8800d datasheet, Study Guides, Projects, Research of Design and Analysis of Algorithms

Rosemount flow meter

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2014/2015

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Product Data Sheet
November 2014
00813-0100-4004, Rev KA
HART® and FOUNDATION fieldbus Protocols
All welded, non-clog design provides maximum performance, reliability and enhanced
safety by eliminating ports and gaskets. No seals, just steel.
CriticalProcess Vortex eliminates bypass piping and optimizes safety during sensor health
verificat ion.
Available with optional multivariable output. Internal temperature compensation provides
cost-effec tive saturated steam mass flow measurement.
Adaptive Digital Signal Processing (ADSP) provides vibration immunity and flow range
optimization.
Reducer Vortex extends the measurable flow range, reduces installation costs, and
minimizes project risk.
Simplified troubleshooting through device diagnostics and meter verification.
Available in wafer, flanged, dual, reducer and high pressure designs.
Rosemount 8800D Series Vortex Flowmeter
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Product Data Sheet

November 2014

00813-0100-4004, Rev KA

HART ®^ and FOUNDATION ™^ fieldbus Protocols

 All welded, non-clog design provides maximum performance, reliability and enhanced safety by eliminating ports and gaskets. No seals, just steel.

 CriticalProcess

Vortex eliminates bypass piping and optimizes safety during sensor health verification.

 Available with optional multivariable output. Internal temperature compensation provides cost-effective saturated steam mass flow measurement.

 Adaptive Digital Signal Processing (ADSP) provides vibration immunity and flow range optimization.

 Reducer

Vortex extends the measurable flow range, reduces installation costs, and minimizes project risk.

 Simplified troubleshooting through device diagnostics and meter verification.

 Available in wafer, flanged, dual, reducer and high pressure designs.

Rosemount 8800D Series Vortex Flowmeter

Rosemount 8800D November 2014

The Rosemount 8800D delivers

reliability and maximum process

availability

 Rosemount Reliability -The 8800D Vortex eliminates impulse

lines, ports, and gaskets to improve reliability.

 Non-clog Design - Unique all welded, gasket-free construction

which has no ports or crevices that can clog.

 Vibration Immunity - Mass balancing of the sensor system,

and Adaptive Digital Signal Processing (ADSP) provide

vibration immunity.

 Replaceable Sensor - The sensor is isolated from the process

and can be replaced without breaking the process seal. All line

sizes use the same sensor design allowing a single spare to

serve every meter.

 Simplified Troubleshooting - Device Diagnostics enable field

verification of meter electronics and sensor without process

shutdown.

The Rosemount 8800D offering

 The 8800D is available in wafer style meter bodies for 1 / 2

through 8-in. line sizes, and ASME B16.5, EN 1092-1, or JIS

B2220 flanged style meter bodies for 1 / 2 through 12-in. line

sizes.

 Alignment rings, provided with each wafer-style flowmeter,

ensure that the meter body is properly centered with the

adjacent piping.

 The wafer, flanged, and weld end style meter bodies are

available in 316 stainless steel and nickel alloy materials of

construction.

 Available up to ASME B16.5 class 1500 for 1 through 8-in. (

mm through 200 mm) line sizes.

Available with FOUNDATION fieldbus functionality which includes

Device Diagnostics and PlantWeb®^ Alerts.

Contents

Ordering Information.............................. 7

Specifications.................................... 14

Typical Flow Ranges................................. 19

Product Certifications.............................. 29

Dimensional Drawings.............................. 35

Rosemount 8800D November 2014

The Rosemount 8800D MultiVariable

™ Vortex reduces installation costs,

simplifies installation, and improves performance in saturated steam.

 Available with Flow Computer for additional functionality.

Integrating the MultiVariable Vortex with a pressure

transmitter for full pressure and temperature compensation

of superheated steam and various gases provides the

following additional functionality:

  • Remote Communications
  • Heat Flow Calculations
  • Remote Totalization
  • Peak Demand Calculation
  • Data Logging Capabilities

 MultiVariable Vortex Design

Incorporates temperature sensor into the vortex meter using

the shedder bar as a thermowell, which keeps the vortex and

temperature sensors isolated from process for easy

verification and replacement.

 Increased performance in Saturated Steam

Performance in saturated steam is improved due to the fact

that the electronics will be compensating for changes in the

process temperature.

 Temperature Compensated Capability for Saturated Steam

Calculates density from measured process temperature and

uses the calculated density to provide a temperature

compensated mass flow.

 Reduces Installed Costs

MultiVariable Vortex eliminates the need for an external

thermowell and temperature sensor.

 Available with Flanged and Reducer Vortex in 1 1 / 2 through 12

inch meter body sizes

See Product Data Sheet 00813-0100-4005 for more information on the Rosemount Flow Computer.

November 2014 Rosemount 8800D

The Rosemount 8800D offers a wide range of wetted materials to accommodate

the most demanding process applications.

Carbon steel

 Carbon steel vortex meters offer resistance against stress

cracking and are available in both high (min temp 32 °F/0 °C)

and low (min temp -40 °F/-40 °C) temperature carbon steel.

 Carbon Steel is available in a full range of offerings as A105N

forged and WCB cast materials for high temperature and LF

forged and LCC cast materials for low temperature

applications.

Super duplex

 The UNS S32760 wrought and 6A cast super duplex stainless

steel material allows for increased chloride corrosion

resistance.

 The super duplex material properties allow for increased

pressure class ratings up to class 900 for 10 in and 12 in line

sizes.

 Super duplex is available as flanged and dual meters in 6-in.

through 12-in. line sizes, 8-in. through 12-in. for reducer.

Also available in Stainless Steel and Nickel Alloy.

The Armored Remote cable allows for remote electronics mounting while

protecting the cable, maximizing reliability, and eliminating the need for

conduit in many installations.

 Improved protection against abrasion, impact, and moisture.

 Available in 10, 20, 33, 50, and 75 foot lengths.

 Two aluminum glands are provided to securely connect cable

to transmitter and meter body.

 Available with stainless steel glands when ordered in

conjunction with stainless steel electronics housing.

November 2014 Rosemount 8800D

Ordering Information

Table 1. Rosemount 8800D Vortex Flowmeter

H The Standard offering represents the most common options. The starred options ( H ) should be selected for best delivery.

__The Expanded offering is subject to additional delivery lead time.

Model Product description

8800D Vortex Flowmeter

Meter style

F Flanged style H

W Wafer style H

R Reducer Style (Flanged style only) H

D Dual-sensor style (Flanged style only)

Line size

005 1 / 2 -in. (15 mm) (Not available for Rosemount 8800DR) H

010 1-in. (25 mm) H

015 11 / 2 -in. (40 mm) H

020 2-in. (50 mm) H

030 3-in. (80 mm) H

040 4-in. (100 mm) H

060 6-in. (150 mm) H

080 8-in. (200 mm) H

100 10-in. (250mm)

120 12-in. (300mm)

Wetted materials

S

316 wrought stainless and CF-3M cast stainless Note: Material of construction is 316/316L

H
H

UNS N06022 wrought Nickel Alloy; CW2M cast Nickel Alloy Note: See Table 2.

C A105 forged carbon steel and WCB cast carbon steel

L LF2 forged carbon steel and LCC cast carbon steel

D (1)^ UNS S32760 wrought duplex stainless steel and 6A cast duplex stainless steel

Flange or alignment ring size

A1 ASME B16.5 (ANSI) RF Class 150 H

A3 ASME B16.5 RF Class 300 H

K1 EN 1092-1 PN 16 (PN 10/16 for wafer style) Type B1 H

K3 EN 1092-1 PN 40 (PN 25/40 for wafer style) Type B1 H

A6 ASME B16.5 RF Class 600

A7(2)^ ASME B16.5 RF Class 900

A8(3)^ ASME B16.5 RF Class 1500

B1(4)^ ASME B16.5 RTJ Class 150 for flange-style only

Rosemount 8800D November 2014

B3 ASME B16.5 RTJ Class 300 for flange-style only

B6 ASME B16.5 RTJ Class 600 for flange-style only

B7(2)^ ASME B16.5 RTJ Class 900 for flange-style only

B8(3)^ ASME B16.5 RTJ Class 1500 for flange-style only

C1 ASME B16.5 RF Class 150, smooth finish

C3 ASME B16.5 RF Class 300, smooth finish

C6 ASME B16.5 RF Class 600, smooth finish

C7(2)^ ASME B16.5 RF Class 900, smooth finish

C8(3)^ ASME B16.5 RF Class 1500, smooth finish

K0 EN 1092-1 PN 10 Type B

K2 EN 1092-1 PN 25 Type B

K4 EN 1092-1 PN 63 Type B

K6 EN 1092-1 PN 100 Type B

K7(2)^ EN 1092-1 PN 160 Type B

L0 EN 1092-1 PN 10 Type B

L1 EN 1092-1 PN 16 (PN 10/16 for wafer style) Type B

L2 EN 1092-1 PN 25 Type B

L3 EN 1092-1 PN 40 (PN 25/40 for wafer style) Type B

L4 EN 1092-1 PN 63 Type B

L6 EN 1092-1 PN 100 Type B

L7(2)^ EN 1092-1 PN 160 Type B

M0 EN 1092-1 PN 10 Type D for flange style only

M1 EN 1092-1 PN 16 Type D for flange style only

M2 EN 1092-1 PN 25 Type D for flange style only

M3 EN 1092-1 PN 40 Type D for flange style only

M4 EN 1092-1 PN 63 Type D for flange style only

M6 EN 1092-1 PN 100 Type D for flange style only

M7(2)^ EN 1092-1 PN 160 Type D for flange style only

J1 JIS 10K

J2 JIS 20K

J4 JIS 40K

W1(5)^ Weld End, Schedule 10S

W4(5)^ Weld End, Schedule 40S

W8(5)^ Weld End, Schedule 80S

W9(4)(5)^ Weld End, Schedule 160S

Table 1. Rosemount 8800D Vortex Flowmeter

H The Standard offering represents the most common options. The starred options ( H ) should be selected for best delivery.

__The Expanded offering is subject to additional delivery lead time.

Rosemount 8800D November 2014

ND ATEX Dust H

K1 ATEX Flameproof; Intrinsic Safety; Type n; Dust H

E7 IECEx Flameproof H

I7 IECEx Intrinsic Safety H

IG (8)^ IECEx FISCO Intrinsic Safety H

N7 IECEx Type n H

K7 IECEx Flameproof; Intrinsic Safety; Type n; Dust H

E2 INMETRO Flameproof H

I2 INMETRO Intrinsic Safety H

E3 China Flameproof; Dust H

I3 China Intrinsic Safety H

N3 China Type n H

IH (8)^ China FISCO/FNICO Intrinsic Safety H

K3 China Flameproof; Dust; Intrinsic Safety; Type n H

E4(9)^ TIIS Flameproof H

IB (8)^ INMETRO FISCO Intrinsic Safety H

PlantWeb control functionality

A01(10)^ Basic Control: One Proportional/Integral/Derivative (PID) Function Block H

Conduit electrical connector

GE (11)^ M12, 4-pin, Male Connector (eurofast®)

GM (11)^ A size Mini, 4-pin, Male Connector (minifast ®)

GN ATEX Flameproof A size, Mini 4-pin male connector (minifast)

Other options

C4(12)^ NAMUR alarm and saturation values, high alarm H

CN (12)^ NAMUR alarm and saturation values, low alarm H

V5 External ground screw assembly H

T1 Transient protection terminal block H

P2 Cleaning for special services H

PD Pressure Equipment Directive (PED, per 97/23/EC) H

M5 LCD indicator H

R10 Remote electronics with 10 ft (3,0 m) cable H

R20 Remote electronics with 20 ft (6,1 m) cable H

R30 Remote electronics with 30 ft (9,1 m) cable H

R33 Remote electronics with 33 ft. (10.1m) cable H

R50 Remote electronics with 50 ft (15.2 m) cable H

RXX(13)^ Remote electronics with customer-specified cable length (up to 75 ft (23 m) maximum)

Table 1. Rosemount 8800D Vortex Flowmeter

H The Standard offering represents the most common options. The starred options ( H ) should be selected for best delivery.

__The Expanded offering is subject to additional delivery lead time.

November 2014 Rosemount 8800D

A10 Armored remote electronics with 10 ft (3.0 m) cable

A20 Armored remote electronics with 20 ft (6.1 m) cable

A33 Armored remote electronics with 33ft (10.1 m) cable

A50 Armored remote electronics with 50 ft (15.2 m) cable

A75 Armored remote electronics with 75ft (22.9 m) cable

CPA (14)^ CriticalProcess Online Sensor

Certification options

Q4 Certificate of Calibration - Consistent with ISO 10474 3.1B or EN 10204 3.1 H

Q8 Material traceability certification per ISO 10474 3.1B and EN 10204 3.1 H

Q25 NACE ®^ MR0103 Certificate of Compliance H

Q69 (15)^ Inspection certificate weld examination (wafer) per ISO 10474 3.1B and EN 10204 3.1 H

Q70 Inspection certificate weld examination (flanged) per ISO 10474 3.1B and EN 10204 3.

Q71 Inspection certification weld examination (flanged) per ISO 10474 3.1B (includes x-rays) and EN 10204 3.

Q72 Inspection certification weld examination (flanged) per ISO 10474 3.1B (includes x-rays on film) and EN 10204 3.

Q76 Certification of Positive Material Identification H

Q79 Certification for Combo PQR/WPQ/WPS with Weld Maps H

QC2 Visual and Dimensional, Quantity, Display and Configuration Inspection with Certificate

J2 ASME B31.1 General Compliance (carbon steel only)

J7 ASME B31.1 Boiler External Piping (BEP) Code Stamp (carbon steel only)

QKH KHK Documentation Package

QP Calibration certification and tamper evident seal H

SBS ABS (American Bureau of Shipping)

SBV Bureau Veritas

SDN Det Norske Veritas

SLL Lloyd's Register (LR) Type Approval

Table 1. Rosemount 8800D Vortex Flowmeter

H The Standard offering represents the most common options. The starred options ( H ) should be selected for best delivery.

__The Expanded offering is subject to additional delivery lead time.

November 2014 Rosemount 8800D

Table 2. Method of Construction for the 8800DF/8800DD in Nickel Alloy

Line size A1 A3 A6 A7 K1 K3 K4 K6 K

½ (15) C C C W W W NA W W
1 (25) C C C W W W NA W W
1½ (40) C C C W W W NA W W
2 (50) C C C W C C W W W
3 (80) C C C W C C W W W
4 (100) C C C W C C W W W
6 (150) C C C CF W W W W CF
8 (200) C C C CF W W W W CF
10 (250) W W W NA W W W W NA
12 (300) W W W NA W W W W NA

C = Nickel Alloy collar and 316 SST lap flange. If weld neck flange is required, V0022 can be ordered. W = Nickel Alloy weld neck flange. CF = Consult Factory NA = Not Available All 8800DR Reducer Vortex Meters with Nickel Alloy materials of construction use weld neck flanges. Flange codes other than those listed in Table 2 all use weld neck flanges.

Rosemount 8800D November 2014

Specifications

Functional specifications

Process fluids

Liquid, gas, and steam applications. Fluids must be

homogeneous and single-phase.

Line sizes

Wafer

1 / 2 , 1, 1 1 / 2 , 2, 3, 4, 6, and 8 inches

(DN 15, 25, 40, 50, 80, 100, 150, and 200)

Flanged and dual-sensor style

1 / 2 , 1, 1 1 / 2 , 2, 3, 4, 6, 8, 10, and 12 inches

(DN 15, 25, 40, 50, 80, 100, 150, 200, 250, and 300)

Reducer

1, 1^1 / 2 , 2, 3, 4, 6, 8, 10, and 12 inches

(DN 25, 40, 50, 80, 100, 150, 200, 250, and 300)

Pipe schedules

Process piping Schedules 10, 40, 80, and 160.

Note

The appropriate bore diameter of the process piping must be

entered using the Field Communicator or AMS ®^ Device

Manager. Meters will be shipped from the factory at the

Schedule 40 default value unless otherwise specified.

Measurable flow rates

Capable of processing signals from flow applications which meet

the sizing requirements below.

To determine the appropriate flowmeter size for an application,

process conditions must be within the Reynolds number and

velocity limitations for the desired line size provided in Table 3,

Table 4, and Table 5.

Note

Consult your local sales representative to obtain a computer

sizing program that describes in greater detail how to specify

the correct flowmeter size for an application.

The Reynolds number equation shown below combines the

effects of density ( r ), viscosity ( m cp), pipe inside diameter (D),

and flow velocity (V).

R

D

VD 

 cp

Table 3. Minimum Measurable Meter Reynolds

Numbers

Meter sizes

(Inches/DN)

Reynolds number

limitations

(^1) / 2 through 4/15 through 100 5000 minimum 6 through 12/150 through 300

Table 4. Minimum measurable meter velocities (1)

(1) Velocities are referenced to schedule 40 pipe.

Feet per second Meters per second

Liquids (2)

(2) This minimum measurable meter velocity is based on default filter settings.

Gases (2)

The  is the process fluid density at flowing conditions in lb/ft 3 for ft/s and kg/m^3 for m/s.

Table 5. Maximum Measurable Meter Velocities (1)

(use the smaller of the two values)

(1) Velocities are referenced to schedule 40 pipe.

Feet per second Meters per second

Liquids

Gases (2)

(2) Accuracy limitations for gas and steam for Dual-style meters ( 1 / 2 -in. to 4-in.): max velocity of 100 ft/s (30.5 m/s).

The  is the process fluid density at flowing conditions in lb/ft 3 for ft/s and kg/m^3 for m/s.

90,000/ or 25 134,000/ or 7.

90,000/ or 300 134,000/ or 91.

Rosemount 8800D November 2014

Load limitations (HART analog)

Maximum loop resistance is determined by the voltage level of

the external power supply, as described by:

Note

HART Communication requires a minimum loop resistance of

250 ohms.

Optional LCD indicator

The optional LCD indicator is capable of displaying:

If more than one item is selected, the display will scroll through

all items selected.

Enclosure rating

FM Type 4X; CSA Type 4X; IP

Permanent pressure loss

The approximate permanent pressure loss (PPL) from the

Rosemount 8800D Flowmeter is calculated for each application

in the Vortex sizing software available from your local

Rosemount representative.

The PPL is determined using the equation:

where:

Minimum downstream pressure (liquids)

Flow metering conditions that would allow cavitation, the

release of vapor from a liquid, should be avoided. This flow

condition can be avoided by remaining within the proper flow

range of the meter and by following appropriate system design.

For some liquid applications, incorporation of a back pressure

valve should be considered. To prevent cavitation, the minimum

downstream pressure should be:

Rmax = 41.7(Vps – 10.8)

V ps = Power Supply Voltage (Volts)

Rmax = Maximum Loop Resistance (Ohms)

HART FOUNDATION fieldbus

Primary Variable Primary Variable Velocity Flow Percent of Range Volumetric Flow Shedding Frequency Mass Flow Electronics Temperature (MTA only) Percent of Range Process Temperature (MTA only) Analog Output Calculated Process Density (MTA only) Totalizer Integrator Output Shedding Frequency Totalizer Pulse Output Frequency Electronics Temperature Process Temperature (MTA only) Calculated Process Density (MTA only)

Power supply (Volts)

Load (Ohms)

Operating Region

PPL = Permanent Pressure loss (psi or kPa)

Where:

r f = Density at operating conditions (lb/ft 3 or kg/m 3 )

Q = Actual volumetric flow rate (Gas = ft^3 /min or m^3 /hr;

Liquid = gal/min or l/min)

D = Flowmeter bore diameter (in. or mm)

A = Constant depending on meter style, fluid type and

flow units. Determined per following table:

Table 6. Determining the PPL

Meter style

English units SI units

A Liquid AGas ALiquid AGas

8800DF/W 3.4 3 10 -5^ 1.9 3 10 -3^ 0.425 118
8800DR 3.91 3 10 -5^ 2.19 3 10 -3^ 0.489 136
8800DD (1)

(1) For all 6-in. thru 12-in. line sizes A is the same for 8800DD and 8800DF

6.12 3 10 -5^ 3.42 3 10 -3^ 0.765 212

P = 2.9P + 1.3pv or P = 2.9P + pv + 0.5 psia (3.45 kPa)

(use the smaller of the two results)

P = Line pressure five pipe diameters downstream of the

meter (psia or kPa abs)

P = Pressure loss across the meter (psi or kPa)

p v = Liquid vapor pressure at operating conditions (psia or

kPa abs)

PPL

A   f  Q^2

D^4

November 2014 Rosemount 8800D

Failure mode alarm

HART analog

If self-diagnostics detect a gross flowmeter failure, the analog

signal will be driven to the values below:

High or low alarm signal is user-selectable through the fail mode

alarm jumper on the electronics. NAMUR-compliant alarm limits

are available through the C4 or CN Option. Alarm type is field

configurable also.

FOUNDATION fieldbus

The AI block allows the user to configure the alarm to HI-HI, HI,

LO, or LO-LO with a variety of priority levels.

Saturation output values

When the operating flow is outside the range points, the analog

output continues to track the operating flow until reaching the

saturation value listed below; the output does not exceed the

listed saturation value regardless of the operating flow. The

NAMUR-Compliant Saturation Values are available through the

C4 or CN option. Saturation type is field configurable.

Damping

Flow Damping adjustable between 0.2 and 255 seconds.

Process Temperature Damping adjustable between 0.4 and 32.

seconds (MTA Option Only).

Response time

Three vortex shedding cycles or 300 ms, whichever is greater,

maximum required to reach 63.2% of actual input with the

minimum damping (0.2 seconds).

Turn-on time

HART analog

Less than four (4) seconds plus the response time to rated

accuracy from power up (less than 7 seconds with the MTA

Option).

FOUNDATION fieldbus

Performance within specifications no greater than 10.0 seconds

after power is applied.

Transient protection

The optional transient terminal block prevents damage to the

flowmeter from transients induced by lightning, welding, heavy

electrical equipment, or switch gears. The transient protection

electronics are located in the terminal block.

The transient terminal block meets the following specifications:

IEEE C62.41 - 2002 Category B

3 kA crest (8 3 20 s)

6 kV crest (1.2 3 50 s)

6 kV/0.5 kA (0.5 s, 100 kHz, ring wave)

Security lockout

When the security lockout jumper is enabled, the electronics

will not allow you to modify parameters that affect flowmeter

output.

Output testing

Current source

Flowmeter may be commanded to set the current to a specified

value between 4 and 20 mA.

Frequency source

Flowmeter may be commanded to set the frequency to a

specified value between 0 and 10000 Hz.

Low flow cutoff

Adjustable over entire flow range. Below selected value, output

is driven to 4 mA and zero pulse output frequency.

Humidity limits

Operates in 0–95% relative humidity under noncondensing

conditions (tested to IEC 60770, Section 6.2.11).

Overrange capability

HART analog

Analog signal output continues to 105 percent of span, then

remains constant with increasing flow. The digital and pulse

outputs will continue to indicate flow up to the upper sensor

limit of the flowmeter and a maximum pulse output frequency

of 10400 Hz.

FOUNDATION fieldbus

For liquid process fluid type, the transducer block digital output

will continue to a nominal value of 25 ft/s. After that, the status

associated with the transducer block output will go to

UNCERTAIN. Above a nominal value of 30 ft/s, the status will go

to BAD.

For gas/steam service, the transducer block digital output will

continue to a nominal value of 220 ft/s for 0.5 and 1.0-in. line

sizes and a nominal value of 250 ft/s for 1.5–12-in. line sizes.

After that, the status associated with the transducer block

output will go to UNCERTAIN. Above a nominal value of 300 ft/s

for all line sizes, the status will go to BAD.

Flow calibration

Meter bodies are flow-calibrated and assigned a unique

calibration factor (K-factor) at the factory. The calibration factor

is entered into the electronics, enabling interchangeability of

electronics and/or sensors without calculations or compromise

in accuracy of the calibrated meter body.

Low 3. High 21. NAMUR Low 3. NAMUR High 22.

Low 3. High 20. NAMUR Low 3. NAMUR High 20.

November 2014 Rosemount 8800D

Typical Flow Ranges

Table 8 - Table 19 show typical flow ranges for some common process fluids with default filter settings. Consult your local sales

representative to obtain a computer sizing program that describes in greater detail the flow range for an application.

Table 8. Typical Pipe Velocity Ranges for 8800D and 8800DR (1)

(1) Table 8 is a reference of pipe velocities that can be measured for the standard Rosemount 8800D and the reducer Rosemount 8800DR Vortex Meters. It does not consider density limitations, as described in tables 2 and 3. Velocities are referenced in schedule 40 pipe.

Process line size

Vortex meter (2)

(2) Velocity range of the Rosemount 8800DW is the same as Rosemount 8800DF.

Liquid velocity ranges Gas velocity ranges

(inches/ DN) (ft/s) (m/s) (ft/s) (m/s)

0.5/ 15 8800DF005 0.70 to 25.0 0.21 to 7.6 6.50 to 250.0 1.98 to 76.

1/ 25 8800DF010 0.70 to 25.0 0.21 to 7.6 6.50 to 250.0 1.98 to 76.

8800DR010 0.25 to 8.8 0.08 to 2.7 2.29 to 87.9 0.70 to 26.

1.5/ 40 8800DF015 0.70 to 25.0 0.21 to 7.6 6.50 to 250.0 1.98 to 76.

8800DR015 0.30 to 10.6 0.09 to 3.2 2.76 to 106.1 0.84 to 32.

2/ 50 8800DF020 0.70 to 25.0 0.21 to 7.6 6.50 to 250.0 1.98 to 76.

8800DR020 0.42 to 15.2 0.13 to 4.6 3.94 to 151.7 1.20 to 46.

3/ 80 8800DF030 0.70 to 25.0 0.21 to 7.6 6.50 to 250.0 1.98 to 76.

8800DR030 0.32 to 11.3 0.10 to 3.5 2.95 to 113.5 0.90 to 34.

4/ 100 8800DF040 0.70 to 25.0 0.21 to 7.6 6.50 to 250.0 1.98 to 76.

8800DR040 0.41 to 14.5 0.12 to 4.4 3.77 to 145.2 1.15 to 44.

6/ 150 8800DF060 0.70 to 25.0 0.21 to 7.6 6.50 to 250.0 1.98 to 76.

8800DR060 0.31 to 11.0 0.09 to 3.4 2.86 to 110.2 0.87 to 33.

8/ 200 8800DF080 0.70 to 25.0 0.21 to 7.6 6.50 to 250.0 1.98 to 76.

8800DR080 0.40 to 14.4 0.12 to 4.4 3.75 to 144.4 1.14 to 44.

10/ 250 8800DF100 0.90 to 25.0 0.27 to 7.6 6.50 to 250.0 1.98 to 76.

8800DR100 0.44 to 15.9 0.13 to 4.8 4.12 to 158.6 1.26 to 48.

12/ 300 8800DF120 1.10 to 25.0 0.34 to 7.6 6.50 to 250.0 1.98 to 76.

8800DR120 0.63 to 17.6 0.19 to 5.4 4.58 to 176.1 1.40 to 53.

Rosemount 8800D November 2014

Table 9. Water Flow Rate Limits for the Rosemount 8800D and 8800DR (1)

Process line size

Vortex meter (2)^

Minimum and maximum measurable water flow rates*

(inches/ DN) Gallons/minute Cubic meters/hour

0.5/ 15 8800DF005 1.76 to 23.7 0.40 to 5. 1/ 25 8800DF010 2.96 to 67.3 0.67 to 15. 8800DR010 1.76 to 23.7 0.40 to 5. 1.5/ 40 8800DF015 4.83 to 158 1.10 to 35. 8800DR015 2.96 to 67.3 0.67 to 15. 2/ 50 8800DF020 7.96 to 261 1.81 to 59. 8800DR020 4.83 to 158.0 1.10 to 35. 3/ 80 8800DF030 17.5 to 576 4.00 to 130 8800DR030 7.96 to 261.0 1.81 to 59. 4/ 100 8800DF040 30.2 to 992 6.86 to 225 8800DR040 17.5 to 576 4.00 to 130 6/ 150 8800DF060 68.5 to 2251 15.6 to 511 8800DR060 30.2 to 992 6.86 to 225 8/ 200 8800DF080 119 to 3898 27.0 to 885 8800DR080 68.5 to 2251 15.6 to 511 10/ 250 8800DF100 231 to 6144 52.2 to 1395 8800DR100 119 to 3898 27.0 to 885 12/ 300 8800DF120 391 to 8813 88.8 to 2002 8800DR120 231 to 6144 52.2 to 1395

*Conditions: 77 °F (25 °C) and 14.7 psia (1.01 bar absolute)

(1) Table 9 is a reference of flow rates that can be measured for the standard Rosemount 8800D and the reducer 8800DR Vortex Meters. It does not consider density limitations, as described in tables 2 and 3. (2) Velocity range of the 8800DW is the same as 8800DF.

Table 10. Air Flow Rate Limits at 59 °F (15 °C)

Process

pressure

Flow

rate

limits

Minimum and Maximum air flow rates for line sizes 1 / 2 -in./DN 15 through 1-in./DN 25

1 / 2 -in./DN 15 1-in./DN 25

Rosemount 8800D Rosemount 8800DR Rosemount 8800D Rosemount 8800DR

ACFM ACMH ACFM ACMH ACFM ACMH ACFM ACMH

0 psig (0 bar G)

max min

Not Available

Not Available

50 psig (3,45 bar G)

max min

Not Available

Not Available

100 psig (6,89 bar G)

max min

Not Available

Not Available

150 psig (10,3 bar G)

max min

Not Available

Not Available

200 psig (13,8 bar G)

max min

Not Available

Not Available

300 psig (20,7 bar G)

max min

Not Available

Not Available

400 psig (27,6 bar G)

max min

Not Available

Not Available

500 psig (34,5 bar G)

max min

Not Available

Not Available