REQUEST A QUOTE

The meter of choice for high pressure saturated and super-heated steam capable of measuring liquid, steam and gas

The Cadillac® Piezo Electric Vortex (CV-P) Meter is a rate and totalizing meter which is capable of measuring liquid, steam and gas. Due to its piezoelectric sensor technology it is particularly suitable for direct high pressure saturated and superheated steam measurement. In any high pressure saturated or superheated steam application, the Cadillac® Vortex meter is the number one technology choice due to Cadillac®’s accuracy, linearity, reliability and rangeability.

Like many other flow meters, the Cadillac® Vortex meter is a velocity measuring device which computes flow by multiplying the effective cross sectional area of the flow meter with the detected fluid velocity. The meter has no moving parts and consists of a rugged vortex strut with embedded piezoelectric crystals and an amplifier assembly. It detects velocity by measuring the frequency of the vortices, as the peel off the vortex strut of the flow meter. The frequency of these “Karman” vortices is directly proportional to the velocity of the moving fluid, whether this is a gas or liquid.

The Cadillac® Piezo Electric Vortex (CV-P) Meter – Mass flow compensation for super-heated steam.

For compressible fluids, such as superheated steam, an external pressure input (4-20 mADC) into the meter electronics is required to provide mass flow computation. Cadillac® Meter also offers a complete line of Pressure elements.

QUICK CONTACT

DOWNLOADABLE DOCUMENTS

Product Summary

Our CV-P Vortex meter employs the use of Piezoelectric crystals as sensors, mounted in the upper portion of the shedder bar out of the flow stream.

APPLICATIONS AND FEATURES

Cadillac®  Vortex CV-P Meter – Applications

The Cadillac® Vortex CV-P Meter is the meter of choice for high pressure saturated and super-heated steam. This meter can be applied effectively for the following purposes:

  • Direct Steam measurements at both boiler and point of use locations.
  • Super heat steam applications where extreme pressures/temperatures exist.
  • All compressible fluids such and Air, Natural gas, Steam and others.
  • No conductive fluids where Magnetic flow meters will not operate.
  • Energy measurements where compressible media is being measured.

Cadillac®  Vortex CV-P Meter – Features

Cadillac® Vortex CV-P Meter includes the following features:

Accuracy

+/- 0.75% of reading for liquids

+/-1.0% of the reading for liquids, gas, and steam.

No start-up tuning 

Automatically selects the optimum settings even in noisy environments

Advanced self-diagnostics

Analysis of the process allows true condition based maintenance and adjustments.

Clear parallel two line LCD display

Displays simultaneous flow rate and total along with process diagnostics

Dual outputs

Simultaneous analog (4-2 mADC) and pulse outputs

Multivariable Option (MASS)

With Mass feature integral temperature sensor (PT1000) mbedded in shedder bar. Electronics provided with saturated steam tables and ideal gas values for other compressible media.

Rangeability

With seasonal steam load variation, the need for a large turndown is essential. Cadillac® Vortex Meters will accurately measure all load requirements with proper sizing. Typical 20 to 1 turndown or better.

Longevity

With no moving parts and through simple robust design the MTBF of the shedder bar is 50 years. With proper system maintenance Cadillac® Vortex Meters will provide reliable, accurate service beyond all flow technologies.

OPERATION PRINCIPLES

Cadillac®  Vortex CV-P Meter – Operation Principles

Cadillac®  Vortex CV-P Meter  includes the following features:

The “Karman” vortex meter principle is clearly illustrated by a flag waving in the wind. As the air passes across the flag pole, vortices peel off and the flag is shaped by these pressure areas. You will notice that, at low wind velocity, the flag will move slowly from side to side. As the wind increases, the flag will start to flutter and ripple, representing the increased frequency and intensity of these flag pole generated vortices as they pass. Wind velocity can thus be determined by measuring the frequency of that flutter.

The shedder bar of the Cadillac® Vortex Meter is a solid piece of metal machined into a shape to maximize the strength of the vortex. As this vortex peels off, it temporarily causes a low-pressure area on one side, which puts sideways stress on the shedder bar. This stress is detected by embedded pressure sensitive piezoelectric crystals, which produce a voltage spike when compressed. By detecting and counting the frequency of these spikes, we can establish fluid velocity. Each vortex meter is tested to determine the relationship between velocity/flow rate and vortex frequency, which results in a meter K-factor expressed in “Pulses/Gallon”. This volumetric relationship is then converted to relative engineering units, which the flow meter converter can then retransmit via a 4-20 mADC current signal or conditioned pulse.

An optional LCD Indicator/Totalizer can display and totalize in engineering units of the users choice. For compressible mediums, such as gases and steam, the meter amplifier can correct for temperature and pressure with the MASS option, which includes a temperature element in shedder bar and look up tables for ideal gases and steam. For mediums other than saturated steam an external pressure source must be provided as shown in the drawing below. Outputs from the meter with the MASS option are compensated and linear for the compressible medium being measured.

DIMENSIONS AND SPECS

Cadillac®  Vortex CV-P Meter – Dimensions

Cadillac®  Vortex CV-P Meter  dimensions are outlined below:

 

Flanged Meter Size (inches)
0.5″ 1.0″ 1.5″ 2.0″ 3.0″ 4.0″ 6.0″ 8.0″ 10.0″ 12.0″ 16.0″
Dia “A”
(Face to Face)
5.12″ 5.91″ 5.91″ 6.69″ 7.87″ 8.66″ 10.63″ 12.20″ 14.57″ 15.75″ TBA
Dia “B”
(Center to Center)
7.52″ 7.60″ 7.87″ 8.74″ 9.41″ 10.00″ 10.75″ 12.00″ 13.43″ 14.61″ TBA
Dia “C”
(Meter ID)
0.50″ 1.00″ 1.50″ 2.00″ 3.00″ 4.00″ 6.00″ 8.00″ 10.00″ 12.00″ 16.00″
Weight ANSI Class 150lb 10lbs 15lbs 19lbs 27lbs 45lbs 61lbs 81lbs 125lbs 200lbs 310lbs TBA
Weight ANSI Class 300lb 10lbs 17lbs 21lbs 30lbs 53lbs 80lbs 121lbs 180lbs 275lbs 395lbs TBA

 

Cadillac®  Vortex CV-P Meter – General Specifications & Sizing

Cadillac® Vortex CV-P Meter includes the following specifications:

  • Meter will consist of a full-bore body, vortex shedding bar and remote or integral electronics.
  • Meter available with local or remote indication or blind housings.
  • Meter available with pulse or analog (4-20 mA) outputs.
  • Instantaneous and totalized flow available at local indicator or remotely through outputs.
  • Meter measures flow using the Karman vortex shedding principle.
  • Vortices induce pulses generated from two piezoelectric crystals hermetically sealed & imbedded in shedder bar.
  • Meter electronics shall be capable of direct MASS flow computation for saturated steam without external inputs.
  • Meter provides one button auto tuning for setting noise immunity circuits.
  • Operating pressure/temperature of meter shall be (Vacuum to 2100 psig)/( -40°F to 500°F)

Cadillac® Vortex CV-P Meter – Sizing Information 

The low-end performance of the meter is a function of the fluid’s ability to generate a vortex, which using ultrasonic technology is at the very threshold of when vortices for a given fluid are shed. This threshold is dependent on fluid velocity, density and Reynolds number. The high end of the flow meter is amplitude limited, which ultimately impacts the electronics ability to distinguish one vortex from another. In most cases, this represents 250 ft. /sec for gases and 33 ft. /sec for liquids.

To guarantee satisfactory performance, we will check every vortex meter application for suitability and will require process medium, pressure, temperature and expected minimum and maximum flow rates. For easy reference, we are providing you with a table (see below) for saturated steam at various pressures. The tables list the minimum and maximum flow capability, between which a flow measurement can be made at stated accuracy. Outside those limits, the accuracy will deteriorate somewhat, the extent of which will depend on the quality of the installation.

Saturated Steam Flow Range Table

Saturated Steam Flow Range Table. (Steam Flow in lbs/hr) Water/Condensate Range Table.
Pipe/Meter
Size
5 PSIG 10 PSIG 20 PSIG 50 PSIG 100 PSIG 150 PSIG Meter
Size
Water
(GPM)
Condensate
(lbs/hr)
Size 0.5″ 13-85 14-105 17-140 23-255 30-435 35-615 0.5″ 1.7-27 800-12800
Size 1″ 30-260 35-325 40-440 55-790 70-1355 80-1915 1″ 3.5-82 1730-396400
Size 1.5″ 60-625 65-765 80-1050 105-1885 135-3235 165-4565 1.5″ 7-196 3540-94600
Size 2 “ 100-1020 110-1265 130-1740 175-3120 230-5360 270-7565 2″ 12-325 5875-156720
Size 3 “ 190-1980 215-2420 250-3355 335-6025 440-10345 520-14600 3″ 24-627 11330-302550
Size 4 “ 335-3450 370-4260 435-5860 580-10500 765-18050 905-25490 4″ 41-1095 19775-528065
Size 6 “ 730-7550 810-9330 950-12830 1275-23000 1670-39540 2095-55810 6″ 80-2400
Size 8 “ 1565-13500 1740-16880 2040-22940 2730-41160 3580-70700 4255-99790 8″ 187-4290
Size 10″ 2825-21000 3140-25800 3680-35470 4930-63650 6460-109300 7675-154300 10″ 330-6630
Size 12″ 4050-30000 4500-3700 5270-50800 7060-91150 9250-156550 10990-221000 12″ 475-9500

INSTALLATION

Cadillac®  Vortex CV-P Meter – Installation

Cadillac®  Vortex CV-P Meter  installation instructions are outlined below.

To ensure proper operation, all Cadillac®  Steam flow meters should be installed with proper flow conditioning. This requires certain minimum upstream and downstream straight piping runs.

In many steam systems the meter body size will be reduced for optimum meter performance and rangeability. This requires a reducing spool piece as illustrated.

With either reducer or expander piping ensure the upstream pipe length to be ten nominal pipe  diameters or more, and downstream straight pipe to be five nominal pipe diameters or more.

MODEL CODE

Vortex CV-P Meter

Related Articles

Truth in Specsmanship, Part 1

Truth in Specsmanship, Part 1

Most of today’s flow technologies (paddle wheel, turbines, orifice plates, variable area, pitot tube, vortex, and magnetic) are volumetric, meaning that these devices measure velocity and then calculate volume by using a known cross section area (Velocity...

GET A FREE QUOTE FOR YOUR NEEDS