catalogo annubar

Product Data Sheet 00813-0100-4760, DS-4009

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Diamond II+Annubar Primary Flow ElementTHE DIAMOND II+ANNUBAR PRIMARYFLOW ELEMENT HAS PROVEN TO BEACCURATE AND RELIABLE IN HUNDREDSOF THOUSANDS OF APPLICATIONS.ACCURATE Annubar primary flow element design Long-term accuracy

SENSIBLE Energy cost savings Low installation costs

ADAPTABLE No system shutdown Special materials Gear drive Special flow element models and designs PakLok

Elbow mounting Bi-directional flows Integral manifold head Integral valve head Integral temperature sensor

COMPLETE POINT SOLUTIONSComplete Point Solutions provides fully engineered measurement solutions, combining best product and practices for improved performance, reliability, and cost of ownership.

The capability of the worlds finest industrial measurement instrumentation is further increased by combining it with a premier offering of complimentary products. This system is engineered and assembled by Rosemount Inc. to make it easy for you to specify and order the correct equipment for your process measurement needs.

We complement our field instruments with a wide range of technologies; including, manifolds, primary elements, process flanges and seals, and temperature sensors and accessories.

Complete Point Solutions is designed to provide you with Best-in-Class equipment allowing you to save on installation costs, and improve the reliability and capability of your process.

Take advantage of our vast experience in process measurement, and start improving your process with Complete Point Solutions.

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Diamond II+ Annubar

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nnubarDIAMOND II+ ANNUBAR PRIMARY FLOW ELEMENT - - - - - 379DRAMATICALLY REDUCE INSTALLATION ANDOPERATING COSTS - - - - - - - - - - - - - - - - - - - - - - - - - - - 379MOUNTING CONFIGURATIONS - - - - - - - - - - - - - - - - - - - - 379

Design Pr incip lesDIFFERENTIAL PRESSUREFLOW MEASUREMENT - - - - - - - - - - - - - - - - - - - - - - - - - 380HOW IT WORKS - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 380

Per formanceTHE DIAMOND II+ SENSOR- - - - - - - - - - - - - - - - - - - - - - 382

BenefitsENERGY SAVINGS - - - - - - - - - - - - - - - - - - - - - - - - - - - - 384OPERATING COST SAVINGS- - - - - - - - - - - - - - - - - - - - - - 384INSTALLATION COST SAVINGS - - - - - - - - - - - - - - - - - - - 384ELBOW-MOUNTED ANNUBARPRIMARY FLOW ELEMENT - - - - - - - - - - - - - - - - - - - - - - 385

FeaturesDESIGNED-IN ACCURACY - - - - - - - - - - - - - - - - - - - - - - - 386ENERGY COST SAVINGS - - - - - - - - - - - - - - - - - - - - - - - - 386INSTALLATION COST SAVINGS - - - - - - - - - - - - - - - - - - - 386CHOOSE THE MODELADAPTED FOR YOUR APPLICATION - - - - - - - - - - - - - - - - 386SPECIAL MODELS AND DESIGNS - - - - - - - - - - - - - - - - - - 387

Instal lat ionORIENTATION - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 388LOCATION - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 388

Siz ing and How To Order1. CHOOSE A MOUNTING METHOD- - - - - - - - - - - - - - - - - 3892. CHOOSE A SENSOR SIZE - - - - - - - - - - - - - - - - - - - - - - 3903. VERIFY MODEL AND SENSOR SIZE - - - - - - - - - - - - - - - 3914. CHOOSE THE MODEL OPTIONS- - - - - - - - - - - - - - - - - - 3935. VERIFY PROCESS AND PIPE INFORMATION - - - - - - - - - - 394

Ordering InformationModel DCRMODEL DCR+15S/16S - - - - - - - - - - - - - - - - - - - - - - - - 395MODEL DCR+25S/26S - - - - - - - - - - - - - - - - - - - - - - - - 397MODEL DCR+35S/36S - - - - - - - - - - - - - - - - - - - - - - - - 400MODEL DCR+45S/46S - - - - - - - - - - - - - - - - - - - - - - - - 403

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Ordering InformationModel DFFMODEL DFF+15S/16S - - - - - - - - - - - - - - - - - - - - - - - - -409MODEL DFF+25S/26S - - - - - - - - - - - - - - - - - - - - - - - - -411MODEL DFF+25H/26H - - - - - - - - - - - - - - - - - - - - - - - - 414MODEL DFF+25M/26M - - - - - - - - - - - - - - - - - - - - - - - - 417MODEL DFF+35S/36S - - - - - - - - - - - - - - - - - - - - - - - - -420MODEL DFF+45S/46S - - - - - - - - - - - - - - - - - - - - - - - - -423MODEL DFF+45H/46H - - - - - - - - - - - - - - - - - - - - - - - - 426MODEL DFF+45M/46M - - - - - - - - - - - - - - - - - - - - - - - - 428

Ordering InformationModel DPFMODELS DPF+15S/16S - - - - - - - - - - - - - - - - - - - - - - - - 434MODELS DPF+25S/26S - - - - - - - - - - - - - - - - - - - - - - - - 436MODELS DPF+35S/36S - - - - - - - - - - - - - - - - - - - - - - - - 438MODELS DPF+45S/46S - - - - - - - - - - - - - - - - - - - - - - - - 440

Ordering InformationModel DNTMODEL DNT+10S- - - - - - - - - - - - - - - - - - - - - - - - - - - - 446

Ordering InformationModel DNFMODEL DNF+10S - - - - - - - - - - - - - - - - - - - - - - - - - - - - 447MODEL DNF+10H - - - - - - - - - - - - - - - - - - - - - - - - - - -449MODEL DNF+10M - - - - - - - - - - - - - - - - - - - - - - - - - - -450

Ordering InformationModel DNWMODEL DNW+10S - - - - - - - - - - - - - - - - - - - - - - - - - - -451

Ordering InformationModel DMTMODEL DMT+15S - - - - - - - - - - - - - - - - - - - - - - - - - - -456MODEL DMT+25S - - - - - - - - - - - - - - - - - - - - - - - - - - -458MODEL DMT+35S - - - - - - - - - - - - - - - - - - - - - - - - - - -461

Ordering InformationModel DHTMODEL DHT+15S- - - - - - - - - - - - - - - - - - - - - - - - - - - - 469MODEL DHT+25S- - - - - - - - - - - - - - - - - - - - - - - - - - - - 471MODEL DHT+35S- - - - - - - - - - - - - - - - - - - - - - - - - - - - 474

Ordering InformationModel DHFMODEL DHF+15S - - - - - - - - - - - - - - - - - - - - - - - - - - - - 482MODEL DHF+25S - - - - - - - - - - - - - - - - - - - - - - - - - - - - 485MODEL DHF+25H - - - - - - - - - - - - - - - - - - - - - - - - - - -488MODEL DHF + 25M - - - - - - - - - - - - - - - - - - - - - - - - - - 491MODEL DHF+35S - - - - - - - - - - - - - - - - - - - - - - - - - - - - 494MODEL DHF+45S - - - - - - - - - - - - - - - - - - - - - - - - - - - - 497MODEL DHF+45H - - - - - - - - - - - - - - - - - - - - - - - - - - -500

D i a m o n d I I + A n n u b a rP r i m a r y F l o w E l e m e n tFlow-377

Specif icat ionsFUNCTIONAL SPECIFICATIONS - - - - - - - - - - - - - - - - - - - -509PERFORMANCE SPECIFICATIONS- - - - - - - - - - - - - - - - - - - 509PHYSICAL SPECIFICATIONS - - - - - - - - - - - - - - - - - - - - - - 510

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ANNUBARP r i m a r y F l o w

E l e m e n t

DIAMOND II+ANNUBARPRIMARY FLOWELEMENTThe Annubar primary flow element has proven to be accurate and reliable in hundreds of thousands of

DRAMATICALLY REDUCEINSTALLATION ANDOPERATING COSTSThe Annubar primary flow element is inherently easy and inexpensive to install.

MOUNTINGCONFIGURATIONS

Flo-Tap allows installation without system shutdown.

Pak-Lok mounts safely Flow-379

applications. The Diamond II+ Annubar primary flow element is designed to give the highest performance of any differential pressure device.

The flow element operates by sensing an impact pressure and a reference pressure through multiple sensing ports connected to dual averaging plenums. The resultant difference is a differential pressure signal.

Sensing ports are located on both the up and downstream sides of the flow element. The number of ports is proportional to the pipe diameter.

FIGURE 1. Shape Cross-Sections.

The small size of the hole required and the minimal welding keep installation costs low.

The primary flow element offers little restriction to flow which, in turn, minimizes pressure drop. The resulting energy and cost savings can positively impact your operating cost.

through a weld coupling and packing gland.

Flanged for high pressure applications.

Streamline for large pipes and high velocity.

p

Diamond II+Shape

Streamline Shape

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Diamond II+ Annubar

Diamond

II+AnnubarDesign Principles

DIFFERENTIAL PRESSUREFLOWMEASUREMENTFlow devices producing a differential pressure signalcalled DP deviceshave a reputation for accuracy, simplicity, and reliability. The traditional DP devicesorifice plate, venturi tube and flow nozzle, while meeting the above criteriaare expensive to install, limited in application, and most are not energy efficient.

The Diamond II+ sensor is a multiple-tube, rigid structure that provides dual averaging chambers with a diamond-shaped cross section (Figure 2) and bi-directional flow sensing..

FIGURE 2. Diamond II+ Sensor Design.

HOW ITWORKS

The Annubar primary flow element produces a DP signal proportional to the square of the flow rate in accordance with Bernoullis theorem. The DP signal has two components: the high pressure (PH) and the low pressure (PL) (Figure 3).

FIGURE 3. PH(avg.) PL(avg.) = DP (hw).

High Pressure AveragingThe PH is produced by impact or stagnation of the moving fluid on the sensor. The velocity profile results in a corresponding stagnation pressure profile. Multiple sensing ports, located on the front of the sensor, sense the impact pressure profile.

Inside the high pressure chamber, the average velocity pressure is maintained by the proportionality of the sensing port diameters to the chamber cross-sectional area.

Low Pressure AveragingAs the fluid continues around the sensor, it generates a vortex shedding pattern and creates a PL profile. The PL is used as a pressure reference so the velocity can be determined independent of pipe static pressure. The PL is sensed by ports, located downstream and opposite the high pressure ports. Working on the same principle as the PH side, an average PL is maintained in the low pressure chamber. This assures less dependence on the magnitude of flow or Reynolds Number.

PH PL = DP80

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rSensing Ports vs. Pipe SizeFlow laboratory tests have shown that larger pipes are more susceptible to dynamic distortions of the velocity profiles. These dynamic distortions can affect the stability and accuracy of the flow device.

The Diamond II+ design is engineered so that the number of sensing ports is a function of the pipe size (Figure 4).

The additional sensing ports provide a larger sample of the velocity profile, giving a better average of the velocity profile.

TABLE 1. Sensing Ports vs. Pipe Size.

FIGURE 4. Sensing Ports.

Diamond-Shaped Sensorsthe Key to AccuracyThe diamond shape establishes a fixed separation point of the fluid from the sensor (Figure 5). The fixed separation point reduces changes in the low, (or reference pressure), that would cause a corresponding loss of accuracy in flow measurement.

Round SensorsRound sensors have a variable separation point of the fluid from the sensor (Figure 5). The separation point varies with fluid type, velocity, surface roughness of the sensor, and turbulence. Sensing ports placed at angles greater than 30 from the front of a round sensor will generate a reference or low pressure signal that is unpredictablewith errors as high as 10%.

FIGURE 5. Fixed vs. Variable Separation Point.

Pipe Size Number of Ports Port Location

2 in. to 5 in. 4 Per ChebyshevCalculus foraveraging6 in. to 14 in. 6

16 in. to 72in.

8 or more

2 in. 5 in.24 in.

42 in.

72 in.

10 15/1625/26

35/3645/46

FixedSeparation Point

Variable Separation PointFlow-381

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Diamond II+ Annubar

Diamond

II+AnnubarSensor size: 10 Line size: 6 Sch 40 Bar # 100000pFluid: WaterPublished K: 0.6392 Date: 10/13/97

Performance

THE DIAMOND II+ SENSORIndependent flow laboratories have tested and proven the Diamond II+ Annubar primary flow elements accuracy. Calibration results for water flow at Alden (Alden Research Laboratory, Alden, Massachusetts), NEL (National Engineering Laboratory, Scotland), and gases at CEESI (Colorado Engineering Experimental Station Inc., Nunn, Colorado) show conclusively that the Diamond II+ design improves performance and rangeability compared to traditional DP devices.

Accuracy: 1% is maintained over a flow turndown of 30:1, depending on the application

Repeatability: 0.1%

The Diamond II+ SensorExtensive TestingHigh AccuracyAny DP device is only as accurate as its ability to repeat and maintain its flow coefficient (reproducing the same coefficient within a respectable tolerance for different fluids and piping systems). Dieterich Standard, Inc. has completed extensive independent flow laboratory tests in a wide range of pipe sizes and fluids. Typical test results on liquids and highly turbulent gas flows are shown below:

FIGURE 6. Dieterich Standard, Inc. Laboratory.

FIGURE 7. CEESI Laboratory.82

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rRound SensorsThe simplest design for an averaging pitot is a round cylinder. However, as the Reynolds number or flow rate increases, accuracy deteriorates because the separation point of the fluid varies as it passes around the cylinder. This causes a deviation between actual and predicted performance and occurs regardless of the number or location of the sensing ports. Additionally, the level of pipeline turbulence affects the separation point, which makes the deviation impossible to predict.

FIGURE 8. Round Sensors Test Data.

Annubar Primary Flow ElementLongTerm AccuracyAnnubar primary flow elements flow coefficient remains stable over the long term and is unaffected by wear and dirt or grease buildup.

Annubar Primary Flow Element vs. OrificeAny drift in the flow coefficient (K) results in reduced accuracy. A 10% shift in the K factor results in a 10% error in flow reading.

The orifice longterm accuracy is significantly affected by warping, wear, and dirt or grease buildup.

FIGURE 9. Comparison of Long Term Accuracy: AnnubarPrimary Flow Element vs. Orifice.

Round sensor test resultsvariable turbulence levels

6" sch. 40 straight pipe Butterfly valve20 dia.

Dirt11%

Damage or Nicks15%Misalignment3%

WeldingIcicles orSedimentBuildup

11%

Independent tests by Florida Gas Transmission Company.

Lubricant24% Warp9% Wear0.050-13%Flow-383

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Diamond

II+AnnubarBenefits

ENERGY SAVINGSThe non-constricting design of the Annubar diamond-shaped sensor produces the lowest permanent pressure loss of all primary flow sensors. The non-constricting design also results in significant power savings. An orifice plate typically consumes more than 100 times the energy of an Annubar primary flow element plate.

FIGURE 10. The Annubar Plate vs. the Orifice Plate.

OPERATINGCOST SAVINGSCompare the orifice and Annubar operating costs. Annubar primary flow element is 100 times more efficient and can offer energy savings of $700 per year per measurement point on liquids, and $30,000 per year savings on gases and steam.

FIGURE 11. Operating Cost Savings.

INSTALLATION COST SAVINGSCompared to any other primary flow element, Annubar primary flow element has the lowest installation cost.

Annubar vs. Orifice Installation CostsOn an 8 inch (203 mm) pipe, an Annubar primary flow element requires only 4 linear inches (101 mm) of welding. An orifice plate installed in the same pipe requires 50 linear inches (1270 mm) of welding (Figure 13). Annubar primary flow elements reduced welding requirement saves over ten installation man-hours.

FIGURE 12. Installation Cost Savings.

FIGURE 13. Welding Distances.

Annubar

Orifice

= 0.6 Actualp

ressu

reloss

(inchesof

w.c.)

ActualD.P.produ

ced

(inch

esofw

.c.)

4 Linear InchesWelding (8pipe)

50 Linear InchesWelding (8pipe)

Annubar primary flow element saves on installation costsup to 10man-hours less than orifice plate.84

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rELBOW-MOUNTED ANNUBARPRIMARY FLOWELEMENTAlthough a pipe elbow distorts fully developed flow, it also acts as a flow conditioner, which results in a predictable flow profile immediately downstream of the discharge of the elbow (Figure 14).

When an Annubar primary flow element is installed two pipe diameters downstream of the centerline of the elbow (Figure 15), it will average the velocity profile and provide repeatable, predictable results. The key to accuracy is the prediction of the discharge coefficient, or K-value, in this elbow position.

Dieterich Standard, Inc. has done testing and evaluation to predict this coefficient to within 3%.

FIGURE 14. Flow Profiles Downstream of an Elbow.

FIGURE 15. Annubar Elbow Installation.

Dieterich Standard, Inc. can also perform the flow calculation for you and provide a computer printout. To do so, specify EO (outside mount) or EI (inside mount), along with the model callout and flow conditions.

FIGURE 16. Annubar Installation Recommendations.

InstallationThe piping requirements for a 3% accuracy installation will vary based on the piping configuration ahead of the elbow.To be consistent with straight-run requirement charts, see the piping configurations in Figure 17. The upstream straight-run requirements (L1) and the downstream diameters (L2) are in terms of pipe inside diameters (D).

Requirements for Successful Installation The elbow must have a short radius and be

welded or flanged rather than threaded. Refer to piping configurations below to verify

minimum diameters available. Mount the Diamond II+ two pipe inside

diameters from the center of upstream pipe, and in-plane with the elbow (see Figure 16). Either inside or outside radius mounting will work, but the outside radius is preferred, as this allows the higher velocity vectors to be at the support point.

FIGURE 17. ElbowMount Annubar PrimaryFlow Element Piping Configurations.

Diamond II+ Annubar primary flow element DCR shown

Non-Swirl Producing Swirl ProducingPipingConfigurations

Min. Req.Values

PipingConfigurations Min. Req. Values

L1 L2 L1 L1 L2

3 2

WithoutConditioner: 4

WithConditioner: N/A

2

4 2

WithoutConditioner: 10

WithConditioner: 5

2

5 2

Valve UseWithoutConditionerFull Open: 3Control: 14

With ConditionerFull Open: 3Control: 10

2

Valve Use Valve Use

Full Open:3

Control:10

2

WithoutConditionerFull Open: 5Control: 16

With ConditionerFull Open: 5Control: 12

2

Valve Use

Full Open:5

Control:12

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Diamond

II+AnnubarFeatures

DESIGNED-IN ACCURACYThe Diamond Shape is Key

The diamond shape establishes a fixed separation point of the fluid from the sensor (Figure 18). The fixed separation point reduces changes in the low, or reference pressure that would cause a corresponding loss of accuracy in flow measurement. Round sensors have a variable separation point causing an unpredictable reference pressure, and can result in flow measurement errors as high as 10%. See Design Principles on page 380.

FIGURE 18. Fixed vs. Variable Separation Point.

LongTerm AccuracyDieterich Standard, Inc. has completed extensive independent flow laboratory tests in a wide range of pipe sizes and fluids that consistently demonstrates Annubar primary flow elements superior ability to repeat and maintain its flow coefficient. A DP device is only as accurate as its ability to do just that. See Performance on page 382.

Alden Research Laboratory

NEL, National Engineering Laboratory

CEESI, Colorado Engineering Experimental Station, Inc.

ENERGYCOST SAVINGSThe non-constricting design of Annubar primary flow elements diamond-shaped sensor produces the lowest permanent pressure loss of all primary flow sensors. The low permanent pressure loss results in significant power savings. See Annubar vs. Orifice Installation Costs on page 384.

FIGURE 19. Low Permanent Pressure Loss.

INSTALLATION COST SAVINGSCompared to any other primary flow element, Annubar primary flow element has the lowest installation cost. Savings range from 25% on smaller pipes to 70% on larger pipes. See Operating Cost Savings on page 384.

CHOOSE THE MODELADAPTED FOR YOUR APPLICATION

FIGURE 20. Three Model Options.

No System ShutdownAnnubar primary flow element is perfectly suited to retrofit applications because the FloTap models can be hottapped without interruption of the flowthat is, without system shutdown. Three FloTap models are available to meet your pressure requirements. See the Specification pages at the end of this section.

FIGURE 21. Flo-Tap: No System Shutdown.

Special MaterialsAnnubar primary flow elements are manufactured from stainless steel or other special materials to meet difficult applications for any industry. Special materials include Kynar (PVDF), Monel, HastelloyC, Incoloy 800 H, and HR 160.

Variable Separation Point

Fixed Separation Point

Round Sensor

Diamond II+ AnnubarPrimary Flow Element

Model Model ModelDHFDHTDMT

150# ANSIEquivalentThreadedAssy

600# ANSI EquivalentThreaded Assy

600# ANSIEquivalentFlangedAssy

Drill ThroughValve

Install

Inserted86

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rOptional Worm Gear DriveAn optional worm gear drive (Figure 22) saves time because of a Single Point Drive system. The Single Point Drive system enables an Annubar primary flow element to be inserted in a 30 inch (762 mm) pipe in only five minutes. The gear can be powered in one of the following three ways:

Hand crank

Heavy duty electric drill

Remote activated drive

FIGURE 22. Worm Gear Drive.

SPECIAL MODELS AND DESIGNSA special Annubar sensor, MSL, handles high velocity, high temperature, and high pressure flows (up to 1015 F/546 C @ 2600 psig/17926 kPa). These conditions are typical in a Main Steam Line from a major power plant.

Annubar primary flow element systems have been designed for Continuous Emission Rate Monitoring (CERM) applications on large diameter stacks. These systems meet U.S. EPA 40CFR75 requirements such as purging and automatic daily calibration checks. DSF models are available for complete spanning of the diameter of the stack. For stacks exceeding 20 foot (6 meter) diameters, array models extending part way into the stack are available.

Pak-Lok Mounting HardwareSafety is the key to the Dieterich Standard, Inc. patented PakLok mounting (Figure 23). PakLok mounting seals and retains the sensor firmly against the inside opposite wall simply and without high torque requirements. Unlike a ferrule-mounted sensor, a Pak-Lok-mounted Annubar primary flow element can be installed and removed easily.

FIGURE 23. Pak-Lok Mounting.

Elbow-Mounted AnnubarPrimary Flow ElementInsufficient straight run is common in today's piping, but Annubar primary flow element averages the flow profile so it can provide accurate, repeatable flow measurement when installed two diameters downstream of a 90 elbow.

BiDirectional FlowsThe symmetrical design, along with the controlled separation point provided by the exclusive diamond-shaped sensor, means that a single Annubar primary flow element is all that is required for bi-directional flow measurement.

Integral Manifold HeadThe integral manifold head provides a three valve manifold built-in to the Annubar sensor (Figure 24). Mount a DP transmitter to the Annubar sensor and simplify installation.

FIGURE 24. Integral Manifold Head.Integral Valve HeadThe integral valve head features a compact design that requires fewer tubing connections (Figure 25). This means a more reliable, leak-free installation. Maintenance is also easier because seats can be replaced without disassembling tubing. Integral valve heads are not recommended on FloTaps above 400 F (204 C) or for steam applications.

FIGURE 25. Integral Valve Head.

Integral Temperature SensorSelected Annubar primary flow element models are available with a built-in temperature sensor (Figure 26). This feature eliminates an additional pipe connection and thermowell.

FIGURE 26. Integral Temperature Sensor.

PakLok Nut

Packing Follower

Packing RingsWeldedLock Ring

Welded Fitting

ORing Groove

in.14 NPTFlow-387

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Diamond II+ Annubar

Diamond

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ORIENTATIONNote: Other orientations are possible with additional considerations.

Horizontal Pipes

FIGURE 27. Liquids and Steam.

FIGURE 28. Gases.

Vertical Pipes

FIGURE 29. Liquids and Gases.

FIGURE 30. Steam.

LOCATIONRecommended Approachand Depart ValuesSelecting correct mounting locations for the Annubar primary flow element in the pipeline is important because disturbance in flow produced by pipe layout may affect the accuracy of measurement.

Straight Run RequirementsUse of recommended straight pipe lengths of uniform diameter upstream and downstream ensures that flow measurement will be made in flow with fully developed characteristics.

The following chart describes the minimum number of pipe diameters upstream and downstream of the Annubar. Longer lengths are always preferred (if available) for accurate flow measurement.

Note: Straight runs listed below are for water. Multiply times 1.5 for gases.

FIGURE 31. Installation Hole Sizes.

50 50

80 (Recommended zone)

30 30

120(Recommended

zone)

Flow

360

Upstream Dimensions

MinimumDiameters ofStraight Pipe

Without Vanes With Vanes DownstreamDimension

B

InPlane

A

Outof

Plane A

A C C

8 1048 4 4

11 1648 4 4

23 2848 4 4

12 1248 4 4

18 1848 4 4

30 3048 4 4

Installationhole sizes 15 16 25 26 35 36 45 488

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1. CHOOSE A MOUNTING METHODLine sizes 2 inches and largerDCR

FIGURE 32. Regular ThreadedPakLok Assembly.

Mounting Method: Threaded PakLok.Pipe Sizes: 2 in. to 72 in. (50 mm to 1800 mm).

DFF

FIGURE 33. Flanged.Mounting Method: Flanged.Pipe Sizes: 2 in. to 72 in. (50 mm to 1800 mm).

DPF

FIGURE 34. Flanged PakLok.Mounting Method: Flanged PakLok.Pipe Sizes: 2 in. to 72 in. (50 mm to 1800 mm).

Line sizes in. to 2 in.DNT

FIGURE 35. Threaded InLine.Mounting Method: Male threaded.Pipe Sizes: 0.5 in. to 2 in. (25 mm to 50 mm).

DNF

FIGURE 36. Flanged InLine.Mounting Method: Flanged and gasket.Pipe Sizes: 0.5 in. to 2 in. (25 mm to 50 mm).

DNW

FIGURE 37. Welded InLine.Mounting Method: Welded in-line.Welded Pipe Sizes: 0.5 in. to 2 in. (25 mm to 50 mm).

Flo-Tap Model 8DMT

FIGURE 38. Medium PressureThreaded FloTap.

Mounting Method: Threaded FloTap for pressure equivalent to ANSI Class 150 Flanges.Pipe Sizes: 2 in. to 72 in. (50 mm to 1800 mm).

DHT

FIGURE 39. High PressureThreaded FloTap.

Mounting Method: Threaded FloTap for pressure equivalent to ANSI Class 600 Flanges.Pipe Sizes: 2 in. to 72 in. (50 mm to 1800 mm).

DHF

FIGURE 40. High PressureFlanged FloTap.

Mounting Method: Flanged FloTap for pressure equivalent to ANSI Class 600 Flanges.Pipe Sizes: 2 in. to 72 in. (50 mm to 1800 mm).Flow-389

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nnubar2. CHOOSE A SENSOR SIZEThere are four Annubar primary flow element sensor sizes to choose from. The following table is a guideline to help select the correct the sensor.

TABLE 2. Sensor Size.

Using the smallest applicable sensor for a given line size is recommended. Use larger sensors where structural integrity requires it. A complete calculation, including structural analysis, is completed for every application using the Instrument Toolkit and/or Merlin software packages. Sensor 25/26 is preferred to sensor 15/16 in the 4-inch and 5-inch lines because the recommended product including integral transmitter mounting and integral RTD are unavailable in sensor 15/16.

Calculate Approximate Differential Pressure (hw)Use fluid parameters at maximum flow rate. To calculate the differential pressure, use the equations below, the Dieterich Standard, Inc. Annubar primary flow element sizing program, or the Annubar Primary Flow Element Handbook.

Sensor Size Line Sizes

15/16 2 in. to 5 in.

25/26 4 in. to 42 in.

35/36 8 in. to 72 in.

45/46 10 in. to 72 in.

Equations to Calculate Differential Pressure

Liquid, gas & steam (mass rate of flow)

Liquid (volume rate of flow)

Gas (standard volumetric flow)

Gas (actual volume rate of flow)

hw1f-----

lbm hr

358.94KD2-------------------------------

2=

= differential pressure, inches of water @ 68 FK = flow coefficientD= internal pipe diameter, inches

lbm / hr = pounds mass per hour

GPM = U.S. gallons per minuteACFH = Actual cubic feet per hourSCFH = Standard cubic feet per hour (@ 14.73 psia and 60 F)f= flowing density, lbm / ft3 for gas:

.076487 lbm / ft3= Air density at 14.73 psia and 60 F.Gf = Specific gravity of liquidG = Specific gravity of gas (molecular weight of air = 28.9644)Tf = Temperature of flowing gas in degrees Rankin (R = F + 460)f = Flowing pressure, psia

K = 0.6 for approximate sizing

Pf14.73---------- 520

Tf------- 0.076487G

hw Gf( )GPM( )

5.666KD2( )--------------------------------

2=

hwTfG

Pf---------- SCFH

7 711KD2,-----------------------------

2=

hw f( )ACFH

358.94KD2-------------------------------

2=90

Rosemount Inc.

Diam

ondII+An

nuba

r3. VERIFY MODEL AND SENSOR SIZECompare maximum allowable flow to your maximum flow rates.

HW= maximum differential pressure in inches of water column Structural limits apply to 200 F and below.SCFM = maximum air flow in standard cubic feet per minute For applications requiring higher values, consult factoryGPM = maximum water flow in gallons per minute 1.2 in. to 24 in. Sch 40At standard conditions: air: 60 F at 14.73 psia 30 in. to 42 in. Sch Std.

water: 60 F, specific gravity 1.0, viscosity 1.12 centipoise 48 in. to 72 in. Actual Id During insertion and retraction of FloTap sensors, flow rate must be reduced to give lower DP values equal to the DP limits of DFF models of the same sensor size.

Nom.Pipe

Size (ininches)

Sensor 10

DNT DNF DNW

SCFM HW GPM SCFM HW GPM SCFM HW GPM

.5 180.52 1500 50.943 180.52 1500 50.943 180.52 1500 50.943

.75 307.79 1500 89.404 307.79 1500 89.404 307.79 1500 89.404

1 498.82 1500 144.9 498.82 1500 144.9 498.82 1500 144.9

1.25 765.68 1180 222.41 765.68 1180 222.41 765.68 1180 222.41

1.5 902.04 884 262.02 902.04 884 262.02 902.04 884 262.02

2 1174.9 552 341.28 1174.9 552 341.28 1174.9 552 341.28

Sensor 15 Sensor 16

DCR DFF DHF DPF DMT/DHT DCR DFFSCFM HW GPM SCFM HW GPM SCFM HW GPM SCFM HW GPM SCFM HW GPM SCFM HW GPM SCFM HW GPM

2 1236.1 611 359.05 502.91 84.3 133.37 1555 967 451.7 1132.3 494 322.85 1324.9 702 384.87 1236.1 611 359.05 1322 699 384.04

2.5 1531.9 451 440.14 639.74 66.9 169.52 1886.4 699 547.95 1396 360 393.23 1623.9 518 471.7 1531.9 451 440.14 1641 529 476.68

3 2010.5 314 567.07 859.71 50.5 227.41 2408.7 478 699.65 1810.1 246 501.92 2127.9 360 607.18 2010.5 314 567.07 2175.3 380 623.82

3.5 2408.7 246 671.26 1046.1 41.7 276.37 2852.6 369 822.13 2158.9 192 593.03 2554 282 718.7 2408.7 246 671.26 2639.5 305 747.44

4 2816 199 777.38 1237.1 35.1 326.46 3331.3 294 944.89 2516 155 686.08 2989.7 228 832.1 2816 199 777.38 3126.9 253 876.53

5 3723.8 137 1013.6 1663.7 25.6 438.17 4364.9 195 1209.3 3306.2 106 891.62 3950.9 156 1081.7 3723.8 137 1013.6 4213.3 180 1161.9

Sensor 25 Sensor 26


4 6263.45 1090 1819.4 2827.2 189 757.59 7347.5 1500 2134.3 5621.4 878 1632.9 6892.6 1320 2002.1 6263.45 1090 1819.4 7047.5 1380 2047.1

5 8148.5 747 2366.9 3798.1 138 1017.3 10066 1140 2924 7290.6 598 2117.8 8929.2 897 2593.7 8148.5 747 2366.9 9366.4 987 2720.7

6 10088 549 2930.2 4839.5 107 1293.6 12299 816 3572.4 9117 439 2620.3 11019 655 3200.7 10088 549 2930.2 11783 749 3422.6

8 14100 346 4028.2 6867.4 71.2 1827.3 16486 489 4788.8 12849 277 3604.2 15029 406 4363.5 14100 346 4029.2 16570 494 4813.2

10 18737 235 5232.7 9125.3 50.2 2418.5 21270 318 6087.1 17067 190 4750.1 19910 271 5619.2 18737 235 5232.7 22053 348 6367.7

12 23218 174 6391.4 11299 38 2986.8 26142 228 7316.3 21180 142 5773.9 24588 198 6815 23218 174 6391.4 27773 263 7857.8

14 25971 147 7099.9 12665 32.6 3343.5 29131 190 8071.7 23752 121 6441.4 27511 167 7567.4 25971 147 7099.9 31411 226 8803.3

16 30390 116 8238.9 14829 26.1 3908.1 33874 147 9274.7 27865 96.3 7506.8 32028 130 8721.9 30390 116 8238.9 37265 182 10320

18 34880 94.2 9397.7 17017 21.4 4479.2 38584 117 10473 32060 78.8 8595.3 36692 105 9921.8 34880 94.2 9397.7 43086 149 11819

20 39558 77.7 10608 19311 17.8 5077.3 43384 94.5 11699 36469 65.5 9139.6 41459 85.8 11147 39558 77.7 10608 49210 124 13401

24 48768 55.7 12990 23901 13 6275.5 52897 66 14140 45250 47.7 12021 50822 60.7 13560 48768 55.7 12990 61463 90.6 16567

30 65577 35.6 17355 32211 8.43 8445.5 70325 41.1 18648 61287 31 16195 67950 38.3 18002 65577 35.6 17355 83933 59.3 22399

36 80406 25.2 21207 39598 6.03 1037.4 85555 28.6 22592 75714 22.3 19949 83023 26.9 21911 80406 25.2 21207 103900 42.6 27573

42 95305 18.8 25083 47023 4.53 12313 100650 21 26510 90424 16.9 23782 98014 19.9 25807 95305 18.8 25083 123750 32 32725Flow-391

Diamond II+ Annubar

Flow-3

DiamondII+A

nnubarHW = hw = maximum differential pressure in inches of water column Structural limits apply to 200 F and below.SCFM = maximum air flow in standard cubic feet per minute For applications requiring higher values, consult factoryGPM = maximum water flow in gallons per minute 1.2 in. to 24 in. Sch 40At standard conditions: air: 60 F at 14.73 psia 30 in. to 42 in. Sch Std.

water: 60 F, specific gravity 1.0, viscosity 1.12 centipoise 48 in. to 72 in. Actual Id During insertion and retraction of FloTap sensors, flow rate must be reduced to give lower DP values equal to the DP limits of DFF models of the same sensor size.

Nom.Pipe

Size (ininches)

Sensor 35 Sensor 36


8 20661 768 6001.4 9950.2 153 2678.7 24501 1080 7116.8 18338 605 5326.6 22166 884 6438.7 20661 768 6001.4 24387 1070 7083.8

10 26823 521 7791.3 13239 108 3547.4 31224 706 9069.8 24088 414 6945.3 28592 592 8305.3 26823 521 7791.3 32204 751 9351.3

12 32883 385 9507.2 16469 82.3 4395.6 37485 505 10088 30074 309 8519.3 34710 433 10082 32833 385 9507.2 39824 570 11568

14 37058 327 10589 18488 70.7 4923.8 41364 421 12015 33895 264 9514.6 38729 365 11188 37058 327 10589 44625 490 12962

16 43668 258 12287 21690 56.7 5760.1 48040 325 13791 39957 210 11085 45595 286 12937 43668 258 12287 52273 394 15184

18 50338 209 13998 24947 46.6 6609.8 55095 258 15553 46180 172 12699 52469 230 14685 50338 209 13998 60481 324 17429

20 57299 172 15783 28344 38.8 7496.1 62559 210 17439 52719 143 14391 59608 188 16501 57299 172 15783 69596 270 19774

24 71017 123 19303 36548 28.3 9259.1 76801 146 21031 65702 104 17750 73609 133 20072 71017 123 19303 87930 198 24491

30 96282 78.9 25837 47441 18.4 12477 103040 91.1 27763 89649 67.9 23969 999349 84.3 26707 96282 78.9 25837 121480 130 33165

36 118650 56 31613 58452 13.2 15348 125830 63.3 33611 11250 49 29572 121960 59.3 32531 118650 56 31613 151120 93.2 40783

42 1411020 41.8 37402 69564 9.95 18248 148640 46.6 39491 133070 37.1 35237 144570 44 35374 141020 41.8 37402 181070 70.3 48505

48 163400 32.4 43205 80662 7.76 21144 171330 35.7 45353 155040 29.1 40946 167050 33.9 44194 163400 32.4 43205 211020 54.9 56240

60 208140 21.1 54825 102920 5.1 26954 216230 22.8 56991 199180 19.3 52434 211980 21.9 55855 208140 21.1 54825 270800 36.1 71712

72 253470 14.9 66623 125280 3.61 32793 261750 15.9 68822 243170 13.7 63883 256820 15.3 67511 253470 14.9 66623 330970 25.6 87327

Sensor 45 Sensor 46


10 41878 1270 12165 20133 256 5461.5 45513 1500 13220 37086 996 10713 N/A N/A N/A 41878 1270 12165 45513 1500 13220

12 51142 940 14855 24994 195 6766.1 59210 1260 17199 45499 744 13216 N/A N/A N/A 51142 940 14855 61288 1350 17803

14 56913 797 16532 28092 168 7590.1 65325 1050 18975 50681 635 14756 N/A N/A N/A 56913 797 16532 68661 1160 19944

16 66100 630 19200 33012 135 8888.1 74858 808 21744 59297 507 17224 N/A N/A N/A 66100 630 19200 80698 939 23441

18 75353 511 21888 38019 111 10201 84461 642 24534 68260 416 19749 N/A N/A N/A 75353 511 21888 92738 774 26938

20 85108 422 24722 43418 93.2 11618 94565 521 27469 78331 346 22385 N/A N/A N/A 85108 422 24722 105460 648 30634

24 106480 303 30297 53975 68.2 14374 114620 364 33207 98553 252 27630 N/A N/A N/A 106480 303 30291 130590 475 37933

30 146170 194 40515 73415 44.7 19448 156190 226 43729 136026 165 37364 N/A N/A N/A 146170 194 40515 178800 313 51462

36 181760 138 49627 90648 32.1 23938 192700 157 52933 169830 119 46084 N/A N/A N/A 181760 138 49627 226020 226 63508

42 217210 103 58712 108240 24.3 28517 229510 116 62307 204130 90.2 54943 N/A N/A N/A 217210 103 58712 273660 171 75649

48 251110 78.8 67379 125770 19 33086 265390 88.6 71446 238660 70.8 63867 N/A N/A N/A 251110 78.8 67379 321370 134 87865

60 321930 51.5 85653 160730 12.5 42190 337470 56.8 89952 308340 4701 81912 N/A N/A N/A 321930 51.5 85653 416410 88.4 112220

72 392880 36.3 103990 195900 8.86 51374 408770 39.4 108340 378250 33.6 100050 N/A N/A N/A 392880 36.3 103990 511830 62.8 13678092

Rosemount Inc.

Diam

ondII+An

nuba

r4. CHOOSE THE MODEL OPTIONS

Model Numbers Description Page Numbers

Standard Models Line Sizes 2 Inches and LargerDCR+15/16S Diamond II+ Annubar Primary Flow ElementRegular (Pak-Lok, Threaded), SST page 395DCR+25/26S Diamond II+ Annubar Primary Flow ElementRegular (Pak-Lok, Threaded), SST page 397DCR+35/36S Diamond II+ Annubar Primary Flow ElementRegular (Pak-Lok, Threaded), SST page 400DCR+45/46S Diamond II+ Annubar Primary Flow ElementRegular (Pak-Lok, Threaded), SST page 403DFF+15/16S Diamond II+ Annubar Primary Flow ElementFlanged, SST page 409DFF+25/26S Diamond II+ Annubar Primary Flow ElementFlanged, SST page 411DFF+25/26H Diamond II+ Annubar Primary Flow ElementFlanged, HastelloyC page 414DFF+25/26M Diamond II+ Annubar Primary Flow ElementFlanged, Monel page 417DFF+35/36S Diamond II+ Annubar Primary Flow ElementFlanged, SST page 420DFF+45/46S Diamond II+ Annubar Primary Flow ElementFlanged, SST page 423DFF+45/46H Diamond II+ Annubar Primary Flow ElementFlanged, HastelloyC page 426DFF+45/46M Diamond II+ Annubar Primary Flow ElementFlanged, Monel page 428DPF+15/16S Diamond II+ Annubar Primary Flow ElementPak-Lok Flanged, SST page 434DPF+25/26S Diamond II+ Annubar Primary Flow ElementPak-Lok Flanged, SST page 436DPF+35/36S Diamond II+ Annubar Primary Flow ElementPak-Lok Flanged, SST page 438DPF+45/46S Diamond II+ Annubar Primary Flow ElementPak-Lok Flanged, SST page 440

Inline sizes: in. to 2 in.

DNT+10S Diamond II+ Annubar Primary Flow ElementIn-Line Threaded, SST page 446DNF+10S Diamond II+ Annubar Primary Flow ElementIn-Line Flanged, SST page 447DNF+10H Diamond II+ Annubar Primary Flow Elementn-Line Flanged, HastelloyC page 449DNF+10M Diamond II+ Annubar Primary Flow ElementIn-Line Flanged, Monel page 450DNW+10S Diamond II+ Annubar Primary Flow ElementIn-Line Butt Weld, SST page451

FloTap ModelsDMT+15S Diamond II+ Annubar Primary Flow ElementThreaded Flo-Tap, SST page 456DMT+25S Diamond II+ Annubar Primary Flow ElementThreaded Flo-Tap, SST page 458DMT+35S Diamond II+ Annubar Primary Flow ElementThreaded Flo-Tap, SST page 461DHT+15S Diamond II+ Annubar Primary Flow ElementThreaded Flo-Tap, SST page 469DHT+25S Diamond II+ Annubar Primary Flow ElementThreaded Flo-Tap, SST page 471DHT+35S Diamond II+ Annubar Primary Flow ElementThreaded Flo-Tap, SST page 474DHF+15S Diamond II+ Annubar Primary Flow ElementFlanged Flo-Tap, SST page 482DHF+25S Diamond II+ Annubar Primary Flow ElementFlanged Flo-Tap, SST page 485DHF+25H Diamond II+ Annubar Primary Flow ElementFlanged Flo-Tap, HastelloyC page 488DHF+25M Diamond II+ Annubar Primary Flow ElementFlanged Flo-Tap, Monel page 491DHF+35S Diamond II+ Annubar Primary Flow ElementFlanged Flo-Tap, SST page 494DHF+45S Diamond II+ Annubar Primary Flow ElementFlanged Flo-Tap, SST page 497DHF+45H Diamond II+ Annubar Primary Flow ElementFlanged Flo-Tap, HastelloyC page 500DHF+45M Diamond II+ Annubar Primary Flow ElementFlanged Flo-Tap, Monel page 503Flow-393

Flow-3

Diamond II+ Annubar

DiamondII+A

nnubar5. VERIFY PROCESS AND PIPE INFORMATION

Configuration InformationWhen ordering an Annubar primary flow element, it is important to include all of the flowing conditions and pipe information for your application. This will ensure that you receive the correct product for your application. Please see the Annubar primary flow element Configuration Data Sheet 0080601004760.

Dimension CodesCertain dimensions are critical to fabrication of the primary flow element assembly. The following codes can be specified in the model callout string and Dieterich Standard, Inc. will build the primary flow element assembly to suit. If no dimension is specified, cataloged components will default to standard dimensions.

ODH

ODH is the outside diameter of the pipe to the top of the Annubar primary flow element head (Figure 41). If this dimension is specified for a flanged, FloTap, or Regular model, the neck of the primary flow element just below standard dimension can be considered a minimum. This dimension does not apply to inline sensors or to model 45s.

FIGURE 41. ODH.ODF

ODF is the outside diameter of the pipe to the face of the mounting flange (Figure 42). This dimension applies only to DFF, DHF, DSF, NFF, SPF, SFF, and SSF models. If Dieterich Standard, Inc. is not supplying the mounting hardware, this dimension must be specified. If Dieterich Standard, Inc. is providing the mounting flange assembly, note the following:

The standard ODF is a minimum.

The extensions must be at least 2 inches longer than the minimum ODF.

FIGURE 42. ODF.

ODV

ODV is the outside diameter of the pipe to the top of the isolation valve (Figure 43). ODV applies to FloTap models only, and only when the customer supplies some or all of the mounting hardware.

FIGURE 43. ODV.

NL

NL is the nipple length for DNW, DNF, and DNT-10 in-line models (Figure 44). Additional length can be specified to fit specific piping configurations. The extra length will be applied upstream of the sensor unless otherwise specified.

FIGURE 44. NL.CMH

CMH is the customer mount height distance from the outside of the pipe to the top of the appropriately sized NPT threaded female mounting coupling (Figure 45). Supply these values for Regular and FloTap models that are being installed in a customers mounting or saddle.

FIGURE 45. CMH.

ODH

ODF

ODV

CMH94

Rosemount Inc.

Diam

ondII+An

nuba

rOrdering InformationModel DCRMODEL DCR+15S/16S

Model Product Description

DCR+15SDCR+16S

Diamond II + Annubar Primary Flow Element - Regular (Threaded, Pak-Lok)Diamond II + Annubar Primary Flow Element - Regular (Threaded, Pak-Lok) with Opposite Side Support, SST

Code Line Size

020025030035040050

2 in. (50 mm)21/2 in. (63.5 mm)3 in. (80 mm)31/2 in. (89 mm)4 in. (100 mm)5 in. (125 mm)

Code Head Style

HA2S0HA2SSHP2S0HP2SS

Remote Mount - Horizontal LineAxial, Horizontal Line, 1/214 NPT, SSTAxial, Horizontal Line, 1/2 in. Socket Weld Ports, SSTParallel, Horizontal Line, 1/214 NPT, SSTParallel, Horizontal Line, 1/2 in. Socket Weld Ports, SST

HPVS0HPVSSHV2S0HV2SS

Remote Mount - Vertical LineParallel, Vertical Line, 1/2 in. Socket Weld Ports, SSTParallel, Vertical Line, 1/214 NPT, SSTAxial, Vertical Line, 1/214 NPT, SSTAxial, Vertical Line, 1/2 in. Socket Weld Ports, SST

Code Instrument Connections

C0000S0000

Eliminate Instrument Connection Options (For use with Direct and Integral Mount Head Styles)Eliminate Instrument Connection AssemblyEliminate Instrument Connection Assembly (Steam)

CA2C0SA2C0CP2C0SP2C0

Needle Valves - CSNeedle Valve, Elbow, 1/214 NPT, CSNeedle Valve, Elbow and Tee, 1/214 NPT, CSNeedle Valve, Nipple, 1/214 NPT, CSNeedle Valve, Steam, 1/214 NPT, CS

CP2S0SA2S0CP2SSSP2S0SP2SSCA2S0CA2SS

Needle Valves - SSTNeedle Valve, Nipple, 1/214 NPT, SSTNeedle Valve, Elbow and Tee, 1/214 NPT, SSTNeedle Valve, Nipple, 1/2 in. Socket Weld Ports, SSTNeedle Valve, Nipple and Tee, 1/214 NPT, SSTNeedle Valve, Nipple and Tee, 1/2 in. Socket Weld Ports, SSTNeedle Valve, Elbow, 1/214 NPT, SSTNeedle Valve, Elbow, 1/2 in. Socket Weld Ports, SST

CB2C0SB2C0CC2C0SC2C0SV2C0

Gate Valves - CSOutside Stem and Yoke Gate Valve, Elbow, 1/214 NPT, CSOutside Stem and Yoke Gate Valve, Elbow and Tee, 1/214 NPT, CSOutside Stem and Yoke Gate Valve, Nipple, 1/214 NPT, CSOutside Stem and Yoke Gate Valve, Nipple and Tee, 1/214 NPT, CSOutside Stem and Yoke Gate Valve, Vertical Line, Nipple and Tee, 1/214 NPT, CS

CB2S0CB2SSCC2S0CC2SSSB2S0SC2S0

Gate Valves - SSTOutside Stem and Yoke Gate Valve, Elbow, 1/214 NPT, SSTOutside Stem and Yoke Gate Valve, Elbow, 1/2 in. Socket Weld Ports, SSTOutside Stem and Yoke Gate Valve, Nipple, 1/214 NPT, SSTOutside Stem and Yoke Gate Valve, Nipple, 1/2 in. Socket Weld Ports, SSTOutside Stem and Yoke Gate Valve, Elbow and Tee, 1/214 NPT, SSTOutside Stem and Yoke Gate Valve, Nipple and Tee, Steam, 1/214 NPT, SST

SV2S0SV2SS

Gate Valves - SSTOutside Stem and Yoke Gate Valve, Vertical Line, Nipple and Tee, 1/214 NPT, SSTOutside Stem and Yoke Gate Valve, Vertical Line, Nipple and Tee,1/2 in. Socket Weld Ports, SST

Code Mounting Hardware

MP2C0MP2S0MR2C0MR2S0

Pak-Lok, with Contoured Weld Fitting, 1/214 NPT, CSPak-Lok, with Contoured Weld Fitting, 1/214 NPT, SSTPak-Lok, No Contoured Weld Fitting, 1/214 NPT, CSPak-Lok, No Contoured Weld Fitting, 1/214 NPT, SSTFlow-395

Flow-3

Diamond II+ Annubar

DiamondII+A

nnubarCode Opposite Side Support (Required for Model 16S only)MS2C0MS2CWMS2S0MS2SW

Contoured Weld Fitting and Plug, 111.5 NPT, CSContoured Weld Fitting and Plug, 1 in. Socket Weld Ports, CSContoured Weld Fitting and Plug, 111.5 NPT, SSTContoured Weld Fitting and Plug, 1 in. Socket Weld Ports, SST

Code Optional AuxiliaryMounting (Mountingalternatives forusewhenContouredWeldFitting isNotSpecified inMountingHardware)MT2CMT2SME2CME2AME2KME2PME2SNB20NC20ND20NE20NF20

Contoured Weld Fitting, 1/214 NPT, CSContoured Weld Fitting, 1/214 NPT, SSTWeld Coupling, 1/214 NPT, CSWeld Coupling, 1/214 NPT, AluminumWeld Coupling, 1/214 NPT, CopperWeld Coupling, 1/214 NPT, PVCWeld Coupling, 1/214 NPT, SSTSaddle, Double Strap, 2.35 to 2.56 O.D., 1/214 NPT, IronSaddle, Double Strap, 2.41 to 2.91 O.D., 1/214 NPT, IronSaddle, Double Strap, 2.97 to 3.54 O.D., 1/214 NPT, IronSaddle, Double Strap, 4.14 to 4.80 O.D., 1/214 NPT, IronSaddle, Double Strap, 5.94 to 6.70 O.D., 1/214 NPT, Iron

Code Optional Temperature Sensors (For use with Remote Mount Head Styles)TRRTXR

Remote Thermowell and RTDRemote Thermowell and RTD, FM Explosion-Proof

Code Optional Special Assembly

S4 Factory Assembly of Rosemount DP Transmitter to DP Primary Element

Code Optional Calibration

MZ

Lab Flow Calibration (Average K) (

Rosemount Inc.

Diam

ondII+An

nuba

rMODEL DCR+25S/26SModel Product Description

DCR+25SDCR+26S


Code Line Size

040050060080100120140160180200240300360420

4 in. (100 mm)5 in. (125 mm)6 in. (150mm)8 in. (200 mm)10 in. (250 mm)12 in. (300 mm)14 in. (350 mm)16 in. (400 mm)18 in. (450 mm)20 in. (500 mm)24 in. (600 mm)30 in. (750 mm)36 in. (900 mm)42 in. (1066 mm)

Code Head Style

HADS0HADSBHADSNHAPS0HAMS0

Direct and Integral Mount Heads - Horizontal LineDirect Mount, with 5-Valve Manifold, Horizontal Line, SSTDirect Mount, with 5-Valve Manifold, B31.1, Horizontal Line, SSTDirect Mount, with 5-Valve Manifold, NACE, Horizontal Line, SSTDirect Mount, No Manifold, Horizontal Line, SSTIntegral, with 3-Valve Manifold, Horizontal Line, SST

HATSNHATSBHATSDHATS0

Direct and Integral Mount Heads - Horizontal Line with RTDDirect Mount, with 5-Valve Manifold, RTD, NACE, Horizontal Line, SSTDirect Mount, with 5-Valve Manifold, RTD, B31.1, Horizontal Line, SSTDirect Mount, with 5-Valve Manifold, RTD, Horizontal Line, SSTIntegral, with 3-Valve Manifold, RTD, Horizontal Line, SST

HVDS0HVDSBHVDSNHVPS0HVMS0

Direct and Integral Mount Heads - Vertical LineDirect Mount, with 5-Valve Manifold, Vertical Line, SSTDirect Mount, with 5-Valve Manifold, B31.1, Vertical Line, SSTDirect Mount, with 5-Valve Manifold, NACE, Vertical Line, SSTDirect Mount, No Manifold, Vertical Line, SSTIntegral, with 3-Valve Manifold, Vertical Line, SST

HVTSBHVTSDHVTSNHVTS0

Direct and Integral Mount Heads - Vertical Line with RTDDirect Mount, with 5-Valve Manifold, RTD, B31.1, Vertical Line, SSTDirect Mount, with 5-Valve Manifold, RTD, Vertical Line, SSTDirect Mount, with 5-Valve Manifold, RTD, NACE, Vertical Line, SSTIntegral, with 3-Valve Manifold, RTD, Vertical Line, SST






C0000S0000



Needle Valves - CSNeedle Valve, Elbow, 1/214 NPT, CSNeedle Valve, Elbow and Tee, 1/214 NPT, CSNeedle Valve, Nipple, 1/214 NPT, CSNeedle Valve, Nipple and Tee, 1/214 NPT, CSFlow-397

Flow-3

Diamond II+ Annubar

DiamondII+A

nnubarCode Instrument Connections (Continued)


Needle Valves - SSTNeedle Valve, Nipple, 1/214 NPT, SSTNeedle Valve, Elbow and Tee, 1/214 NPT, SSTNeedle valve, Nipple, 1/2 in. Socket Weld Ports, SSTNeedle Valve, Nipple and Tee, 1/214 NPT, SSTNeedle Valve, Nipple and Tee, 1/2 in. Socket Weld Ports, SSTNeedle Valve, Elbow, 1/214 NPT, SSTNeedle Valve, Elbow, 1/2 in. Socket Weld Ports, SST



CB2S0CB2SSCC2S0CC2SSSB2S0SC2S0SV2S0SV2SS

Gate Valves - SSTOutside Stem and Yoke Gate Valve, Elbow, 1/214 NPT, SSTOutside Stem and Yoke Gate Valve, Elbow, 1/2 in. Socket Weld Ports, SSTOutside Stem and Yoke Gate Valve, Nipple, 1/214 NPT, SSTOutside Stem and Yoke Gate Valve, Nipple, 1/2 in. Socket Weld Ports, SSTOutside Stem and Yoke Gate Valve, Elbow and Tee, 1/214 NPT, SSTOutside Stem and Yoke Gate Valve, Nipple and Tee, Steam, 1/214 NPT, SSTOutside Stem and Yoke Gate Valve, Vertical Line, Nipple and Tee, 1/214 NPT, SSTOutside Stem and Yoke Gate Valve, Vertical Line, Nipple and Tee, 1/2 in. Socket Weld Ports, SST


MR4C0MR4S0MP4C0MP4S0

Pak-Lok, No Contoured Weld Fitting, 111.5 NPT, CSPak-Lok, No Contoured Weld Fitting, 111.5 NPT, SSTPak-Lok, with Contoured Weld Fitting, 111.5 NPT, CSPak-Lok, with Contoured Weld Fitting, 111.5 NPT, SST

Code Opposite Side Support (Required for Model 26S only)MS4C0MS4CWMS4S0MS4SW


Code OptionalAuxiliaryMounting (Mounting alternatives forusewhenContouredWeld Fitting isNot Specified inMountingHardware)MT4CMT4SME4CME4AME4KME4PME4SNE40NF40NG40NH40NJ40

Contoured Weld Fitting, 111.5 NPT, CSContoured Weld Fitting, 111.5 NPT, SSTWeld Coupling, 111.5 NPT, CSWeld Coupling, 111.5 NPT, AluminumWeld Coupling, 111.5 NPT, CopperWeld Coupling, 111.5 NPT, PVCWeld Coupling, 111.5 NPT, SSTSaddle, Double Strap, 3.74 to 4.55 O.D., 111.5 NPT, IronSaddle, Double Strap, 5.94 to 6.7 O.D., 111.5 NPT, IronSaddle, Double Strap, 8.54 to 10.1 O.D., 111.5 NPT, IronSaddle, Double Strap,10.64 to 12.12 O.D., 111.5 NPT, IronSaddle, Double Strap, 12.6 to 14.3 O.D., 111.5 NPT, Iron

Code Optional Temperature Sensors (For use with Remote Mount Head Styles)TRATRPTXATXPTRRTXR

Integral RTD, Axial HeadIntegral RTD, Parallel HeadIntegral RTD, FM Explosion-Proof, AxialIntegral RTD, FM Explosion-Proof, ParallelRemote Thermowell and RTDRemote Thermowell and RTD, FM Explosion-Proof



MODEL DCR+25S/26S98

Rosemount Inc.

Diam

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rCode Optional Calibration

MZOQSUWY


Flow-4

Diamond II+ Annubar

DiamondII+A

nnubarMODEL DCR+35S/36SModel Product Description

DCR+35SDCR+36S


Code Line Size

080100120140160180200240300360420480600720

8 in. (200 mm)10 in. (250 mm)12 in. (300 mm)14 in. (350 mm)16 in. (400 mm)18 in. (450 mm)20 in. (500 mm)24 in. (600 mm)30 in. (750 mm)36 in. (900 mm)42 in. (1066 mm)48 in. (1210 mm)60 in. 1520 mm)72 in. (1820 mm)

Code Head Style














C0000S0000



Needle Valves - CSNeedle Valve, Elbow, 1/214 NPT, CSNeedle Valve, Elbow and Tee, 1/214 NPT, CSNeedle Valve, Nipple, 1/214 NPT, CSNeedle Valve, Nipple and Tee, 1/214 NPT, CS00

Rosemount Inc.

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rCode Instrument Connections (Continued)


Needle Valves - SSTNeedle Valve, Nipple, 1/214 NPT,Needle Valve, Elbow and Tee, 1/214 NPT, SSTNeedle valve, Nipple, 1/2 in. Socket Weld Ports, SSTNeedle Valve, Nipple and Tee, 1/214 NPT, SSTNeedle Valve, Nipple and Tee, 1/2 in. Socket Weld Ports, SSTNeedle Valve, Elbow, 1/214 NPT, SSTNeedle Valve, Elbow, 1/2 in. Socket Weld Ports, SST




Gate Valves - SSTOutside Stem and Yoke Gate Valve, Elbow, 1/214 NPT, SSTOutside Stem and Yoke Gate Valve, Elbow, 1/2 in. Socket Weld Ports, SSTOutside Stem and Yoke Gate Valve, Nipple, 1/214 NPT, SSTOutside Stem and Yoke Gate Valve, Nipple, 1/2 in. Socket Weld Ports, SSTOutside Stem and Yoke Gate Valve, Elbow and Tee, 1/214 NPT, SSTOutside Stem and Yoke Gate Valve, Nipple and Tee, Steam, 1/214 NPT, SSTOutside Stem and Yoke Gate Valve, Vertical Line, Nipple and Tee, 1/214 NPT, SSTOutside Stem and Yoke Gate Valve, Vertical Line, Nipple and Tee, 1/2 in. Socket Weld Ports, SST


MP6C0MP6S0MR6C0MR6S0

Pak-Lok, with Contoured Weld Fitting, 11/211.5 NPT, CSPak-Lok, with Contoured Weld Fitting, 11/211.5 NPT, SSTPak-Lok, No Contoured Weld Fitting, 11/211.5 NPT, CSPak-Lok, No Contoured Weld Fitting, 11/211.5 NPT, SST


Contoured Weld Fitting and Plug, 11/211.5 NPT, CSContoured Weld Fitting and Plug, 11/2 in. Socket Weld Ports, CSContoured Weld Fitting and Plug, 11/211.5 NPT, SSTContoured Weld Fitting and Plug, 11/2 in. Socket Weld Ports, SST

Code OptionalAuxiliaryMounting (Mounting alternatives forusewhenContouredWeld Fitting isNot Specified inMountingHardware)MT6CMT6S

Contoured Weld Fitting, 11/211.5 NPT, CSContoured Weld Fitting, 11/211.5 NPT, SST






MZOQSUWY


Flow-4

Diamond II+ Annubar

DiamondII+A

nnubarCode Optional Quality AssuranceQA1QA2Q23Q29QJ2QM2QT1QT2QT8

Dieterich ProgramCertified ProgramANSI B31.3NACE MR-0175-91Special Product DrawingASTM Material-Traceable (Sensor Only)Hydrostatic Test EP-4017Dye Penetrant ES-1012Extended Hydro EP-4046

Typical Model Number DCR+35S 120 HAMS0 C0000 MP6C0

MODEL DCR+35S/36S02

Rosemount Inc.

Diam

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rMODEL DCR+45S/46SModel Product Description

DCR+45SDCR+46S


Code Line Size

100120140160180200240300360420480600720

10 in. (250 mm)12 in. (300 mm)14 in. (350 mm)16 in. (400 mm)18 in. (450 mm)20 in. (500 mm)24 in. (600 mm)30 in. (750 mm)36 in. (900 mm)42 in. (1066 mm)48 in. (1210 mm)60 in. 1520 mm)72 in. (1820 mm)

Code Head Style














C0000S0000


CP2C0SP2C0

Needle Valves - CSNeedle Valve, Nipple, 1/214 NPT, CSNeedle Valve, Nipple and Tee, 1/214 NPT, CS

CP2S0CP2SSSP2S0SP2SS

Needle Valves - SSTNeedle Valve, Nipple, 1/214 NPT, SSTNeedle valve, Nipple,1/2 in. Socket Weld Ports, SSTNeedle Valve, Nipple and Tee, 1/214 NPT, SSTNeedle Valve, Nipple and Tee, 1/2 in. Socket Weld Ports, SSTFlow-403

Flow-4

Diamond II+ Annubar

DiamondII+A


CC2C0SC2C0SV2C0

Gate Valves - CSOutside Stem and Yoke Gate Valve, Nipple, 1/214 NPT, CSOutside Stem and Yoke Gate Valve, Nipple and Tee, 1/214 NPT, CSOutside Stem and Yoke Gate Valve, Vertical Line, Nipple and Tee, 1/214 NPT, CS

CB2SSCC2S0CC2SSSC2S0SV2S0SV2SS

Gate Valves - SSTOutside Stem and Yoke Gate Valve, Elbow,1/2 in. Socket Weld Ports, SSTOutside Stem and Yoke Gate Valve, Nipple, 1/214 NPT, SSTOutside Stem and Yoke Gate Valve, Nipple, 1/2 in. Socket Weld Ports, SSTOutside Stem and Yoke Gate Valve, Nipple and Tee, 1/214 NPT, SSTOutside Stem and Yoke Gate Valve, Vertical Line, Nipple and Tee, 1/214 NPT, SSTOutside Stem and Yoke Gate Valve, Vertical Line, Nipple and Tee,1/2 in. Socket Weld Ports, SST


MPDC0MPDS0

Pak-Lok, with Contoured Weld Fitting, 38 NPT, CSPak-Lok, with Contoured Weld Fitting, 38 NPT, SST

Code Opposite Side Support (Required for Model 46S only)MSDCWMSDSW

Contoured Weld Fitting and Cap, 3 in., Butt Weld, CSContoured Weld Fitting and Cap, 3 in., Butt Weld, SST






MZOQSUWY


Diam

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r

R o s e m o u n t I n c .F l o w - 4 0 5

F l o w - 4

D i a m o n d I I + A n n u b a r

DiamondII+A

nnubar0 6

Diam

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r

R o s e m o u n t I n c .F l o w - 4 0 7

F l o w - 4

D i a m o n d I I + A n n u b a r

DiamondII+A

nnubar0 8

Rosemount Inc.

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rOrdering InformationModel DFFMODEL DFF+15S/16S

Model Product Description

DFF+15SDFF+16S

Diamond II+ Annubar Primary Flow Element - Flanged, SSTDiamond II+ Annubar Primary Flow Element - Flanged with Opposite Side Support, SST

Code Line Size

020025030035040050

2 in. (50 mm)2 in. (63.5 mm)3 in. (80 mm)3 in. (89 mm)4 in. (100 mm)5 in. (125 mm)

Code Head Style

HAMS0HADS0HADSBHADSNHAPS0

Direct Mount - HorizontalIntegral, 3-Valve Manifold, Horizontal Line, SSTDirect Mount, with 5-Valve Manifold, Horizontal Line, SSTDirect Mount, with 5-Valve Manifold, B31.1, Horizontal Line, SSTDirect Mount, with 5-Valve Manifold, NACE, Horizontal Line, SSTDirect Mount, No Manifold, Horizontal Line, SST

HVPS0HVMS0HVDS0HVDSBHVDSN

Direct Mount - VerticalDirect Mount, No Manifold, Vertical Line, SSTIntegral, 3-Valve Manifold, Vertical Line, SSTDirect Mount, with 5-Valve Manifold, Vertical Line, SSTDirect Mount, 5-Valve Manifold, B31.1, Vertical Line, SSTDirect Mount, 5-Valve Manifold, NACE, Vertical Line, SST

HA2S0HA2SSHP2S0HP2SSHAHS0HAHSS

Remote Mount - HorizontalAxial, Horizontal Line, 14 NPT, SSTAxial, Horizontal Line, in. Socket Weld Ports, SSTParallel, Horizontal Line, 14 NPT, SSTParallel, Horizontal Line, in. Socket Weld Ports, SSTAxial, HP, Horizontal Line, 14 NPT, SSTAxial, HP, Horizontal Line, in. Socket Weld Ports, SST

HPVS0HPVSSHV2S0HV2SSHVHS0HVHSS

Remote Mount - VerticalParallel, Vertical Line, in. Socket Weld Ports, SSTParallel, Vertical Line, 14 NPT, SSTAxial, Vertical Line, 14 NPT, SSTAxial, Vertical Line, in. Socket Weld Ports, SSTAxial, HP, Vertical Line, 14 NPT, SSTAxial, HP, Vertical Line, in. Socket Weld Ports, SST


C0000S0000


CA2C0CP2C0SA2C0SP2C0

Needle Valves - CSNeedle Valve, Elbow, 14 NPT, CSNeedle Valve, Nipple, 14 NPT, CSNeedle Valve, Elbow and Tee, 14 NPT, CSNeedle Valve, Nipple and Tee, 14 NPT, CS

CA2S0CA2SSCP2S0CP2SSSA2S0SP2S0SP2SS

Needle Valves - SSTNeedle Valve, Elbow, 14 NPT, SSTNeedle Valve, Elbow, in. Socket Weld Ports, SSTNeedle Valve, Nipple, 14 NPT, SSTNeedle Valve, Nipple, in. Socket Weld Ports, SSTNeedle Valve, Elbow and Tee, 14 NPT, SSTNeedle Valve, Nipple and Tee, 14 NPT, SSTNeedle Valve, Nipple and Tee, in. Socket Weld Ports, SST

CB2C0CC2C0SB2C0SC2C0SV2C0

Gate Valves - CSOutside Stem and Yoke Gate Valve, Elbow, 14 NPT, CSOutside Stem and Yoke Gate Valve, Nipple, 14 NPT, CSOutside Stem and Yoke Gate Valve, Elbow and Tee, 14 NPT, CSOutside Stem and Yoke Gate Valve, Nipple and Tee, 14 NPT, CSOutside Stem and Yoke Gate Valve, Vertical Line, Nipple and Tee, 14 NPT, CSFlow-409

Flow-4

DiamondII+A

nnubarDiamond II+ Annubar

Code Instrument Connections (Continued)


Gate Valves - SSTOutside Stem and Yoke Gate Valve, Elbow, 14 NPT, SSTOutside Stem and Yoke Gate Valve, Elbow, in. Socket Weld Ports, SSTOutside Stem and Yoke Gate Valve, Nipple, 14 NPT, SSTOutside Stem and Yoke Gate Valve, Nipple, in. Socket Weld Ports, SSTOutside Stem and Yoke Gate Valve, Elbow and Tee, 14 NPT, SSTOutside Stem and Yoke Gate Valve, Nipple and Tee, Steam, 14 NPT, SSTOutside Stem and Yoke Gate Valve, Vertical Line, Nipple and Tee, 14 NPT, SSTOutside Stem and Yoke Gate Valve, Vertical Line, Nipple and Tee, in. Socket Weld Ports, SST

Code Sensor Flange

FNMS0FLMS0FJMS0FF4S0FE4S0FC4S0FB4S0FA4S0

DIN 25 PN 100, 316 SSTDIN 25 PN 40, 316 SSTDIN 25 PN 16, 316 SST1 in. ANSI Class 2500, RF, SST1 in. ANSI Class 900/1500, RF, SST1 in. ANSI Class 600, RF, SST1 in. ANSI Class 300, RF, SST1 in. ANSI Class 150, RF, SST

Code Flanged Mount

FA4CFA4SFB4CFB4SFC4CFC4SFE4CFE4SFF4CFF4SFJMCFJMSFLMCFLMSFNMCFNMS

1 in. ANSI Class 150, Weld-Neck RF, CS1 in. ANSI Class 150, Weld-Neck RF, SST1 in. ANSI Class 300, Weld-Neck RF, CS1 in. ANSI Class 300, Weld-Neck RF, SST1 in. ANSI Class 600, Weld-Neck RF, CS1 in. ANSI Class 600, Weld-Neck RF, SST1 in. ANSI Class 900/1500, Weld-Neck RF, CS1 in. ANSI Class 900/1500, Weld-Neck RF, SST1 in. ANSI Class 2500, Weld-Neck RF, CS1 in. ANSI Class 2500, Weld-Neck RF, SSTDIN 25 PN 16, CSDIN 25 PN 16, 316 SSTDIN 25 PN 40, CSDIN 25 PN 40, 316 SSTDIN 25 PN 100, CSDIN 25 PN 100, 316 SST


Contoured Weld Fitting and Plug, 14 NPT, CSContoured Weld Fitting and Plug, in. Socket Weld Ports, CSContoured Weld Fitting and Plug, 14 NPT, SSTContoured Weld Fitting and Plug, in. Socket Weld Ports, SST

Code Optional Temperature Sensors (For use with Remote Mount Head Styles)TRRTXR

Remote Thermowell and RTDRemote Thermowell and RTD, FM Explosion-Proof




MZ


Rosemount Inc.

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rMODEL DFF+25S/26SModel Product Description

DFF+25SDFF+26S

Diamond II + Annubar Primary Flow Element - Flanged, SSTDiamond II + Annubar Primary Flow Element - Flanged with Opposite Side Support, SST

Code Line Size

040050060080100120140160180200240300360420

4 in. (100 mm)5 in. (125 mm)6 in. (150 mm)8 in. (200 mm)10 in. (250 mm)12 in. (300 mm)14 in. (350 mm)16 in. (400 mm)18 in. (450 mm)20 in. (500 mm)24 in. (600 mm)30 in. (750 mm)36 in. (900 mm)42 in. (1066 mm)

Code Head Style

HAMS0HADS0HADSBHADSNHAPS0HAXS0

Direct and Integral Mount Heads - Horizontal LineIntegral, 3-Valve Manifold, Horizontal Line, SSTDirect Mount, with 5-Valve Manifold, Horizontal Line, SSTDirect Mount, with 5-Valve Manifold, B31.1, Horizontal Line, SSTDirect Mount, with 5-Valve Manifold, NACE, Horizontal Line, SSTDirect Mount, No Manifold, Horizontal Line, SSTDirect Mount, Quantity Two, 3-Valve Manifold, Horizontal Line, SST

HATSNHATS0HATSBHATSD

Direct and Integral Mount Heads - Horizontal Line with RTDDirect Mount, 5-Valve Manifold, RTD, NACE, Horizontal Line, SSTIntegral, 3-Valve Manifold, RTD, Horizontal Line, SSTDirect Mount, 5-Valve Manifold, RTD, B31.1, Horizontal Line, SSTDirect Mount, with 5-Valve Manifold, RTD, Horizontal Line, SST

HVPS0HVMS0HVDS0HVDSBHVDSN

Direct and Integral Mount Heads - Vertical LineDirect Mount, No Manifold, Vertical Line, SSTIntegral, 3-Valve Manifold, Vertical Line, SSTDirect Mount, with 5-Valve Manifold, Vertical Line, SSTDirect Mount, 5-Valve Manifold, B31.1, Vertical Line, SSTDirect Mount, 5-Valve Manifold, NACE, Vertical Line, SST

HVTS0HVTSBHVTSDHVTSN

Direct and Integral Mount Heads - Vertical Line with RTDIntegral, 3-Valve Manifold, RTD, Vertical Line, SSTDirect Mount, 5-Valve Manifold, RTD, B31.1, Vertical Line, SSTDirect Mount, with 5-Valve Manifold, RTD, Vertical Line, SSTDirect Mount, 5-Valve Manifold, RTD, NACE, Vertical Line, SST

HA2S0HA2SSHP2S0HP2SSHAHS0HAHSS

Remote Mount - Horizontal LineAxial, Horizontal Line, 14 NPT, SSTAxial, Horizontal Line, in. Socket Weld Ports, SSTParallel, Horizontal Line, 14 NPT, SSTParallel, Horizontal Line, in. Socket Weld Ports, SSTAxial, HP, Horizontal Line, 14 NPT, SSTAxial, HP, Horizontal Line, in. Socket Weld Ports, SST

HPVS0HPVSSHV2S0HV2SSHVHS0HVHSS

Remote Mount - Vertical LineParallel, Vertical Line, in. Socket Weld Ports, SSTParallel, Vertical Line, 14 NPT, SSTAxial, Vertical Line, 14 NPT, SSTAxial, Vertical Line, in. Socket Weld Ports, SSTAxial, HP, Vertical Line, 14 NPT, SSTAxial, HP, Vertical Line, in. Socket Weld Ports, SST


C0000S0000



Needle Valves - CSNeedle Valve, Elbow, 14 NPT, CSNeedle Valve, Nipple, 14 NPT, CSNeedle Valve, Elbow and Tee, 14 NPT, CSNeedle Valve, Nipple and Tee, 14 NPT, CSFlow-411

Flow-4

Diamond II+ Annubar

DiamondII+A

nnubar

Code Instrument Connections (Continued)MODEL DFF+25S/26SCA2S0CA2SSCP2S0CP2SSSA2S0SP2S0SP2SS

Needle Valves - SSTNeedle Valve, Elbow, 14 NPT, SSTNeedle Valve, Elbow, in. Socket Weld Ports, SSTNeedle Valve, Nipple, 14 NPT, SSTNeedle Valve, Nipple, in. Socket Weld Ports, SSTNeedle Valve, Elbow and Tee, 14 NPT, SSTNeedle Valve, Nipple and Tee, 14 NPT, SSTNeedle Valve, Nipple and Tee, in. Socket Weld Ports, SST


Gate Valves - CSOutside Stem and Yoke Gate Valve, Elbow, 14 NPT, CSOutside Stem and Yoke Gate Valve, Nipple, 14 NPT, CSOutside Stem and Yoke Gate Valve, Elbow and Tee, 14 NPT, CSOutside Stem and Yoke Gate Valve, Nipple and Tee, 14 NPT, CSOutside Stem and Yoke Gate Valve, Vertical Line, Nipple and Tee, 14 NPT, CS


Gate Valves - SSTOutside Stem and Yoke Gate Valve, Elbow, 14 NPT, SSTOutside Stem and Yoke Gate Valve, Elbow, in. Socket Weld Ports, SSTOutside Stem and Yoke Gate Valve, Nipple, 14 NPT, SSTOutside Stem and Yoke Gate Valve, Nipple, in. Socket Weld Ports, SSTOutside Stem and Yoke Gate Valve, Elbow and Tee, 14 NPT, SSTOutside Stem and Yoke Gate Valve, Nipple and Tee, Steam, 14 NPT, SSTOutside Stem and Yoke Gate Valve, Vertical Line, Nipple and Tee, 14 NPT, SSTOutside Stem and Yoke Gate Valve, Vertical Line, Nipple and Tee, in. Socket Weld Ports, SST

Code Sensor Flange

FNPS0FLPS0FJPS0FF8S0FE8S0FC6S0FB6S0FA6S0

DIN 40 PN 100, 316 SSTDIN 40 PN 40, 316 SSTDIN 40 PN 16, 316 SST2 in. ANSI Class 2500, RF, SST2 in. ANSI Class 900/1500, RF, SST1 in. ANSI Class 600, RF, SST1 in. ANSI Class 300, RF, SST1 in. ANSI Class 150, RF, SST

Code Flanged Mount

FA6CFA6SFB6CFB6SFC6CFC6SFE8CFE8SFJPCFJPSFLPCFLPSFNPCFNPS

1 in. ANSI Class 150, Weld-Neck RF, CS1 in. ANSI Class 150, Weld-Neck RF, SST1 in. ANSI Class 300, Weld-Neck RF, CS1 in. ANSI Class 300, Weld-Neck RF, SST1 in. ANSI Class 600, Weld-Neck RF, CS1 in. ANSI Class 600, Weld-Neck RF, SST2 in. ANSI Class 900/1500,Weld-Neck RF, CS2 in. ANSI Class 1500, Weld-Neck RF, SSTDIN 40 PN 16, CSDIN 40 PN 16, 316 SSTDIN 40 PN 40, CSDIN 40 PN 40, 316 SSTDIN 40 PN 100, CSDIN 40 PN 100, 316 SST




Integral RTD, Axial HeadIntegral RTD, Parallel HeadIntegral RTD, Explosion, AxialIntegral RTD, FM Explosion-Proof, ParallelRemote Thermowell and RTDRemote Thermowell and RTD, FM Explosion-Proof12

Rosemount Inc.

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rCode Optional Special Assembly



MZOQSUWY


Flow-4

Diamond II+ Annubar

DiamondII+A

nnubarMODEL DFF+25H/26HModel Product Description

DFF+25HDFF+26H

Diamond II + Annubar Primary Flow Element - Flanged, Hastelloy-CDiamond II + Annubar Primary Flow Element - Flanged with Opposite Side Support, Hastelloy-C

Code Line Size

040050060080100120140160180200240300360420


Code Head Style

HADH0HADHBHADHNHAMH0HAPH0

Direct and Integral Mount Heads - Horizontal LineDirect Mount, with 5-Valve Manifold, Horizontal Line, Hastelloy-CDirect Mount, with 5-Valve Manifold, B31.1, Horizontal Line, Hastelloy-CDirect Mount, with 5-Valve Manifold, NACE, Horizontal Line, Hastelloy-CIntegral, 3-Valve Manifold, Horizontal Line, Hastelloy-CDirect Mount, No Manifold, Horizontal Line, Hastelloy-C

HATH0HATHDHATHNHATHB

Direct and Integral Mount Heads - Horizontal Line with RTDIntegral, 3-Valve Manifold, RTD, Horizontal Line, Hastelloy-CDirect Mount, with 5-Valve Manifold, RTD, Horizontal Line, Hastelloy-CDirect Mount, 5-Valve Manifold, RTD, NACE, Horizontal Line, Hastelloy-CDirect Mount, 5-Valve Manifold, RTD, B31.1, Horizontal Line, Hastelloy-C

HVMH0HVDH0HVDHBHVDHNHVPH0

Direct and Integral Mount Heads - Vertical LineIntegral, 3-Valve Manifold, Vertical Line, Hastelloy-CDirect Mount, with 5-Valve Manifold, Vertical Line, Hastelloy-CDirect Mount, 5-Valve Manifold, B31.1, Vertical Line, Hastelloy-CDirect Mount, 5-Valve Manifold, NACE, Vertical Line, Hastelloy-CDirect Mount, No Manifold, Vertical Line, Hastelloy-C

HVTH0HVTHBHVTHDHVTHN

Direct and Integral Mount Heads - Vertical Line with RTDIntegral, 3-Valve Manifold, RTD, Vertical Line, Hastelloy-CDirect Mount, 5-Valve Manifold, RTD, B31.1, Vertical Line, Hastelloy-CDirect Mount, with 5-Valve Manifold, RTD, Vertical Line, Hastelloy-CDirect Mount, 5-Valve Manifold, RTD, NACE, Vertical Line, Hastelloy-C

HA2H0HA2HSHP2H0HAHH0HAHHS

Remote Mount - Horizontal LineAxial, Horizontal Line, 14 NPT, Hastelloy-CAxial, Horizontal Line, in. Socket Weld Ports, Hastelloy-CParallel, Horizontal Line, 14 NPT, Hastelloy-CAxial, HP, Horizontal Line, 14 NPT, Hastelloy-CAxial, HP, Horizontal Line, in. Socket Weld Ports, Hastelloy-C

HPVH0HV2H0HVHH0HVHHS

Remote Mount - Vertical LineParallel, Vertical Line, 14 NPT, Hastelloy-CAxial, Vertical Line, 14 NPT, Hastelloy-CAxial, HP, Vertical Line, 14 NPT, Hastelloy-CAxial, HP, Vertical Line, in. Socket Weld Ports, Hastelloy-C


C0000S0000



Needle Valves - CSNeedle Valve, Elbow, 14 NPT, CSNeedle Valve, Nipple, 14 NPT, CSNeedle Valve, Elbow and Tee, 14 NPT, CSNeedle Valve, Nipple and Tee, 14 NPT, CS14

Rosemount Inc.

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rCode Instrument Connections (Continued)

CA2S0CP2S0SA2S0SP2S0

Needle Valves - SSTNeedle Valve, Elbow, 14 NPT, SSTNeedle Valve, Nipple, 14 NPT, SSTNeedle Valve, Elbow and Tee, 14 NPT, SSTNeedle Valve, Nipple and Tee, 14 NPT, SST

CA2H0CP2H0

Needle Valves - Hastelloy-CNeedle Valve, Elbow, 14 NPT, Hastelloy-CNeedle Valve, Nipple, 14 NPT, Hastelloy-C



CB2S0CC2S0SB2S0SC2S0SV2S0

Gate Valves - SSTOutside Stem and Yoke Gate Valve, Elbow, 14 NPT, SSTOutside Stem and Yoke Gate Valve, Nipple, 14 NPT, SSTOutside Stem and Yoke Gate Valve, Elbow and Tee, 14 NPT, SSTOutside Stem and Yoke Gate Valve, Nipple and Tee, Steam, 14 NPT, SSTOutside Stem and Yoke Gate Valve, Vertical Line, Nipple and Tee, 14 NPT, SST

Code Sensor Flange

FF8H0FE8H0FC6H0FB6H0FA6H0

2 in. ANSI Class 2500, RF, Hastelloy-C2 in. ANSI Class 900/1500, RF, Hastelloy-C1 in. ANSI Class 600, RF, Hastelloy-C1 in. ANSI Class 300, RF, Hastelloy-C1 in. ANSI Class 150, RF, Hastelloy-C

Code Flanged Mount

FA6CFA6SFB6CFB6SFC6CFC6SFE8CFE8S

1 in. ANSI Class 150, Weld-Neck RF, CS1 in. ANSI Class 150, Weld-Neck RF, SST1 in. ANSI Class 300, Weld-Neck RF, CS1 in. ANSI Class 300, Weld-Neck RF, SST1 in. ANSI Class 600, Weld-Neck RF, CS1 in. ANSI Class 600, Weld-Neck RF, SST2 in. ANSI Class 900/1500, Weld-Neck RF, CS2 in. ANSI Class 1500, Weld-Neck RF, SST

Code Opposite Side Support (Required for Model 26H only)MS4C0MS4CWMS4S0MS4SW



Integral RTD, Axial HeadIntegral RTD, Parallel HeadIntegral RTD, Explosion, AxialIntegral RTD, FM Explosion-Proof, ParallelRemote Thermowell and RTDRemote Thermowell and RTD, FM Explosion-Proof




MZOQSUWY


Flow-4

Diamond II+ Annubar

DiamondII+A

nnubarCode Optional Quality AssuranceQA1Q21Q23Q29QJ2QM2QT1QT2QT8

Dieterich ProgramANSI B31.1ANSI B31.3NACE MR-0175-91Special Product DrawingASTM Material-Traceable (Sensor Only)Hydrostatic Test EP-4017Dye Penetrant ES-1012Extended Hydro EP-4046

Typical Model Number DFF+25H 040 HAMH0 C0000 FA6H0 FA6C

MODEL DFF+25H/26H16

Rosemount Inc.

Diam

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rMODEL DFF+25M/26MModel Product Description

DFF+25MDFF+26M

Diamond II + Annubar Primary Flow Element - Flanged, MonelDiamond II + Annubar Primary Flow Element - Flanged with Opposite Side Support, Monel

Code Line Size

040050060080100120140160180200240300360420


Code Head Style

HADM0HADMBHADMNHAMM0HAPM0

Direct and Integral Mount Heads - Horizontal LineDirect Mount, with 5-Valve Manifold, Horizontal Line, MonelDirect Mount, with 5-Valve Manifold, B31.1, Horizontal Line, MonelDirect Mount, with 5-Valve Manifold, NACE, Horizontal Line, MonelIntegral, 3-Valve Manifold, Horizontal Line, MonelDirect Mount, No Manifold, Horizontal Line, Monel

HATM0HATMDHATMNHATMB

Direct and Integral Mount Heads - Horizontal Line with RTDIntegral, 3-Valve Manifold, RTD, Horizontal Line, MonelDirect Mount, with 5-Valve Manifold, RTD, Horizontal Line, MonelDirect Mount, 5-Valve Manifold, RTD, NACE, Horizontal Line, MonelDirect Mount, 5-Valve Manifold, RTD, B31.1, Horizontal Line, Monel

HVMM0HVDM0HVDMBHVDMNHVPM0

Direct and Integral Mount Heads - Vertical LineIntegral, 3-Valve Manifold, Vertical Line, MonelDirect Mount, with 5-Valve Manifold, Vertical Line, MonelDirect Mount, 5-Valve Manifold, B31.1, Vertical Line, MonelDirect Mount, 5-Valve Manifold, NACE, Vertical Line, MonelDirect Mount, No Manifold, Vertical Line, Monel

HVTM0HVTMBHVTMDHVTMN

Direct and Integral Mount Heads - Vertical Line with RTDIntegral, 3-Valve Manifold, RTD, Vertical Line, MonelDirect Mount, 5-Valve Manifold, RTD, B31.1, Vertical Line, MonelDirect Mount, with 5-Valve Manifold, RTD, Vertical Line, MonelDirect Mount, 5-Valve Manifold, RTD, NACE, Vertical Line, Monel

HA2M0HA2MSHP2M0HAHM0HAHMS

Remote Mount - Horizontal LineAxial, Horizontal Line, 14 NPT, MonelAxial, Horizontal Line, in. Socket Weld Ports, MonelParallel, Horizontal Line, 14 NPT, MonelAxial, HP, Horizontal Line, 14 NPT, MonelAxial, HP, Horizontal Line, in. Socket Weld Ports, Monel

HPVM0HVHM0HVHMSHV2MOHV2MS

Remote Mount - Vertical LineParallel, Vertical Line, 14 NPT, MonelAxial, HP, Vertical Line, 14 NPT, MonelAxial, HP, Vertical Line, in. Socket Weld Ports, MonelAxial, Vertical Line, 14 NPT, MonelAxial, Vertical Line, in. Socket Weld Ports, Monel


C0000S0000



Needle Valves - CSNeedle Valve, Elbow, 14 NPT, CSNeedle Valve, Nipple, 14 NPT, CSNeedle Valve, Elbow and Tee, 14 NPT, CSNeedle Valve, Nipple and Tee, 14 NPT, CSFlow-417

Flow-4

Diamond II+ Annubar

DiamondII+A


CA2S0CP2S0SA2S0SP2S0

Needle Valves - SSTNeedle Valve, Elbow, 14 NPT, SSTNeedle Valve, Nipple, 14 NPT, SSTNeedle Valve, Elbow and Tee, 14 NPT, SSTNeedle Valve, Nipple and Tee, 14 NPT, SST

CA2M0CP2M0

Needle Valves - MonelNeedle Valve, Elbow, 14 NPT, MonelNeedle Valve, Nipple, 14 NPT, Monel



CB2S0CC2S0SB2S0SC2S0SV2S0

Gate Valves - SSTOutside Stem and Yoke Gate Valve, Elbow, 14 NPT, SSTOutside Stem and Yoke Gate Valve, Nipple, 14 NPT, SSTOutside Stem and Yoke Gate Valve, Elbow and Tee, 14 NPT, SSTOutside Stem and Yoke Gate Valve, Nipple and Tee, Steam, 14 NPT, SSTOutside Stem and Yoke Gate Valve, Vertical Line, Nipple and Tee, 14 NPT, SST

Code Sensor Flange

FE8M0FF8M0FC6M0FB6M0FA6M0

2 in. ANSI Class 900/1500, RF, Monel2 in. ANSI Class 2500, RF, Monel1 in. ANSI Class 600, RF, Monel1 in. ANSI Class 300, RF, Monel1 in. ANSI Class 150, RF, Monel

Code Flanged Mount

FA6CFA6SFB6CFB6SFC6CFC6SFE8CFE8S

1 in. ANSI Class 150, Weld-Neck RF, CS1 in. ANSI Class 150, Weld-Neck RF, SST1 in. ANSI Class 300, Weld-Neck RF, CS1 in. ANSI Class 300, Weld-Neck RF, SST1 in. ANSI Class 600, Weld-Neck RF, CS1 in. ANSI Class 600, Weld-Neck RF, SST2 in. ANSI Class 900/1500, Weld-Neck RF, CS2 in. ANSI Class 1500, Weld-Neck RF, SST

Code Opposite Side Support (Required for Model 26M only)MS4C0MS4CWMS4S0MS4SW

Contoured Weld Fitting and Plug, 111.5 NPT, CSContoured Weld Fitting and Plug, 1 in. Socket Weld Por

catalogo annubar

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