Vega FIBERTRAC 31 Supplementary instructions

Brand: Vega

Model: FIBERTRAC 31

Type: Supplementary instructions

This manual is also suitable for

Water/Air cooling FIBERTRAC 31

Vega Water/Air cooling FIBERTRAC 31 is an active water cooling system designed to enhance the performance of radiation-based sensors in demanding applications. It consists of several modules, including a housing cooling lid, housing cooling, and scintillator cooling, which work together to efficiently dissipate heat from the sensor, ensuring accurate and reliable measurements. This cooling system is particularly useful in environments with high ambient temperatures or where the sensor is exposed to heat sources.

Supplementary instructions

Water cooling -

FIBERTRAC 31

Active water cooling system for radiation-

based sensors

Document ID: 48524

Contents

Water cooling - FIBERTRAC 31 • Active water cooling system for radiation-based sensors

48524-EN-180130

Contents

1 Product description ................................................................................................................. 3

1.1 Conguration

.................................................................................................................... 3

2 Mounting ................................................................................................................................... 5

3 Replacement parts ................................................................................................................. 17

3.1 Available spare parts - water cooling .............................................................................. 17

4 Supplement ............................................................................................................................ 19

4.1 Technical data ................................................................................................................ 19

4.2 Dimensions .................................................................................................................... 21

Editing status: 2018-01-29

1 Product description

Water cooling - FIBERTRAC 31 • Active water cooling system for radiation-based sensors

48524-EN-180130

1 Product description

1.1 Conguration

The active water cooling system is suitable for radiation-based sen-

sors of series FIBERTRAC 31.

The water cooling system consists of several modules.

The housing cooling lid can be screwed onto the instrument housing

instead of the normal housing lid.

The cooling module for the housing cools the lower part of the sensor

housing.

Theexiblecoolingmoduleforthescintillatorcoolstheactivemeas-

uring part of the sensor.

Fig. 1: Active water cooling system with fastening bracket

A Housing cooling lid

B Housing cooling

C Scintillatorcooling(exible)

The following parts belong to the scope of delivery of the water cool-

ing system:

Housing cooling lid (A)

Housing cooling (B)

Scintillator cooling (C)

Scope of delivery

1 Product description

Water cooling - FIBERTRAC 31 • Active water cooling system for radiation-based sensors

48524-EN-180130

•

Scintillator cooling hose (1 piece)

•

Flange, sectioned (2 pieces)

•

HexagonsocketscrewM5x12(6pieces)

•

Sealingringø42x6mm(2pieces)

•

Compression nut, top (1 piece)

•

Compression nut, bottom (1 piece)

•

Mountingclamp(quantitydependingonsensorlength)

•

Fasteningbracket

•

Housing cooling lid

•

Isolatingsleeve(6pieces)

•

FixingscrewM8x35(2pieces)

•

FixingscrewM8x40(4pieces)

•

WasherforM8(10pieces)

•

SpringringforM8(2pieces)

•

HexagonnutM8(4pieces)

•

Coolant hose ¼", length: 300 mm (11.81 in)

•

Coolanthose¼",length:550mm(21.65in)

•

NPT threaded adapter for cooling hoses ¼" (optional)

•

Hookwrenchsize68-75,DIN1810,FormB

Information:

When the sensor is ordered with cooling, the sensor and the water

cooling system are shipped already premounted.

If the cooling is ordered later, you have to mount the water cooling

system on the sensor.

Youcanndfurtherinformationinchapter"Mounting".

2Mounting

Water cooling - FIBERTRAC 31 • Active water cooling system for radiation-based sensors

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2 Mounting

Mounting preparations

Takenoteoftheoperatinginstructionsmanualsofthecorresponding

radiation-based sensors and the source holder.

Warning:

Duringallmountinganddismountingwork,thesourcecontainermust

beinswitchposition"OFF"andsecuredbyalock.

Carryoutallworkwithintheshortestpossibletimeandatthelargest

possible distance. Provide suitable shielding.

Avoidrisktootherpersonsbytakingsuitablemeasures(e.g.safety

fence, etc.).

Mountingmayonlybecarriedoutbyauthorized,qualiedpersonnel

whoaremonitoredforradiationexposureaccordingtolocallawsor

thehandlingpermit.Takenoteofthespecicationsinthehandling

permit.Alsotakethelocalconditionsintoaccount.

Caution:

The cooling system is used in areas with high temperatures. There-

fore, use temperature-resistant cable and install it in such a way that

contact with hot components is avoided.

Information:

When the sensor is ordered with cooling, the sensor and the water

cooling system are shipped already premounted.

If the cooling is ordered later, you have to mount the water cooling

system on the sensor.

Required tools:

•

Hookwrenchsize68-75,DIN1810,FormB-forscrewingonthe

cooling hose (comes with the water cooling system)

•

Allenkeysize4-forthebisectionalholdingange

•

ForkwrenchSW10mm-forthemountingclip

•

ForkwrenchSW13mm(2pieces)-forthehousingcooling

•

ForkwrenchSW19mm(2pieces)-forthehosettingsofthe

cooling circuit

•

Acid-free grease - to screw in the compression nuts more easily

Takenoteofthefollowinggeneralmountinginstructions:

•

Firstofall,mountthefasteningbracketandthehousingcooling,

and then the sensor.

•

The small lid of the instrument housing must point to the front after

mountingthefasteningbracket(x)

•

The sensor together with the water cooling system is very heavy.

Use a suitable lifting device for mounting, e.g. a sling

Mounting

1. Place the isolating sleeves (4) between the housing cooling (5)

andthefasteningbracket(1).

Operating instructions

General mounting

instructions

Mount the fastening

bracket

2Mounting

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48524-EN-180130

Fig. 2: Housing cooling

1 Fastening bracket

2 HexagonscrewsM8x40(4pieces)

3 WasherforM8(4pieces)

4 Isolatingsleeve(4pieces)

5 Housing cooling

6 HexagonnutM8(4pieces)

2. Placethefasteningbracket(1)ontothehousingcooling(5).Make

sure that the coolant connections point in a suitable direction.

Rotatingtheholdingbracketlater(1)isverydicult.

3. Connectthefasteningbracket(1)withthehousingcooling(5)

accordingtotheillustrationandtightenthescrews(2,3,6)witha

torqueof15Nm(11.06lbfft).

1. Insert the sensor into the housing cooling.

The small lid of the instrument housing must point to the front

aftermountingonthefasteningbracket(x).

Fig. 3: Mounting direction of the sensor towards the fastening bracket

1 Fastening bracket

5 Housing cooling

x Mountingdirectionofthehousing

2. It is advisable to place the sensor and the housing cooling on the

oorwhileinserting.Protectthesensorbycoveringthesensor

housing during mounting.

Inserting the sensor

2Mounting

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Mountthesensorwiththetwoscrews(7)intheappropriateposi-

tion.

Fig.4:Mountingthesensor

1 Fastening bracket

4 Isolatingsleeve(2pieces)

7 HexagonscrewM8x25(2pieces)

8 RetainingwasherforM8(2pieces)

9 WasherforM8(4pieces)

Takenoteofthefollowinggeneralmountinginstructions:

•

Firstofall,mountthefasteningbracketandthehousingcooling,

and then the sensor

•

The small lid of the instrument housing must point to the front after

mountingthefasteningbracket(x)

•

The sensor together with the water cooling system is very heavy.

Use a suitable lifting device for mounting

Mountthescintillatorcoolingaccordingtothefollowingassembly

drawing:

Housing cooling

Mounting the scintillator

cooling

2Mounting

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48524-EN-180130

Fig.5:Mountingscintillatorcooling-upperpart

10 Housingcooling

11 Holdingange(bisectional)

12 HexagonsocketscrewM5x12(6pieces)

13 Compressionnut-top

14 Sealring

15 Scintillatorcoolinghose(withconnectionthread)

1. Slidetheuppercompressionnut(13)frombelowontotheblack

scintillatorofthesensor.Makesurethattheuppercompression

nut (13) has a fastening slot and that this slot points in the direc-

tion of the housing cooling (10).

2. Slide the seal ring (14) from below onto the scintillator hose of

the sensor. The seal ring (14) encircles the scintillator hose very

tightly and must be moved with a rolling motion over the entire

lengthofthescintillatorhose.Makesurethatthesealringisnot

damaged or contaminated.

3. Push the upper compression nut (13) from below against the

housing cooling (10).

4. Placethetwohalfshellsoftheholdingange(11)fromtheside

onto the upper compression nut (13) and fasten to the housing

cooling(10)withtheenclosedhexagonsocketscrews(12).

5. Grease the upper thread of the scintillator cooling hose (15) with

acid-freegrease.Thismakesscrewingthepartstogethereasier.

6. Pushthescintillatorcoolinghose(15)frombelowontothescintil-

lator of the sensor.

7. Slide the seal ring (14) from below into the opening of the upper

compressionnut(13).Makesurethatthesealring(14)isclean

and undamaged and not twisted during the process.

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48524-EN-180130

8. Slide the thread of the scintillator cooling hose (15) from below

into the upper compression nut (13). Screw the scintillator cooling

hose (15) slowly into the upper compression nut (13) up to the

stop.

Tightentheuppercompressionnut(13)withtheattachedhook

wrench up to the stop.

9. Theupperpartofthescintillatorcoolingisthensealed.Mountthe

lower part as follows:

Fig.6:Mountingscintillatorcooling-lowerpart

14 Sealring

15 Scintillatorcoolinghose(withconnectionthread)

16 Sensor(scintillatorhose)

17 Compressionnut-bottom

10. Grease the lower thread of the scintillator cooling hose (15) with

acid-freegrease.Thismakesscrewingthepartstogethereasier.

11. Slideasealring(14)frombelowontothescintillatorhose(16)of

thesensor.Makesurethatthesealring(14)isnotdamagedor

contaminated.

12. Slide the lower compression nut (17) from below onto the thread

of the scintillator cooling hose (15).

13. Screw the lower compression nut (17) slowly onto the scintillator

coolinghose(15)uptothestop.Applycounterforceonthexed

tube part of the scintillator cooling hose (15) with a strap wrench

(oillterwrench)andtightenthelowercompressionnut(17)with

theenclosedhookwrenchuptothestop.

The scintillator cooling is now completely sealed.

Information:

The sensor together with the water cooling system is very heavy. Use

a suitable lifting device for mounting.

Useaslingwithsucientliftingcapacity.Takenoteoftheslingmark-

ing.Youcanndtherespectiveweightofthewatercoolingsystemin

chapter "Technical data".

Place the lifting sling around the cooling tube directly below the

ange.Theloopisaso-calledlark'sfoot.

Fasten the hoisting sling according to the following illustration.

Lifting of the water

cooling system

2Mounting

Water cooling - FIBERTRAC 31 • Active water cooling system for radiation-based sensors

48524-EN-180130

Fig. 7: Attaching the sling

As soon as the water cooling system is mounted, you can can install

the sensor with the water cooling system in your plant.

You can mount the sensor on your vessel with the enclosed mounting

clamps. A number of mounting clamps come with the water cooling

system depending on the length of the sensor.

Useamountingclampapprox.every450mm(17.72in).Adjustthe

distances between the attached mounting clips.

Takenoteoftheminimumbendingradiusofthehousingcooling,

which is 294 mm (11.57 in).

1. Determinetheexactmountingpositionofoneorseveralmounting

clampsandmarktheholes.

Youcanndthedrillingtemplateinthetechnicaldata.

Alignthemountingpositionsexactlyandaveragethedistances

between the enclosed mounting clamps.

Drillappropriateholes(max.M12)forfasteningthemounting

clamps.

Note:

The mounting clamps do not come with fastening screws. Use fasten-

ing elements that are appropriate for the situation in your plant.

2. Positionthebaseplate(35)andfastenitinthespeciedmount-

ing position.

3. Fastenadditionalmountingclampsexactlyalignedinthesame

way.

Mounting the sensor

2Mounting

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48524-EN-180130

Fig.8:Mountingclamps

28 HexagonscrewM12x190

30 Coverplate-metal

31 Upperclampingjaw

32 Fasteningscrew(providedbythecustomer)

34 Lowerclampingjaw

35 Bottomplate-metal(withslotholes)

4. Placethelowerclampingjaw(34)ontothebottomplate(35).

5. Insert the sensor with the cooling system into the lower clamping

jaw(34)andalignthecoolingsystem.

6. Placethecoverplate(30)ontotheupperclampingjaw(31)and

placethetwopartsontothelowerclampingjaw(34).

7. Insertthetwohexagonscrews(28)intotheholesofthecover

plate(30)andtheupperclampingjaw(31)andthenpushthe

hexagonscrews(28)throughthetwoclampingjaws.

8. Tightenthetwohexagonscrews(28)withatorqueof8Nm

(5.9 lbf ft).

Youcanndfurtherinformationonsensormountingintheoperating

instructions manual of the sensor.

Thehousingcoolinglidisscrewedontotheexistingsensorhousing

likeahousinglid.

1. Unscrew the housing lid (18) from the sensor.

2. Connect the sensor to power supply. Keep the instructions of the

operating instructions manual of the appropriate sensor in mind.

There is a connection diagram in the housing lid (18). This

diagram is not in the housing cooling lid (19). So please note the

details of the electrical connection in the operating instructions

manual of the sensor.

Electrical connection

2Mounting

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48524-EN-180130

Note:

The cooling system is used in areas with high temperatures. There-

fore, use temperature-resistant cable and install it in such a way that

contact with hot components is avoided.

1. Clean the thread of the housing cooling lid (19) and the thread on

the housing.

2. Screw the housing cooling lid (19) onto the sensor instead of the

housing lid (18) and turn the housing cooling lid (19) up to the

stop.

Fig. 9: Mounting of the housing cooling lid

18 Housinglid

19 Housing cooling lid

20 Connectionopeningforthecoolanthose

21 Sensor

The housing cooling and the housing cooling lid must be connected

to the cooling circuit.

All threads for the cooling connection on the sensor are inner threads.

Therequiredcoolanthosesarepartofthescopeofdelivery.

Use clean tap water or distilled water for cooling. Oil or salt water are

not suitable for the cooling system.

Makesurethatthecoolantcablesdonotfreeze,e.g.incaseofa

shutdown.

Youcanndinformationonthethroughputandthetemperatureofthe

cooling water in the technical data section.

Coolant pump

Thewatercoolingmayonlybeoperatedinanunpressurizedstate.

Use an open cooling circuit that circulates the coolant through the

system by means of a pump.

Plan the coolant pump and a possible re-cooling system according to

therequiredinlettemperature,pumpingheightandwaterthroughput.

If you want to integrate a gate valve into the system, then install it only

inthefeedlinetoavoidpressurizationinthecoolingsystem.

Mounting of the housing

cooling lid

Connect cooling

2Mounting

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48524-EN-180130

Caution:

Makesurethatthecoolingwatersupplyisreliableundinterruption-

free. Plan the necessary steps for a possible pump failure, missing

coolant, etc.

Werecommendinstallingatemperaturesensor(inthereturnow)

that triggers an alarm when a critical temperature is reached.

IfyouwanttousethewatercoolinginanapplicationthatisSILquali-

ed,youhavetoassesstheSILfailureratesofthecompletewater

cooling system and the cooling water supply yourself.

1. Installthecoolanthosesinsuchawaythattheydonotgetkinked

or come into contact with hot components.

Information:

Notetheowdirectionofthecoolant.Thedirectionofowshouldbe

from bottom to top so that no voids can arise.

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48524-EN-180130

Fig.10:Mountingpositionofthecoolingsystem-noteowdirectionofthe

coolant(a,b,c…)

A Verticalmounting-housingheadontop

B Vertical mounting - housing head on bottom

C Horizontal mounting

2. Connect the lines for the cooling water.

All threads for the cooling connection on the sensor are inner

threads.

2Mounting

Water cooling - FIBERTRAC 31 • Active water cooling system for radiation-based sensors

48524-EN-180130

Fig.11:Flowdirectionofthecoolant(verticalmounting,housingheadontop)

a Coolant inlet - scintillator cooling

b Coolant outlet - scintillator cooling

c Coolant inlet - housing cooling

d Coolant outlet - housing cooling

e Coolant inlet - housing cooling lid

f Coolant outlet - housing cooling lid

22 Coolant hose - scintillator cooling/housing cooling

23 Coolant hose - housing cooling/housing cooling lid

Note:

The enclosed coolant hoses are pre-fabricated in their length. One

endofthehosehasaxedconnectionthread,theotherhasarotat-

able connection.

This ensures that the coolant hoses remain straight.

Allconnectionthreadshavesealsalreadyinplace.Makesurethatthe

seals are there when mounting.

2Mounting

Water cooling - FIBERTRAC 31 • Active water cooling system for radiation-based sensors

48524-EN-180130

Fig. 12: Pre-assembled coolant hose

23 Coolant hose

24 Rotatableconnectionthread

25 Fixedconnectionthread

26 Doublenipple¼"(DINISO228)

3. Firstscrewinthexedconnectionthread(25)ofthecoolanthose

(23)andtightenthettingwithatorqueof25Nm(18.43lbfft).

4. Unscrewthedoublenipple(26)fromtherotatableconnection

thread (24) of the coolant hose and mount it in the connection

hole of the sensor cooling.

Tightenthedoublenipple(26)withatorqueof25Nm

(18.43 lbf ft).

5. Screwtherotatablethread(24)intothedoublenipple(26).Apply

counterforceontherearnutwithaforkwrench(SW19)and

tightentheconnectionthreadwithasecondforkwrenchwitha

torqueof25Nm(18.43lbfft).

6. Fillthewatercoolingsystem.

Checkthetightnessofthesystemandthehosettings.

Thecoolingsystemmayonlybeoperatedinanunpressurized

state.

Caution:

Do not loosen any screws or hose connections during operation and

makesurethatthecoolantsupplyisreliableandinterruption-free.

Takenoteoftheoperatinginstructionsmanualsofthecorresponding

radiation-based sensors and the source holder.

Whenhandlingradioactivesubstances,unnecessaryradiationexpo-

sure must be avoided.

If there are gaps or intervening spaces after mounting, provide pro-

tectivefencesorgridstokeephandsawayfromthedangerousarea.

Suchareasmustbemarkedaccordingly.

Install a safety barrier on both sides of the cooling system. A sheet

metal cover or an appropriately shaped plastic sheet can also be

used.

Install a protective grid

3 Replacement parts

Water cooling - FIBERTRAC 31 • Active water cooling system for radiation-based sensors

48524-EN-180130

3 Replacement parts

3.1 Available spare parts - water cooling

Selected components of the cooling are available as replacement

parts. The following parts are available:

Thestatedquantityisthequantitydelivered.

Fig.13:Scintillatorcooling-hosesandadapters

1 Coolant hose - housing cooling/housing cooling lid

2 Threadedadapter-watercooling¼NPT(1pce.)

3 Coolant hose - scintillator cooling/housing cooling

Water cooling

3 Replacement parts

Water cooling - FIBERTRAC 31 • Active water cooling system for radiation-based sensors

48524-EN-180130

Fig.14:Mountingkit-scintillatorcoolinghose-top

4 Holdingange(bisectional)

5 HexagonsocketscrewM5x12(6pieces)

6 Sealring(includedinthemountingkit"Scintillatorcoolinghose,bottom")

Fig. 15: Mounting kit - scintillator cooling hose - bottom

6 Sealingring(2pieces)

Scintillator cooling hose

- top

Scintillator cooling hose

- bottom

4 Supplement

Water cooling - FIBERTRAC 31 • Active water cooling system for radiation-based sensors

48524-EN-180130

4 Supplement

4.1 Technical data

General data

TakenoteoftheinformationintheoperatinginstructionsmanualoftheinstalledFIBERTRAClevel

sensor and the source holder

Material316Lcorrespondsto1.4404or1.4435

Materials

Ʋ Housing cooling 316L

Ʋ Housing cooling lid 316L

Ʋ Metallicbraidedhoseofthehousing

cooling

Stainless steel

Ʋ Seal NBR

Application temperature See following tables (throughput - coolant)

Sensor length (L)

7 m (23 ft)

Weight

Ʋ Housing cooling 2.3kg(5.1lbs)

Ʋ Scintillator cooling 8.8kg/m(1.62oz/in)

Ʋ Housing cooling lid 2.4kg(5.3lbs)

Ʋ Fasteningbracket 4.3kg(9.5lbs)

Ʋ Fastening clamp 0.5kg(1.1lbs)

Total length of the water cooling system 7m(275.6in)

Torques

Ʋ Screws-Sensormounting(M8) 15Nm(11.06lbfft)

Ʋ Nuts-housingcooling(M8) 15Nm(11.06lbfft)

Ʋ Hexagonsocketscrews-holding

ange(M6)

4.5 Nm (3.3 lbf ft)

Ʋ Coolanthoses,threadedttings 25 Nm (18.43 lbf ft)

Ʋ Screws for mounting clamps 8 Nm (5.9 lbf ft)

Connection thread of coolant hoses ¼" DIN ISO 228 outer thread

(adaptersforNPTttingsareenclosedwithrespective

version)

Throughput - coolant water

Cooling water pressure The cooling system may only be operated in an unpres-

surizedstate.

Sensor length < 2 m (< 6.56 ft)

Coolant temperature Ambient temperature

+70 °C (+158 °F) +80 °C (+176 °F) +100 °C (+212 °F)

<+20°C(+68°F) 0.5l/min(0.14USgal/min) 0.5l/min(0.14USgal/min) 2l/min(0.53USgal/min)

<+30°C(+86°F) 0.5l/min(0.14USgal/min) 0.5l/min(0.14USgal/min) 5l/min(1.32USgal/min)

4 Supplement

Water cooling - FIBERTRAC 31 • Active water cooling system for radiation-based sensors

48524-EN-180130

Tab.1:Requiredwaterthroughputtoreachthemax.permissiblesensortemperatureof+60°C(+140°F)

Sensor length > 2 m (> 6.56 ft)

Coolant temperature Ambient temperature

+70 °C (+158 °F) +80 °C (+176 °F) +100 °C (+212 °F)

<+20°C(+68°F) 0.5l/min(0.14USgal/min) 2l/min(0.53USgal/min) 5l/min(1.32USgal/min)

<+30°C(+86°F) 0.5l/min(0.14USgal/min) 2l/min(0.53USgal/min) 7l/min(1.85USgal/min)

Tab.2:Requiredwaterthroughputtoreachthemax.permissiblesensortemperatureof+60°C(+140°F)

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Vega FIBERTRAC 31 Supplementary instructions

Brand: Vega

Model: FIBERTRAC 31

Type: Supplementary instructions

This manual is also suitable for

Water/Air cooling FIBERTRAC 31

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Vega FIBERTRAC 31 Supplementary instructions

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Vega FIBERTRAC 31 Supplementary instructions

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