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ML-SP-0705TOV Viscometer System...What is it?: Page 1
The TOV Viscometer System . . . what is it?The Mansco Products TOV Viscometer System is a process viscometer designed and built for in-lineuse. It is the most sensitive, stand-alone control device for measuring viscosity and temperature inan in-line environment. It is unlike capillaries or laboratory viscometers in that the TOV
is installed directly into the main process pipeline . . .no sidestream is needed. It is unlike any other vis-cometer because of its sensitivity, repeatability,robustness, and low maintenance requirements. And,Mansco Products provides installation, training, andcomprehensive support services. In other words, theTOV System is the most effective process viscometeravailable and the TOV System has no peer.
Why the TOV? . . . why is the TOVViscometer System so much better?
Quite simply, the engineeringand “know-how” incorporated intoeach TOV System is what makesthe TOV better. For example, theTOV operates at a low shear rate.By definition, viscosity is the ratioof shear stress to shear rate. Inturn, the TOV measures shearstress of the process fluid todetermine the process viscosity.Sounds easy, right? . . . Well, it’snot that simple. The instrumentmust be engineeredand designed towithstand the harshoperating environ-ments of process lineswhile providing highsensitivity andrepeatibility levels forvery reliable processcontrol . . . all whileeliminating the effectsof the plant environ-ment. The TOV doesjust that.
- Reliability & Repeatability:With a repeatability factor ofover 99.5%, the TOV producesthe same results over and overagain, day after day, week afterweek, year after year.
- Very User-Friendly: Afterinitial set up, the TOV requireslittle or no maintenance . . .including calibration.
- Durability: The TOV System isvery durable. Many TOV’s havebeen installed in pipelines for adecade or more without interrup-tion.
- Lab-Like Results in Real-Time:The TOV is designed so thecustomer can measure viscosityand temperature within range andwithin the target viscosity level.
What’s Inside:What is viscosity & why is it
important?
More about shear rate . . .
TOV Applications
The TOV Probe
The TOV Transducer
The TOV Adaptor
Most Common TOV Installation
What we need to know about yourprocess
Contact information for ManscoProducts & Lawson-Hemphill
2
2
2
3
3
3
4
4
4 Agitator Current: No sensitivity
Control Level (Low)
Control Level (High)
Control Level (Low)
Control Level (High)
Process DataProcess DataOther In-Line Models Output:Drift due to noise problems
Other In-Line Models Output:Drift due to noise problems
Capillary: Little sensitivity(See Capillary comparison)Capillary: Little sensitivity(See Capillary comparison)
TOV Output: Can Match the actual process changesTOV Output: Can Match the actual process changes
Graphical Representation for Illustrative Purposes Only
Why “in-line”?Viscosity is a rheologicalproperty . . . meaning aproperty involved with thedeformation of flow. The keyword is flow. The best locationto measure and control aproperty of the flow is withinthe flow itself . . . not alongside the flow (a sidestream)and not in a laboratory. Themeasurement and control ofviscosity (and temperature)directly in the flow providesreal time rheological data . . .no lag time and no processdelays. In the end, plants willachieve the highest processefficiency while improvingproduct quality.
ML-SP-0705TOV Viscometer System...What is it?: Page 2
What is viscosity and why is it so important?“All fluids possess a
definite resistance to changeof form and many solids showa gradual yielding to forcestending to change their form.This property, a sort of internalfriction, is called viscosity; it isexpressed in dyne-secondsper cm2 or poises.”* In termsof physics, viscosity is theratio of shear stress to theshear rate. The viscosity of apolymer decreases as shearrate increases. This propertyis referred to as pseudoplasticbehavior or shear thinning.
*CRC Handbook of Chemistry and Physics, 62ndEdition, Copyright 1981-82, pg. F-40, CRC Press.
More About Shear Rate:Intrinsic Viscosity, Shear Rate, & the TOV Viscometer System
In a condensationpolymerization process thematerial exits the “finisher”and moves slowly towardspinning with a shear rate ofless than 10 sec-1. To obtainthe most reliable viscositymeasurement apparentviscosity at different shearrates should be analyzed.
At low shear rates theviscosity remains near η0,sometimes referred to as theintrinsic viscosity. But as theshear rate of measurementincreases, the apparentviscosity drops until reachinganother asymptotic plateau ,called the Philappoffianregion. The reason for thedecrease of apparentviscosity with increased shearrate is not all segments of a
TOV ApplicationsThe general rule is that: “If the fluid can be pumped,
then it can be measured using the TOV System.Applications include, but are not limited to:
PolyesterNylonAcrylicPolyethylenePolyurethanePolypropylene
“Shear” Layers“Shear” Layers“Shear” Layers“Shear” Layers“Shear” Layers“Shear” Layers
V1
FA
A
FA
A
F
∆v
∆xA
AV2
V1
V1
FA
A
FA
A
F
∆v∆v
∆x∆xA
AV2
V1
Shear Stress =FA
Shear Stress =FA
Shear StressViscosity = η =
F/AShear Rate ∆v / ∆ x
=Shear Stress
Viscosity = η =F/A
Shear Rate ∆v / ∆ x=
Shear Rate = ∆ v∆ xShear Rate = ∆ v∆ x∆ v∆ x
molecule can respond tothe more and more rapidmotion of the measuringdevice. This is demon-strated in the accompany-ing curve “Viscosity vs.Shear Rate.”
The TOV ViscometerSystem (TOV) measuresviscosity well before thePhilappoffian region, atmuch lower shear rateswhere the measurement ofviscosity is much moresignificant. With itsunsurpassed sensitivity atits operating shear rate,the TOV provides muchmore effective results on amore repeatable basis.
PolycarbonatePolysulfoneSpandexGlass FiberHigh ViscositySpecial Polymers
Please note: Each TOV System iscustom designed to meet each applicationsneeds and specifications. The TOV sensoris selected and designed for optimalviscosity measurement while the Trans-ducer is calibrated for optimal narrowranges within the product specifications.
Viscosity is a rheologicproperty. Rheology is thescience of deformation andflow of materials. Viscosity isjust one of the many importantrheological properties. Be-cause of this inter-relation,viscosity can be used as anindirect measurement ofproperties such as crystalconcentration, and otherimportant properties. In otherwords, with the accuratemeasurement of viscosity,plants can tightly control thierentire process flow.
Low Shear Rate Mid Range Shear Rate High Shear Rate
Region
Viscosity
0
Shear Rate (sec-
Philappoffian
1)
Melt Viscosity vs. Shear Rate Melt Viscosity vs. Shear Rate
MhMhhh
Higher Molecular Weight(Thicker fluid)
Lower Molecular Weight(Thinner Fluid)
lMlMlMM
(a) Zero shear rate
Best Sensitivity
(a) Zero shear rate
Best Sensitivity
(b)(b) Low shear rate
Excellent Sensitivity
(b)(b) Low shear rate
Excellent Sensitivity
(c) High shear rate
LittleSensitivity
(c) High shear rate
LittleSensitivity
Large Difference
Large Difference
Measures at a low shear rate where the difference is much larger …this means much greater sensitivity
Measures at a low shear rate where the difference is much larger …this means much greater sensitivity
CompetitionMeasures at a high shear rate where the difference is smaller…this means lower sensitivity
CompetitionMeasures at a high shear rate where the difference is smaller…this means lower sensitivity
ML-SP-0705
*
1/16 x 45°CHAMFER
SECTION "A"-"A"
120°
(TYP.)
SPLITTER - SEE DETAIL "Y" TYPICAL 2 PLACES
CL
LCPIPE I.D.
FLOW
.375 REAM
1.440 DIA.1.435 DIA.
30°± 15'
NOTE
12-5/8
RADIU
S
63
RADIUS
*
WP
NOTE 1
1"
2.055 DIA
2.050
*
63
NOTE 3
63
63
4.595
*
1 1/16
4.597
R.F.1/16
6.066
6.071
1/16 x 45° CHAMFER L
DETAIL - YMAT'L. TYPE 304 S.S.
1/4 (TYP.)
PIPE I.D.
(TYP.)CHAMFER1/8" x 45°
(TYP.)1"
CAVITY REQUIREMENTS FOR MOUNTING STANDARD POLYMER ELBOW
DRAWN BY
APPROVED BY
SCALE PROJECT
DATE
DATE 1- PLACE ± .05 INCH2- PLACE ± .01 INCH3- PLACE ± .005 INCH
REF. DRAWINGS
DECIMALS
D3151377
TOLERANCES UNLESS NOTED OTHERWISE
FRACTIONS ± 1/8 INCHANGLES ±0°30'
TYPE VISCOMETER
MANSCO PRODUCTS, INC.IVYLAND, PA 18974
D.L. MANGLE
DWG NO. REV. NO.
0
4/9/97
E3153178
C.M.
4/9/97
FULL
2. INTERIOR SURFACE WILL HAVE MILL FINISH
FACES PERPENDICULAR TO C.L. WITHIN .001"/IN.DIA.'S CONCENTRIC TO C.L. WITHIN .005" T.I.R.
* SURFACE MACHINED AFTER WELDING3. FLEXITALLIC GASKET TYPE R3-25D, REQUIRED FOR
4. MATERIAL WILL BE 304 S.S. UNLESS OTHERWISE NOTED5. POSITIONING DOWEL (1 PER ADAPTOR) .375 DIA. x 2" LONG STEEL
SURFACE FLAT WITHIN .005/IN.
DOWEL PIN REQUIRED.
"A"
INSTALLATION OF PROBE.
EXCEPT AS NOTED
1. BLEND CORNERS.
NOTES
LC4 9/16 LC
DIA. DIA.9 5/8
C
DRILL & TAP FOR 1 1/8-7UNC-2B x 1 3/8" DEEP8 HOLES EQUALLY SPACED ON 7.500 B.C.
22 1/2°
AS SHOWN
45° (TYP)
"A"POSITIONING DOWELSEE NOTE 5
DESCRIPTIONREV DATE
The Key Components of the TOV Viscometer SystemThe TOV ProbeThe superior design of the TOV Probe provides the mostsensitive, accurate, and reliable viscosity measurementin the world.
The Probe’s SensorThe TOV Probe’s sensor incorporates over 40years of experience and know-how. The sensor isdesigned for minimal flow disruption while providingthe most sensitive and reliable viscosity results.
Mass FlangeThe Probe’s massive flange provides a referenceso that plant influences are eliminated.
SafetyTOV Probes models are approved for Class 1, Division II, GroupA,B,C,D service by Entela and UL.
TOV Probe’s ConstructionThe superior engineering and design incorporatesdecades of field and engineering experience leading totoday’s unmatched know-how. Each TOV Probe iscustom designed to provide the most effective andreliable results on a repeatable basis.
Platinum RTD ElementThe built-in Platinum RTD provide a very accuratetemperature reading at the point where temperature ismost significant . . . where the viscosity is measured.
Probe’s Interior and Torsional SystemThe TOV Viscometer System operates utilizing thetorsional principal. Each TOV Probe incorporates themost advanced engineering . . . from the torsionalelements to the pickup to the electromagnets.
The TOV TransducerThe TOV Transducer makes up theelectronic component of the TOVSystem. It supplies power to theprobe, receives probe signals, andconditions these signals beforeoutputting as 4-20mA signals..
Conditioned SignalTo reduce noise influences fromthe pipeline operation, thesignal from the Probe isconditioned in the Transducer toprovide a steady, distortion freesignal.
Four Isolated Signals ·Compensated Viscosity ·Uncompensated Viscosity ·Broad Range Temperature ·Compensating Temperature
Pressure Compensation(optional for Model TOVL)Pressure compensation isavailable to eliminate pressureinfluences caused by pipelinepressure changes (such asfilter or pump changes).
Front Panel AccessAll Transducer settings aremade via the front door panelaccess.
On-line Probe ChecksOperational Probe Checksare included that allow for thetesting of the Probe andTransducer functions withoutremoval in the field makingprocess troubleshootingsimpler.
The TOV AdaptorThe TOV Adaptor, designedspecifically for the Probe, ismachined for a smooth interiortransition between the Probe andAdaptor, minimizing build-up anddisturbances.Experienced DesignThe Adaptor is designedbased on customer andprocess specifications usingthe years of experience ofMansco engineers. Even ifAdaptor drawings for customermanufacture are purchased in
place of a Manscobuilt Adaptor, thesame detail andexperience are usedto ensure the highquality of the TOVSystem.
Minimal FlowDisruptionThe Adaptor’sspecially machinedinternal contour allow
smooth flow characteristicsand minimized pressuredrops.
Any Core Pipe Size orScheduleFrom the 1” unjacketedpipelines used in researchand extrusion to the 8”jacketed pipeline adaptor(shown at left) used in CP’s,the Adaptor can be designedfor any core pipe size.
Flow SplitterSpecial flow splitters are used for protec-tion of the Probe.
Power ChecksModel SC-03 Slide Chassisprovides automatic and manualchecking of all power suppliesduring TOV System operation. Alsoincluded is a true differential meterfor making voltage measurements.
ML-SP-0705
Gasket
Flange W elded Into Vessel
Probe ProtectiveCage
Alignment Rods
TOV-L Probe
TOV Viscometer System...What is it?: Page 4
What we need toknow about yourproduct and process
Because each TOVSystem is customized foreach process and installa-tion, we need to understandyour product(s) and process.
For product information,product family (polyester,nylon, etc.) and targetviscosity & temperaturerange are importantconsiderations whendesigning and manufacturinga customized TOV .
For process information,data for the polymerizationprocess method (CP,autoclave, etc.) andoperating pressure rangeare important TOV consider-ations.
For TOV Adaptor design,whether we make theAdaptor or the customermanufactures locally, thepipeline specifications areneeded. The core pipe size,schedule and materials ofconstruction are importantconsiderations. And, if the ajacket is present, the jacketspecifications are needed.
Finally, to ensure properlocation of the TOV Probeinstallation, we need yourhellp by providing a sketchor even pictyures of theprocess with availablelocations for Probe installa-tion. This is even moreimportant in vessels whereagitators are present. Withyour help, we can worktogether to select a locationwhere the Probe can besuccessfully installed toproduce the results youexpect.
TOV Installation:Where Should the “TOV” Be Installed?
TOV Systems are custom de-signed. Characteristics of theprocess fluid, the Probe’s instal-lation location, and other specif-ics are important considerations:Probe Location:The most common pipeline in-stallation of a TOV Probe is in apipe elbow. Straightline loca-tions are also acceptable. In ei-ther, the Probe is installed intothe main process pipeline and ina location where viscosity con-trol can take place as possible.
In vessel installations, the Probeis often located in a recycle line(pipeline installation) or into thevessel itself near the exit.
Features of note:Adaptors are designed for mini-mal disruption to the processflow. The contours of the Adap-tor are engineered and ma-chined to match the pipeline.The Adaptor incorporates safetyfeatures such as the Flow Split-ters to protect the TOV Probe.
Homogenous Flow:Fully developed, well mixed flowis an important consideration forany in-line measurement suchas viscosity, temperature orpressure. In installations wherethe Probe will be considerablyaway from a mixing action(pump, static mixer, etc..), a newlocation or the addition of amixer should be considered.
TOV Vessel Installation
TOV PipelineInstallation
Smooth contoured
surfaceFor minimum flow disrptionor build-up
Smooth contoured
surfaceFor minimum flow disrptionor build-up
Flow SplitterTo prevent large solids from reaching the Probe sensor while not disturbing the flow.
Flow SplitterTo prevent large solids from reaching the Probe sensor while not disturbing the flow.
RecommendedStatic Mixer
RecommendedStatic Mixer
RecommendedStatic Mixer
Parabolic FlowParabolic Flow
Even (“Plug”) Flow for accurate measurement
Even (“Plug”) Flow for accurate measurement
FlexitallicGasket
Provides tight seal
FlexitallicGasket
Provides tight seal
TOV ProbeTOV ProbeWeldWeld
Flange-to-Flange Mounting
Flange-to-Flange Mounting
RecommendedDirection of flow
OptionalDirection of
flow
Integral Part of the Pipeline:Once the Probe is installed, it be-comes a part of the pipeline or ves-sel. It should be heated the same asthe process with no outside cooling.
Adaptors are designed for all sizes,from small pilot lines to large vessels.Mansco’s years of experience andknow how provide the best design andultimate success of the TOV System.
For more information, please contact:
34 Richard RoadIvyland, Pennsylvania 18974United StatesTelephone: +215.674.4395Fax: +215.674.4396http:\\www.ManscoProducts.com
ML-SP-0705
The Probe’s SensorViscosity sensor is sized and shapedaccording to the processspecifications for greater sensitivity.
the TOV viscometer
The Probe is the mechanical portion of the TOV System thatinstalls directly into the process environment.
Probe
Model TOVSFor Pipeline,Vessel, andExtruderInstallations
Model TOVLFor Vessel andExtruderInstallations
Model TOVS Probe shown as example.Specifications above are for Model TOVS Probes.
Operating temperatures vary by model.
Approx. 9.625 Inch (244.5 MM) Dia.Approx. 85 lbs (38.5 Kg)
Mass FlangeMass flange providesreference to reduce/eliminate extraneous plantnoise influences.
TOV Probe’s ConstructionAll weld construction allows Probedesigns for high pressures (over10,000 PSI or 700 Kg/cm2) and hightemperatures (up to 350ºC)
RTD ElementBuilt-in Platinum RTDprovides accuratetemperature reading (.1%)
Probe Interior Torsional SystemOperates utilizing the torsionalprincipal...no motors or gears, lessmoving parts, and no maintenance
SafetyTOV Probe models are approvedfor Class 1, Division II, GroupsA,B,C,D by Entela and UL
ML-SP-0705
specificationsTOV Probe Model TOVS-HT,MT, or LT
Viscosity Range: 0.01 to 100,000 poise(.001 to 10,000 Pa.s)
Working Temp. RangeModel TOVS-HT: 0°C to 350°C (32 to 662°F)Model TOVS-MT: 0°C to 230°C (32 to 446°F)Model TOVS-LT: 0°C to 120°C (32 to 248°F)
Temperature Accuracy: ±0.1°C of the balance pointDesign Pressure Range: 0.01 to 10,000 PSIG
(700kg/cm2)Installation and Mounting: Flange mounted with pipeline,
vessel, or extruder adaptor/flangeMass Diameter: 9.625 in (244.5 MM)Lid: Standard thin Rupture Disk
available Special Thick Lid designRTD: Dual Element, 100 ohm IcepointSize: Sensor Length 3 inches (76.2 MM)
Overall Length 14 inches (355.6 MM)Weight: Approx. 85 lbs. (38.5 Kg)Materials: Generally 316 S.S., others availableSafety Certification: US Entela Certified for UL1604
Class 1, Division II, Groups A,B,C,DCertification 8769
Viscosity Repeatability: ±0.2% of readingViscosity Accuracy: ±1% of range in use
Other TOVS models are available.
TOV Probe Model TOVL-HT, MT, or LT
Viscosity Range: 0.01 to 100,000 poise(.001 to 10,000 Pa.s)
Working Temp. RangeModel TOVL-HT: 0°C to 350°C (32 to 662°F)Model TOVL-MT: 0°C to 230°C (32 to 446°F)Model TOVL-LT: 0°C to 120°C (32 to 248°F)
Temperature Accuracy: ±0.1°C of the balance pointDesign Pressure Range: 0.01 to 10,000 PSIG
(700kg/cm2)Installation and Mounting: Flange mounted with vessel or
extruder adaptor/flangeMass Diameter: 6.500 in (165.1 MM)Lid: Standard Thick Lid design
RTD: Dual Element, 100 ohm IcepointSize: Sensor Length 3 inches (76.2 MM)
Overall Length 14 inches (355.6 MM)Weight: Approx. 40 lbs. (18.1 Kg)Materials: Generally 316 S.S., others availableSafety Certification: US Entela Certified for UL1604
Class 1, Division II, Groups A,B,C,DCertification 8769
Viscosity Repeatability: ±0.2% of readingViscosity Accuracy: ±1% of range in use
Other TOVL Model Probes are available.
How it works . . . The TOV Probe’s sensing device is immersed in process fluid.
The TOV Probe is allowed to oscillate at its own resonancefrequency…no motors or gears.
Power to start and maintain the TOV Probe’s oscillation issupplied by the TOV Transducer.
As the viscosity increases, more power is needed to maintainthe oscillation. For a lower viscosity, less power is needed.
The Transducer continually monitors how much power isneeded meaning the viscosity is also constantly monitored.
No sampling time….only REAL TIME measurement.
Recommended Flow
Optional Flow
Recommended Flow
Optional Flow
For more information, please contact:
34 Richard RoadIvyland, Pennsylvania 18974United StatesTelephone: +215.674.4395Fax: +215.674.4396http:\\www.ManscoProducts.com
ML-SP-0705
the TOV viscometer
The TOV Transducer is the electronic component of the TOV System.• Constant feedback with TOV Probe to provide real-time viscosity measurement.• Monitors changes in power needed by the Probe and converts these into changes in the viscosity.• Conditions Probe signal to output “real” viscosity changes.• Located in or near the control room (control room envirnment)
Transducer
Model SC-03 Slide ChassisNew Features• Built-in Differential Meter• Automatic Start-up Power Supply Checks• Manual Power Supply Checks• New LCD Display
Model TOVM 1.4• Most complete Transducer available• Includes 4 outputs (See specifications)• Includes Multi-feature option• Standard Pressure Compensation
from customer provided pressure signal (4-20 mA)
Model TOVL 1.1• Standard for one product use• Includes 2 outputs (See specifications)• Optional Pressure Compensation
from customer provided pressure signal (4-20 mA)
Built-in TOV System checks• Probe Function Checks• Probe Simulator
Front Access adjustmentsand Connections
Up to 4 Outputs available• 4-20 mA outputs• Isolated signals
New Model SC-03Slide Chassis
• New features• Standard for Model TOVM 1.4
and TOVL 1.1 Transducers• Available as upgrade for earlier
models
ML-SP-0705
TOVM 1.4 TOVM 1.3 TOVL 1.1Processor Model TOVM 1.4 TOVM 1.3 TOVL 1.1
Power Input from Field: 110VAC 50/60Hz Service √ √ √
Maxim um Power Output: 0.5 Am ps from P.S. √ √ √
Analog Output Signals (4-20 m A) 4 4 2
Com pensated Viscos ity √ √ √
Uncom pensated Viscos ity √ √
Broad Tem perature Output Ranges Available:
• 0 to 100°C (32 to 212°F)• 100 to 200°C (212 to 392°F)• 200 to 300°C (392 to 572°F)• 250 to 350°C (482 to 662°F)• 0 to 350°C (32 to 662°F)
Com pensating Tem perature:+/-5°C (9°F) f rom Temperature Compensation setpointPressure Com pensation (P ress input 4-20M A by custo m er):Max Press Comp: Span of Incoming Pressure Transmitter
Linear Tem perature Com pensation from Probe RTD s ignal within +/- 14°C (57.2°F) from setpoint
Standard Standard Standard
Transducer Accuracy: ±0.1% of reading √ √ √
Transducer Precis ion: ±0.1% of reading √ √ √
Multi-Features Standard Standard Not Available
In-line Probe Perform ance Tes ts for tes ting Probe operating param eters : Standard Standard Standard
Built-in Sim ulator feature Standard Standard Standard
Built-in Calibration features Standard Standard Standard
Push Button Com pensating Tem perature Balance Standard Standard Standard
LED Readout of Direct Process Tem perature Standard Standard Standard
New Slide Chass is Model SC-03 Standard Not Available Standard
Differential Voltage Meter √ Not Available √
Start-up Power Checks √ Not Available √
On-line Power Supply Checks ALL Lim ited ALL
LCD Meter Display √ Not Available √
Front panel access to Transducer settings √ √ √
Microprocessor features √ √ Lim ited √
Noise reduction conditioning √ √ √
CE Com pliant Availability Not Available √ Not Available
Feature/Specification
√ √ √
√ √
Standard Standard Optional
Transducer Model
For more information, please contact:
34 Richard RoadIvyland, Pennsylvania 18974United StatesTelephone: +215.674.4395Fax: +215.674.4396http:\\www.ManscoProducts.com
ML-SP-0705
the TOV viscometer
Adaptor
Key Features• Designed to match the dimensions of the
Probe for proper fitting.
• Designed for smooth contour to minimize build-upand process disturbances.
• Probe and Adaptor materials ofconstruction are matched to equal the thermalcoefficients of expansion
• The TOV Adaptor requires stringent compliance todetailed drawings to ensure proper fit.
• Adaptor Core and Jacket are designed and manu-factured to meet pipe line specifications.
• Mansco Products built Adaptors have all core weldsx-rayed per, ANSI 31.3 and jacket welds ultrasoni-cally inspected per B31.3 criteria ASME Section 5.
• Can be designed for any core pipe size or schedule.
• Flow splitters provide Probe protection from solidflow during a process shutdown or freeze-up.
• Mansco Products designed detailed Adaptordrawings are available for customer local manufac-ture of the Adaptor or Flange.
The TOV Adaptor (or Flange) is an integral part of the TOV System.The Adaptor is designed specifically for the TOV Probe and is machined for a smoothinterior transition between the Probe and the interior of the pipeline or vessel, minimizing anyflow disturbances and process build-up.
The Adaptor can be designed for jacked or non-jacketed installations and is not limited bypipeline sizes. It can be designed for TOV installations into either elbow or straight pipelinesections. In vessel installations, a flange is designed for the Probe insatallation point.
*
1/16 x 45°CHAMFER
SECTION "A"-"A"
120°
(TYP.)
SPLITTER - SEE DETAIL "Y" TYPICAL 2 PLACES
CL
LCPIPE I.D.
FLOW
.375 REAM
1.440 DIA.1.435 DIA.
30°± 15'
NOTE
12-5/8
RADIU
S
63
RADIUS
*
WP
NOTE 1
1"
2.055 DIA
2.050
*
63
NOTE 3
63
63
4.595
*
1 1/16
4.597
R.F.1/16
6.066
6.071
1/16 x 45° CHAMFER L
DETAIL - YMAT'L. TYPE 304 S.S.
1/4 (TYP.)
PIPE I.D.
(TYP.)CHAMFER1/8" x 45°
(TYP.)1"
CAVITY REQUIREMENTS FOR MOUNTING STANDARD POLYMER ELBOW
DRAWN BY
APPROVED BY
SCALE PROJECT
DATE
DATE 1- PLACE ± .05 INCH2- PLACE ± .01 INCH3- PLACE ± .005 INCH
REF. DRAWINGS
DECIMALS
D3151377
TOLERANCES UNLESS NOTED OTHERWISE
FRACTIONS ± 1/8 INCHANGLES ±0°30'
TYPE VISCOMETER
MANSCO PRODUCTS, INC.IVYLAND, PA 18974
D.L. MANGLE
DWG NO. REV. NO.
0
4/9/97
E3153178
C.M.
4/9/97
FULL
2. INTERIOR SURFACE WILL HAVE MILL FINISH
FACES PERPENDICULAR TO C.L. WITHIN .001"/IN.DIA.'S CONCENTRIC TO C.L. WITHIN .005" T.I.R.
* SURFACE MACHINED AFTER WELDING3. FLEXITALLIC GASKET TYPE R3-25D, REQUIRED FOR
4. MATERIAL WILL BE 304 S.S. UNLESS OTHERWISE NOTED5. POSITIONING DOWEL (1 PER ADAPTOR) .375 DIA. x 2" LONG STEEL
SURFACE FLAT WITHIN .005/IN.
DOWEL PIN REQUIRED.
"A"
INSTALLATION OF PROBE.
EXCEPT AS NOTED
1. BLEND CORNERS.
NOTES
LC4 9/16 LC
DIA. DIA.9 5/8
C
DRILL & TAP FOR 1 1/8-7UNC-2B x 1 3/8" DEEP8 HOLES EQUALLY SPACED ON 7.500 B.C.
22 1/2°
AS SHOWN
45° (TYP)
"A"POSITIONING DOWELSEE NOTE 5
DESCRIPTIONREV DATE
ML-SP-0705
Smooth contoured
surfaceFor minimum flow disrptionor build-up
Smooth contoured
surfaceFor minimum flow disrptionor build-up
Flow SplitterTo prevent large solids from reaching the Probe sensor while not disturbing the flow.
Flow SplitterTo prevent large solids from reaching the Probe sensor while not disturbing the flow.
RecommendedStatic Mixer
RecommendedStatic Mixer
RecommendedStatic Mixer
Parabolic FlowParabolic Flow
Even (“Plug”) Flow for accurate measurement
Even (“Plug”) Flow for accurate measurement
FlexitallicGasket
Provides tight seal
FlexitallicGasket
Provides tight seal
TOV ProbeTOV ProbeWeldWeld
Flange-to-Flange Mounting
Flange-to-Flange Mounting
RecommendedDirection of flow
OptionalDirection of
flow
RecommendedStatic Mixer
RecommendedStatic Mixer
Even (“Plug”) Flow for accurate measurement
Even (“Plug”) Flow for accurate measurement
Smooth contoured
surfaceFor minimum flow disruption and build-up
Smooth contoured
surfaceFor minimum flow disruption and build-up
Parabolic FlowParabolic Flow
Flange-to-Flange Mounting
Flange-to-Flange Mounting
FlexitallicGasket
Provides tight seal
FlexitallicGasket
Provides tight seal
Flow SplitterTo prevent large solids from reaching the Probe sensor while not disturbing the flow.
Flow SplitterTo prevent large solids from reaching the Probe sensor while not disturbing the flow.
TOV ProbeTOV Probe
WeldWeldWeldWeld
Direction of flow
Direction of flow
Gasket
Flange W elded Into Vessel
Probe ProtectiveCage
Alignment Rods
TOV-L Probe
TOVL Vessel Installation
TOV Pipeline Installation
• Designed for smooth contour tominimize build-up
• Flow Splitters used for Probeprotection
• Optional Jacket not shown
• Mansco Engineers work with thecustomer to analyze the bestinstallation location in the process.
• A very durable and specificallyselected Flexitallic Gasketincluded with each Probe foreach installation
• Designed for smooth contour to minimizebuild-up
• Mansco Engineers work with the customer toanalyze the best installation location in thevessel.
• Protective cage used when extra Probeprotection is needed
• A very durable and specifically selectedFlexitallic Gasket included with each Probefor each installation
• Elbow installationshown in detail.
• Straightline installationsare also available.
For more information, please contact:
34 Richard RoadIvyland, Pennsylvania 18974United StatesTelephone: +215.674.4395Fax: +215.674.4396http:\\www.ManscoProducts.com
ML-SP-0705
Height: 76.875 in.Width: 21.063 in.Depth: 25.050 in.Weight: Approximately 300 lbs (with mounted
Sola Transformer)Installation & Mounting: Shipped from Mansco with
Transducers, power outlet, andtransformer installed and mounted.
Capacity: Four (4) Transducer units.Other: Unit is shipped in wooded crate for
optimal protection and safety.Complete unpacking and installationinstructions provided to ensuresimplistic installation.
the TOV viscometer
The Mansco Products TOV Rack provides convenient and organizedstorage for multiple TOV Transducers. For further convenience, theRack also contains a power outlet and isolation transform and can belocated in the DCS room or in the plant environment.
spe
cific
atio
ns
Key Features• Houses up to four transducers.
• Provides an optimal in-line viscosity monitoringstation.
• Contains a convenient power outlet and an isolationtransformer.
• The power outlet is located on the front bottompanel that providing convenient access.
• The isolation transformer is in accordance with theincoming power source from the plant.
• An intregal part of the TOV Viscometer System.
• Can be located in the DCS room or in the generalplant environment.
Rack
ML-SP-0705
Process Control Comparison
HighLow
The Mansco ProductsTOV SystemTM
. . . Why the “TOV”√√√√√
The Most Sensitive and Reliable Device Available:Superior engineering and know-how used in eachTOV System provides the most sensitivite, accurate,and reliable measurement available.
Provides Real-Time Results: Unlike lab samplingand other methods, the TOV system is a true in-linedevice providing real time results.
Improves Quality Control: The TOV System isa quality control instrument. Better and tightercontrol means better quality, better price per produc-tion, and, ultimately, better business.
Stand-Alone Device: The TOV can operate with aDCS system or separately from other control devices.In the event of a control system failure the processcan continue to operate with confidence of reliableviscosity and temperature measurement.
Increased Operating Efficiency: There are no time delays waiting for labresults resulting in operating inefficiencies and process delays. real-time controlmeans more higher grade product with less scrap or low grade product. In time,the TOV pays for itself simply through improved quality control.
Developed and manufactured by a proven company with asubstantial track record.
• Over 40 years of in-line viscometry experience• Applications installed throughout the world• DuPont endorsement• Superior engineering know-how
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Mansco Products TOV System
Capillaries
Lab Procedures
For more information, please contact:
34 Richard RoadIvyland, Pennsylvania 18974United StatesTelephone: +215.674.4395Fax: +215.674.4396http:\\www.ManscoProducts.com
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