

English (GB)

6

1.5 Handling chlorine containers

Chlorine is stored in grey steel cylinders or drums in lockable

chlorine rooms. Due to safety precautions, chlorine containers

are only filled up to 95 % of their capacity.

Kind of gas, weight, owner, producing date and date of the last

testing have to be noted clearly on the container.

Observe the following:

• Store chlorine containers fireproof.

• Protect chlorine containers from heat and sunlight.

• Chlorine containers should not be modified or repaired by the

user.

• Keep full and empty containers closed.

1.5.1 Steel cylinders

• Contents: 50 kg or 65 kg

• Extract chlorine gas from the upright standing cylinder via the

valve.

Fig. 1 Design of cylinder

1.5.2 Chlorine drums

• Contents: 500 kg or 1000 kg

• Extraction of chlorine gas via the riser pipe valve.

• Extraction of liquid chlorine via the dip pipe valve.

Fig. 2 Design of drum

1.5.3 Basic rules

• Treat containers carefully, do not throw!

• Protect containers from turning over or rolling away, e.g. with

chains or clips.

• Protect containers from direct sunlight and temperatures over

50 °C.

• Transport containers only with valve protection nut and

protective cap.

1.5.4 Valid regulations

In Germany, the following regulations apply:

• Regulations for accident prevention "Chlorination of water"

with process instructions (GUV-V D5)

• Regulations concerning places of work (ArbStättV)

• Technical rules for pressurized gases (TRG 280, 310 and 330)

• Operation of baths (BGR 108)

• Chlorine gas dosing systems for water treatment (DIN 19606)

• Chlorine for water treatment (DIN 19607)

TM04 0693 0908

Pos. Description

1 Protective cap

2Valve

3 Holding clip for securing the cylinder

TM04 0694 2011

Pos. Description

1 Riser pipe for chlorine gas extraction

2 Valve for chlorine gas extraction

3 Valve for liquid chlorine extraction

4 Dip pipe for liquid chlorine extraction

5Tyre

6 Mark for adjustment of drum

1

2

3

Welded chlorine

cylinder

Weldless chlorine

cylinder

2

5

3

6

4

1

3

4

Warning

Handling of chlorine containers only by experienced

personnel.

Observe safety regulations for chlorine containers.

Warning

These rules apply for both full and empty containers,

as empty containers still contain rests of chlorine and

therefore are under pressure.

Warning

Local laws and regulations for handling, transport

and storage of chlorine must be observed.

English (GB)

7

1.6 Chlorine rooms

Chlorine rooms are rooms, where a chlorine gas dosing system

and/or chlorine containers are located. The chlorine in these

rooms is under pressure.

1.6.1 Regulations for chlorine rooms

According to the German regulations for accident prevention

"Chlorination of water", such rooms have to meet the following

requirements:

• They should not have connections to other rooms, and must

be separated gas-tight and fire-resistant.

• They must be at ground level, dry and air-conditioned.

The recommended room temperature is 18-20 °C. It should be

neither lower than 0 °C nor higher than 50 °C.

• Overpressure lines of dosing equipment must not end in the

open air.

• Ventilation openings leading into the open air must be limited

to 2 x 20 cm

2

.

• Appropriate exhaust devices with downstream absorption

systems must be installed.

• Chlorine gas must not get into lower-lying rooms, shafts, pits,

canals or aspirating holes of ventilation systems.

• Chlorine rooms must be equipped with a water sprinkling

system to precipitate the escaping chlorine gas.

– The sprinkling system must have a run-off with air trap.

– Operation must be possible manually from outside the

chlorine rooms.

• A chlorine gas warning system must be installed

– with optical and acoustical alarm device,

– with connection to the water sprinkling system,

– with a warning system that reactivates automatically after

switch-off (e.g. for container exchange).

• The floor of a chlorine room must be even, the exit not below

ground level and not higher than a possible loading ramp.

Fig. 3 Requirements of chlorine rooms

• Chlorine rooms must have a direct exit to the open air.

• Doors must be lockable, open outwards, and it must be

possible to open the doors without a key from inside the room.

• Chlorine rooms must not be dedicated for the permanent stay

of people.

• Eating, drinking, or storing food in chlorine rooms is

prohibited.

1.6.2 Labelling of chlorine rooms

In Germany, according to DIN 4844, the following warning signs

must be installed outside the entrance of a chlorine room:

Fig. 4 Warning sign and supplementary sign "Chlorination

plant: Access only for instructed persons"

Inside a chlorine room, the mandatory sign "Use the gas mask"

and the "Instruction sheet for first aid in case of chlorine gas

intoxications" must be installed.

Fig. 5 Mandatory sign (DIN 4844)

TM04 0704 0908

✓

✗

✓

TM04 0699 0908TM04 0701 0908

English (GB)

8

2. Introduction

2.1 Correct usage

The VGA-113 dosing regulator is exclusively designed for dosing

chlorine gas into a vacuum line.

2.2 Inappropriate usage

Operational safety is only guaranteed, if the product is used

correctly. All operating methods conflicting with correct usage are

not permitted, and lead to the expiry of all liability claims.

2.3 Qualification of the users

Based on his professional training and experience, the user must

have a good knowledge of the operation of chlorine gas dosing

systems. He must be so familiar with the relevant laws and

regulations governing safety in the workplace and accident

prevention, and with the recognised standards of good practice,

that he is able to judge the safe working condition of a chlorine

gas dosing system.

The user is responsible for operation and monitoring of the

product at the installation site.

The responsibilities of the user:

• Read this manual before operating.

• Be trained by qualified Grundfos personnel in the operation of

the product.

• Observe the relevant regulations governing safety in the

workplace and accident prevention.

• Wear appropriate protective clothing in accordance with

national regulations for the prevention of accidents when

operating the system and handling chemicals.

2.4 Responsibilities of the operator

The operator of the product is responsible for the following:

• Ensure that this manual is kept clearly accessible in the

immediate vicinity of the system for the entire service life.

• Meet the installation requirements specified by the

manufacturer (environmental conditions, required water

connections and fittings, electrical connection, protective pipe

for dosing line if necessary, audible or optical warning device if

necessary).

• Ensure that water lines and armatures are regularly checked,

serviced and maintained.

• Obtain official approval for storing chemicals, if necessary.

• Train users in the operation of the system.

• Ensure that the regulations for the prevention of accidents are

observed in the installation site.

• Provide all users and service personnel with protective

clothing (e.g. face mask, gloves, protective apron) in

accordance with the national regulations.

2.5 Maintenance and service personnel

The product may only be maintained and serviced by personnel

authorised by Grundfos.

Warning

Unauthorised structural modifications to the product

may result in serious damage to equipment and

personal injury.

It is forbidden to open, modify, bridge, remove,

bypass or disable components, especially safety

equipment.

English (GB)

9

2.6 Type key VGA-113 dosing regulator

The type key serves for the identification of the product, not for configuration purposes.

2.7 Transport and storage

• Transport carefully, do not throw!

• Store in a dry and cool place.

2.8 Unpacking

Observe when unpacking:

• The delivery must be complete.

• No humidity and no foreign matters should get into

gas-leading parts.

• Mount the components of the dosing system as soon as

possible after unpacking.

Code Example VGA-113 -100 /M O -N

VGA Vaccuperm Gas Advanced

Dosing flow

25 1-25 g/h

40 2-40 g/h

100 5-100 g/h

250 10-250 g/h

500 25-500 g/h

1000 50-1000 g/h

2000 100-2000 g/h

3000 150-3000 g/h

4000 400-4000 g/h

Adjustment of the dosing flow

M Manual

A Automatic, 230-240 V, 50/60 Hz

B Automatic, 110-115 V, 50/60 Hz

Control

0 Without

14-20 mA

2Direct

Differential pressure regulator

YYes

NNo

English (GB)

10

3. Technical data

3.1 General technical data 3.2 Dosing flow

3.3 Accessories

The following accessories are not included in the standard

delivery:

• Hoses of different lengths

• Ammonia water for tightness check.

3.4 Dimensions

Fig. 6 VGA-113 dosing regulator without servomotor

Accuracy ± 4 % of upper limit

Permissible medium Cl

2

Setting range 1:20

Permissible vacuum

regulator

VGA-111, VGA-146 (up to 4,000 g/h)

Flowmeter

According to the floater principle, ball in

measuring glass, length of measuring

glass 70 mm

Weight

Dosing regulator without servomotor:

0.9 kg

Dosing regulator with servomotor: 3.1 kg

Vacuum line between

dosing regulator and

injector

PE hose 8/11

1.5 - 25 g/h 0.07 - 1.3 lbs/day

2-40 g/h 0.1 - 2 lbs/day

5-100 g/h 0.2 - 5 lbs/day

10-250 g/h 0.5 - 14 lbs/day

25-500 g/h 1.5 - 26 lbs/day

50 - 1,000 g/h 2.5 - 50 lbs/day

100 - 2,000 g/h 5-100 lbs/day

150 - 3,000 g/h 10-150 lbs/day

400 - 4,000 g/h 30-220 lbs/day

TM04 0734 0908

46.5

95

236

178

120

72.5

7

38

50

190

~ 118

72.5

38

~ 118

~ 140

90

~ 82

English (GB)

11

Fig. 7 VGA-113 dosing regulator with servomotor

TM04 0738 0908

46.5

~ 410

120

~ 260

95

7

72.5

40

50

118

40

~ 118

72.5

~ 140

~ 92

English (GB)

12

3.5 Electrical data of servomotor

3.5.1 Servomotor with reversing potentiometer

Fig. 8 Servomotor with reversing potentiometer

3.5.2 Servomotor with analog control (4-20 mA / 0-20 mA)

Fig. 9 Servomotor with analog control

TM04 0956 4009

Pos. Description

1

SR, limit switch cam min.

SL, limit switch cam max.

2 Supply voltage input

3 Potentiometer input/output

4 Earth terminal

Mains voltage

220-240 V ± 10 %, 50/60 Hz ± 5 %,

100 % ED (Standard)

110-120 V ± 10 %, 50/60 Hz ± 5 %,

24 V AC ± 10 %, 50/60 Hz ± 5 %

Rated current

30 mA (at 230 V),

60 mA (at 115 V),

240 mA (at 24 V)

Load capacity of limit

switch

2 A at 250 V

Power consumption Approx. 2 VA

Control variant

Reversing potentiometer 1 kΩ

Open/Close signal

Actuating time

90 s for 270 ° at 50 Hz

75 s for 270 ° at 60 Hz

Adjustment angle Max. 270 °

Protection class IP65

Permissible ambient

temperature

-15 °C to 60 °C

2

1,

3

4

SL

SR

1,

TM04 0956 4009

Pos. Description

1

SR, limit switch cam min.

SL, limit switch cam max.

2 Programming buttons

3 Alarm output

4LEDs

5 DIP switch

6 Mains connection terminals

7 Analog signal connection terminals

8 Earth terminal

Mains voltage

220-240 V ± 10 %, 50/60 Hz ± 5 %,

100 % ED (standard)

110-120 V ± 10 %, 50/60 Hz ± 5 %,

24 V AC ± 10 %, 50/60 Hz ± 5 %

Rated current

30 mA (at 230 V), 60 mA (at 115 V),

240 mA (at 24 V)

Load capacity of limit

switch

2 A at 250 V

Power consumption Approx. 2 VA

Control variant

Analog control

Input/output

Signal input, signal

output

4-20 mA (standard setting)

0-20 mA (switchable)

Setpoint input

4 (0)-20 mA (DC)

Load 250 Ω

Overload protection 25 mA

Protection against reverse polarity to

-25 mA

ESD protection, input filter

Resolution: 10 bit

Actual value output

4 (0)-20 mA

Load max. 500 Ω

Resolution: 10 bit

Carrying capacity of

signal output

Output current: 4-20 mA

Minimum voltage for open circuit 10 V

Potentiometer 1000 Ω

Actuating time

90 s for 270 ° at 50 Hz

75 s for 270 ° at 60 Hz

Adjustment angle Max. 270 °

Protection class IP65

Permissible ambient

temperature

0 °C to 60 °C

2

3

5

4

6

7

8

1

2

L

R

SET

on

1,

SR

SL

1,

English (GB)

13

3.6 Physical and chemical data of chlorine

Under normal conditions of pressure and temperature, chlorine is

a yellowish green gas with a pungent odour, which exists as

Cl

2

molecule.

It is not flammable, but can promote the flammability of metals,

hydrocarbons, etc.

Fig. 10 Vapour pressure curve of chlorine

Fig. 11 Solubility of chlorine gas in water

4. Design and function

4.1 Description of the device

Fig. 12 Dosing regulator with and without servomotor

Atomic weight 35.457 u

Molecular weight Cl

2

70.941 u

Density (liquid) 1.57 g/cm

3

at -34.05 °C

Density (gas) 3.214 g/l at 0 °C, 1 bar

1 litre of liquid chlorine at 0 °C

is equivalent to 457 litres

(0.457 m

3

) of chlorine gas

1 kg of liquid chlorine at 0 °C

is equivalent to 311 litres

(0.311 m

3

) of chlorine gas

Specific gravity

2.486

(specific gravity of air: 1)

Boiling point -34.05 °C (1 bar)

Melting point -101.5 °C

Evaporation heat 269 kJ/kg (at 0 °C)

Heat conductivity

0.527 kJ/m

2

h

(liquid chlorine)

Degree of purity according to

DIN 19607

99.5 %

TLV (Threshold Limit Value) 1.5 mg/m

3

(0.5 ppmv)

TM04 0691 0908TM04 0692 0908

Temperature [°C]

0

4

8

12

16

20

-50

-30

-10

0

10

30

50 70

Pressure [bar]

10

30

50

70

90

2

6

14

0

10

Temperature [°C]

Solution [g/l]

TM04 0750 0908

Pos. Description

1 Adjustment knob for setting the dosing flow

2 Measuring glass for indication of the dosing flow

3

Connection for the vacuum line (from the vacuum

regulator)

4 Connection for the vacuum line (to the injector)

5 Servomotor (option)

Caution

The rate valve is not a perfectly closing shut-off

valve. Do not try to stop the chlorine gas dosing

system by closing the rate valve!

Switching off the chlorine gas dosing system, see

section 7.5.3 Switching off while the system is

running

1

2

4

3

5

1

2

4

3

English (GB)

14

4.2 Functional principle

4.2.1 Dosing regulator

The dosing regulator regulates the chlorine gas flow with a valve.

The flow is read at the top of the ball in the measuring glass.

4.2.2 Vacuum chlorine gas dosing system

Fig. 13 Principle of a vacuum chlorine gas dosing system

Functioning of a vacuum chlorine gas dosing system

Handling, transport and storage of chlorine for the disinfection of

drinking and pool water are a challenge for plant engineers.

This is the reason why the vacuum principle has been used in

dosing systems for a long time. The pressure of the chlorine gas

is reduced to a vacuum.

This method prevents escape of chlorine gas. In the event of a

pipe burst no chlorine gas can escape, only ambient air is

drawn in.

Vacuum chlorine gas dosing systems are composed of three

principal components.

Vacuum regulator (B)

The vacuum regulator is a pressure reducing valve, which

reduces the overpressure from the chlorine tank side to the

negative pressure on the vacuum side. The valve opens, when a

sufficient vacuum has built up on the outlet side.

Vacuum regulators with pressure gauge and liquid trap are

available for more safety.

Dosing regulator (C)

The chlorine gas flow is adjusted with the dosing regulator.

This can be effected manually or automatically via motor control.

Injector (D)

Injectors have the task to bring chlorine gas into the water flow.

They operate according to the principle of water jet pumps. The

injector body comprises a nozzle with a successional diffuser.

Between the nozzle and the diffuser there is a narrow annular

gap, where chlorine gas is sucked out of the dosing line through

the injector head. A diaphragm non-return valve at the end of the

vacuum line prevents the ingress of water into the vacuum line.

Differential pressure regulator (I)

Regulates the difference of the pressures before and after the

rate valve to a constant value. Adjusted dosing flow stays

constant even when the injector vacuum varies.

TM04 8433 1811

Pos. Description

A Chlorine cylinder

B Vacuum regulator

C Dosing regulator

D Injector

E Adsorption filter (option)

F Safety valve (option)

G Change-over device (option)

H Water apparatus (option)

I Chlorine gas pressure line

J Chlorine gas vacuum line

English (GB)

15

5. Assembly and installation

5.1 Selection of vacuum lines

The vacuum needed for the transport of chlorine gas is built up by

the injector, and maintained by the vacuum lines. Rigid PVC

pipes or flexible PE hoses are used as vacuum lines.

The following tables show the recommended diameter of vacuum

lines, depending on the line length and dosing quantity.

5.1.1 Vacuum lines between vacuum regulator and dosing regulator

* For the calculation, a pressure loss of p = 12.5 mbar in the vacuum line was assumed.

5.1.2 Vacuum lines between dosing regulator and injector

** For the calculation, a pressure loss of p = 50 mbar in the vacuum line was assumed.

Warning

Observe section 1. Safety instructions.

Max. length [m] of the vacuum lines between

vacuum regulator and dosing regulator *

Dosing quantity [g/h]

40 100 250 500 1000 2000 4000

0 DN 8 DN 8 DN 8 DN 8 DN 8 DN 8 DN 10

10 DN 8 DN 8 DN 8 DN 8 DN 8 DN 8 DN 10

20 DN 8 DN 8 DN 8 DN 8 DN 8 DN 10 DN 15

30 DN 8 DN 8 DN 8 DN 8 DN 8 DN 10 DN 15

40 DN 8 DN 8 DN 8 DN 8 DN 8 DN 15 DN 15

50 DN 8 DN 8 DN 8 DN 8 DN 10 DN 15 DN 15

75 DN 8 DN 8 DN 8 DN 8 DN 10 DN 15 DN 15

100 DN 8 DN 8 DN 8 DN 8 DN 10 DN 15 DN 20

Max. length [m] of the vacuum lines between

dosing regulator and injector **

Dosing quantity [g/h]

40 100 250 500 1000 2000 4000

0 DN 8 DN 8 DN 8 DN 8 DN 8 DN 8 DN 8

10 DN 8 DN 8 DN 8 DN 8 DN 8 DN 8 DN 8

20 DN 8 DN 8 DN 8 DN 8 DN 8 DN 8 DN 10

30 DN 8 DN 8 DN 8 DN 8 DN 8 DN 8 DN 10

40 DN 8 DN 8 DN 8 DN 8 DN 8 DN 8 DN 10

50 DN 8 DN 8 DN 8 DN 8 DN 8 DN 10 DN 15

75 DN 8 DN 8 DN 8 DN 8 DN 8 DN 10 DN 15

100 DN 8 DN 8 DN 8 DN 8 DN 8 DN 10 DN 15

English (GB)

16

5.2 Connecting the dosing regulator

Fig. 14 Vacuum connections

The dosing regulator can be installed outside the chlorine room.

1. Connect the dosing regulator to the line from the vacuum

regulator (1).

2. Connect the line (3) from the dosing regulator, or from the

optional differential pressure regulator, to the injector.

5.3 Connecting an external controller to a servomotor

with analog control

5.3.1 Warnings and notes for electrical connection

5.3.2 Circuit diagram servomotor with analog control

Fig. 15 Servomotor with analog control

5.3.3 Connecting the external controller Conex

®

DIA-2Q

Connect the terminals of the servomotor according to the terminal

connection diagram of the controller.

Fig. 16 Terminal connection diagram Conex

®

DIA-2Q

Warning

Before connecting, make sure that the valves of all

chlorine containers are closed.

TM04 8413 1811

Pos. Description

1 Vacuum line to the dosing regulator

2 Overpressure line

3 Vacuum line to the injector

Caution

For details on vacuum lines, see section

5.1 Selection of vacuum lines

Only tighten the union nuts of the vacuum

connections by hand. Do not use any tools. Danger

of damages!

Make sure that the vacuum connections are clean

and dry.

2

3

VGA-111

1

Warning

Disconnect servomotor from mains before

removing the cover.

Observe the local safety regulations.

Protect unused screwings, cable connections and

plugs against corrosion and moisture with suitable

caps.

Caution

To ensure electromagnetic compatibility (EMC) signal

lines must be shielded, and guided in different cable

channels than mains cables.

The shield must be connected to PE or ground on the

side of the counterpart.

Caution

Before connecting the mains cable check, if the

mains voltage indicated on the type plate

corresponds to the local mains voltage. Wrong

voltage can lead to damages of the servomotor.

Note

Depending on the optional components selected,

connect mains plug to mains directly or via the

terminal box.

TM04 0951 4009

Warning

See section 5.3.1 Warnings and notes for electrical

connection for warnings and notes relating to

electrical connection.

TM04 0951 4009

4(0) - 20 mA

max. 125 V

56

57

55

54

52

51

-

+

LN

L1 N PE

-

Error message

30 29

Conex DIA-2Q

4(0) - 20 mA

max. 125 V

56

57

55

54

52

51

-

+

LN

L1

N

PE

-

Error message

English (GB)

17

5.3.4 Connecting the external controller Conex

®

DIS-2Q

1. Unscrew the screws of the servomotor hood, and remove the

hood.

2. Establish electrical connections according to the diagram

shown in fig. 17.

– Connect terminals 51 and 52 and, if required, terminals 54

and 55, in accordance with the diagram.

– Connect terminals 56 and 57 in accordance with

requirements; maximum voltage 125 V.

– For low voltages (setpoint/actual value signal lines) use

separate shielded lines with a minimum cross-section of

0.5 mm

2

and a maximum length of 1000 m.

– The screen must be connected on one side to the enclosure

earth (earth terminal).

3. Close the hood again and tighten the hood screws.

Fig. 17 Terminal connection diagram Conex

®

DIS-2Q

Warning

See section 5.3.1 Warnings and notes for electrical

connection for warnings and notes relating to

electrical connection.

Warning

The internal wiring of the servomotor must never be

modified.

TM04 0952 4009

15 16 17 18 19

20

21 22 23 24 25 26

L1 N PE

1 2 3 4 5 6 7 8 9 10 11121314

4(0) - 20 mA

max. 125 V

56

57

55

54

52

51

+

L

N

PE

Conex DIS-2Q

Error message

Pos. Description

LPhase

Supply voltage input

N Neutral

PE (earth)

51 Signal input (-)

52 Signal input (+)

54 Signal output (-)

55 Signal output (+)

56

Collective error message

57

English (GB)

18

5.4 Connecting an external controller to a servomotor

with reversing potentiometer

5.4.1 Terminal connection diagram servomotor with

reversing potentiometer

Fig. 18 Servomotor with reversing potentiometer

5.4.2 Connecting the external controller Conex

®

DIS-2Q

1. Unscrew the screws of the servomotor hood, and remove the

hood.

2. Establish electrical connections according to the diagram

shown in fig. 19.

– Connect terminals 18, 19 and 20 in accordance with

requirements; voltage < 50 V.

3. Determine the direction of rotation and correct it, if necessary.

Determining the direction of rotation

According to the internal wiring, the direction of rotation (looking

through the drive towards the output shaft) and limit switches are

assigned as follows:

• If mains voltage is present at terminal 2, the output shaft

rotates counter-clockwise (direction open/max.).

– This direction of rotation is restricted by the upper switch

(max.). If the switch is activated, the mains voltage is

present at terminal 4.

• If mains voltage is present at terminal 3, the output shaft

rotates clockwise (direction close/min.).

– This direction of rotation is restricted by the lower switch

(min.). If the switch is activated, the mains voltage is present

at terminal 5.

• If the drive rotates in the opposite direction to the control

commands, swap over the connections of terminals 2 and 3.

4. Close the hood again and tighten the hood screws.

Fig. 19 Terminal connection diagram Conex

®

DIS-2Q

TM04 0953 4009

Pos. Description

1 N Neutral

2 Phase Supply voltage input (direction open/max.)

3 Phase Supply voltage input (direction close/min.)

4 Supply voltage output (final position max.)

5 Supply voltage output (final position min.)

PE (earth)

18 Start

19 Slider

20 End

N

open

min.

PE

max.

close

N

23

4

5

18 19

20

< 50 V

start

slider

end

< 50 V

1

SL (max.)

SR (min.)

Motor control

Reversing potentiometer

Limit switch

Warning

See section 5.3.1 Warnings and notes for electrical

connection for warnings and notes relating to

electrical connection.

Warning

The internal wiring of the servomotor must never be

modified.

TM04 0954 4009

15 16 17 18 19 20 21 22 23 24 25 26

L1

PE

1 2 3 4 5 6 7 8 9 10 11 12 13 14

IDM

SL (max.)

SR (min.)

open

min.

max.

close

N

23

4

5

18 19

20

< 50 V

start

slider

end

< 50 V

1

N

PE

Potential-free relay outputs

Measuring amplifier

Reversing potentiometer

English (GB)

19

5.5 Installation example

Fig. 20 Dosing system with one drum

6. Startup

Check the tightness of the entire system before start-up.

Check the tightness of the valves using ammonia water

(small plastic bottle). White mist indicates leakages.

6.1 Checking the tightness

Due to the heavy corrosiveness of humid chlorine gas, leakages

increase quickly. Therefore, even the smallest leakage must be

eliminated immediately.

6.1.1 Checking the chlorine solution lines and the injector

Observe the installation and operating instructions of the injector.

6.1.2 Checking the vacuum lines

Vacuum lines are all lines between vacuum regulator and injector.

1. Close all chlorine container valves.

2. Close the rate valve.

3. Open the shut-off valve at the injection unit.

4. Open the motive water valve.

5. Switch on the booster pump.

6. Open the rate valve.

– If the floater shows a gas flow, or the vacuummeter indicates

more than -9 m water column, the vacuum lines are leaky.

7. Close the rate valve.

8. Switch off the booster pump.

9. Close the motive water valve.

10. Close the shut-off valve at the injection unit.

11. Check the vacuum lines and connections. Re-tighten them

carefully, if necessary.

12. Repeat the tightness check.

– If the floater shows no gas flow, and the vacuummeter

indicates -9 m water column or less, the vacuum lines are

tight.

6.1.3 Checking the gas pressure lines

Gas pressure lines are all lines leading from the chlorine

containers to the vacuum regulator.

1. If the system is equipped with a nitrogen rinsing device, check

the tightness roughly with nitrogen.

2. Detailed checking is made with ammonia.

Checking the tightness with nitrogen

1. Close all chlorine container valves.

2. Open container connection valves and all shut-off valves up to

the chlorine gas dosing system.

3. Open the connection valve of the nitrogen cylinder.

4. Slowly open the valve of the nitrogen cylinder, until the lines

have a pressure of about 10 bar (read at the pressure gauge

of the vacuum regulator).

5. Apply soap water to all components under pressure.

– If bubbles form and/or pressure drops at the pressure

gauge, the pressure lines are leaky.

6. Depressurise the system.

7. Eliminate the leakage.

8. Repeat the tightness check.

9. If no bubbles form, and the pressure at the pressure gauge

does not drop significantly within one hour, the pressure lines

are tight.

TM04 8412 1811

Pos. Description

1 Dosing regulator

2 Safety valve

3 Vacuum regulator with liquid trap

4 Chlorine gas adsorption filter

5 Gas sensor

6 Injector with non-return valve

7 Water apparatus

8 Gas warning device

Warning

The chlorine gas dosing system can only be started

after its good condition has been checked by an

expert, see 2.3 Qualification of the users, and

especially gas-leading parts have been checked for

their tightness.

Warning

Check the tightness only if the entire system is ready

for start-up.

Danger of chlorine gas escape!

8

1

2

3

7

6

5

4

Note

Reasons for insufficient operating vacuum:

Injector too small, defective, or blocked.

Booster pump too small, or defective.

Warning

Maximum nitrogen pressure 16 bar.

Danger of damages and leakages when exceeded.

English (GB)

20

Checking the tightness with ammonia

Fig. 21 Hazard notes for ammonia

Even very small leakages become evident with ammonia vapour,

which reacts with chlorine gas forming white mist.

Checking the pressure connections (after change of

container)

1. Open the container valve and immediately close it again.

2. Open the flexible plastic bottle filled with ammonia water.

3. Slightly press the bottle in a pumping manner, allowing the

ammonia mist to rise up. Slowly pass the open ammonia

bottle along gas-leading parts.

4. If white mist forms, the pressure connection is leaky.

Fig. 22 Ammonia and chlorine gas form white mist

5. Depressurise the system.

6. Eliminate the leakage.

7. Repeat the tightness check.

8. If no white mist forms, the pressure connection is tight.

Fig. 23 Pressure connection is tight

Checking the inlet valve

1. Loosen the union nut at the overpressure connection of the

vacuum regulator, and remove the overpressure line.

2. Inlet valve has to be closed (No vacuum).

3. Open the chlorine container valve.

4. Open the flexible plastic bottle filled with ammonia water.

5. Slightly press the bottle in a pumping manner, allowing the

ammonia mist to rise up. Slowly pass the open ammonia

bottle along gas-leading parts.

6. If white mist forms, the inlet valve is leaky.

7. Depressurise the system via injector.

8. Check the inlet valve and repair it.

9. Repeat the tightness check.

10. If no white mist forms, the inlet valve is tight.

6.2 Chlorine extraction

6.2.1 Connecting the chlorine container

Chlorine containers must be stored at least for 8 hours in the

container room, so that the content can adapt to the ambient

temperature.

1. Turn chlorine drums on their support, until the dip pipe and the

riser pipe are placed vertically (observe the markings on the

drum).

2. Protect chlorine containers from turning over or rolling away.

3. Dry the piping and the extraction system with dry nitrogen or

dry air.

4. No foreign matter must get into the system.

5. Provide the pressure connection with a new gasket.

6. Connect the chlorine container. When using drums, observe

that the lower valve is normally intended for the extraction of

liquid chlorine.

7. Slowly open the container valve.

6.2.2 Container valves

Operate the valves at the chlorine containers only manually

without force. Close the valves of full or empty chlorine containers

with closing nut (marked chlorine or Cl

2

) and gasket.

Stuck valves

Stuck valves can be loosened by wrapping a cloth with warm

water around the valve. If this is not possible, return the container

to the manufacturer.

• Never use an open flame to heat up the valve!

• Never use wrench lengthening!

6.2.3 Checking the tightness

Before start-up, check the tightness of the entire system, see

section 6.1 Checking the tightness.

Warning

Ammonia is irritating to eyes, respiratory system and

skin.

Ammonia is very toxic for water organisms.

When checking the tightness with ammonia, wear

tight protective goggles, gloves and clothes.

TM04 0699 0908

Warning

Liquid ammonia must not come in contact with lines

or parts of the system, because it is very corrosive.

Remove drops immediately with a dry cloth.

TM04 0710 0908TM04 0711 0908

Warning

Chlorine containers must not have a higher

temperature than other parts of the system. Danger

of liquefaction and escape of chlorine!

Warning

Do not open container valves using force!

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Grundfos VGA-113 Installation And Operating Instructions Manual

Grundfos VGA-113 Installation And Operating Instructions Manual

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