Surveillance débit ultrasonique pour canalisation ouverte/Open Flow Channel/Greyline

Continuously monitor, display, totalize and data log flow through any flume or weir. The OCF-IV includes a non-contacting ultrasonic sensor that mounts just 8" (203.2 mm) above the flowing water. It is accurate (±0.25%) and reliable. There is no obstruction to flow and no fouling. Use the built-in Keypad/menu system to select your flume or weir from the Menu and to choose measurement units (gallons, liters etc.)

The Greyline OCF-IV includes built-in 50,000 point Data Logger and flow reporting system. Retrieve data logs with 'Greyline Logger' software – included free with each OCF-IV. Connect the RS232 output directly to the serial port on your PC or Laptop, or by dial-up connection through modems and phone lines.

Use the isolated 4-20mA to transmit flow to remote chart recorders or displays, and the 3 control relays are programmable for level/flow alarm, and flow proportionate pulse (for samplers, chlorinators or remote totalizers). An intrinsically safe sensor is optional. The separate, watertight electronics/display enclosure is mounted at a convenient location within 500 ft (150 m) of the sensor.

New!

Store and Retrieve Flow or Level data with this built-in Data Logger

Displays Logs in Graph and Table format with your choice of engineering units

Exports data to Spreadsheet or Database programs

Greyline Data Logger Features:

50,000 date and time-stamped data point capacity
Multi session capability - stores up to 10 separate logging "sessions"
Includes "Greyline Logger" software for Windows™
Isolated RS232 serial output with selectable baud rates from 1200 to 19,200
Retrieve Data Logs by modem or by direct PC connection
Log Flow or Level values from 1 second to 30 minute intervals
Log reports including Minimum, Maximum, Average and Total in your choice of 1-24 hour intervals

Each Greyline Instrument with built-in Data Logger includes an isolated RS232 serial output, terminal connections, cable and adapters. Connect directly to the serial port on your PC or Laptop, or by dial-up connection through modems and phone lines.

Run the Greyline Logger software program to retrieve and display data logs on your computer. Display multiple files or "sessions" in both graph and table formats. Log files can be exported in graphic file formats or as delimited text files for use in spreadsheet or database programs.

Greyline Logger software runs on any PC with Windows 95, 98 or NT.

Ultrasonic Level

Greyline ultrasonic sensors are mounted at the top of a tank or in a position above the liquid being measured. The sensor continuously transmits pulses of high frequency sound (typically 42 kHz) which travel away from the sensor, hit the surface of the liquid and return to the sensor.

The instrument electronics measure the time it takes from transmitted sound to return of the echo. With reference to the speed of sound in air, the exact distance of the liquid surface from the sensor can be calculated with high accuracy (±0.25% of maximum range).

Since the speed of sound is affected by air temperature, Greyline ultrasonic level sensors include a built-in temperature sensor. Level/distance measurements are automatically temperature compensated throughout the operating temperature range of the sensor.

The sensor should be positioned so that it has an clear "view" of the liquid surface and away from ladders, pipes or other obstructions. Greyline recommends 1 ft. from the sidewall for every 10 ft. depth (300 mm for every 3 m depth). False echoes from agitators (sweeping under the sensor), turbulence and waves can be filtered and disregarded by the instrument.

Greyline models range from simple 4-20mA level indicating transmitters, to sophisticated monitoring, controlling and logging models.

Open Channel Flow

The common method of measuring flow through an open channel is to measure the height or HEAD of the liquid as it passes over an obstruction (a flume or weir) in the channel. Using ultrasonic level technology, Greyline open channel flow meters include a non-contacting sensor mounted above the flume or weir. By measuring the time from transmission of an ultrasonic pulse to receipt of an echo, the water level or "Head" is accurately measured.

Flumes and weirs are specially designed channel shapes that characterize the flow of water. Common types are Rectangular Weirs, V-Notch Weirs, Parshall flumes and Palmer Bowlus flumes. The choice of flume or weir type depends on the application: flow rate, channel shape and solids content of the water. Contact Alpha Controls for advice on selection of a suitable flume or weir for your application.

Greyline open channel flow meters can be calibrated to any flume or weir by menu selection. The open channel flow meter electronics use an internal formula to calculate flow rate (Flow = K Hⁿ, where 'K' and 'n' are constants and 'H' is Head as measured by the instrument). Calibration to uncommon or custom flumes can be done by direct entry of 'K' and 'n' constants. Greyline also offers a PC software program "Find K&n" to develop calibration constants from a flume or weir flow chart.

Greyline open channel flow meters include a non-contacting ultrasonic sensor, connecting cable and an electronics enclosure which can be mounted at a convenient location nearby (within 500 ft / 152 m). Sensors can be rated intrinsically safe for mounting in hazardous-rated locations. The instruments display, totalize, transmit and control, and some models include data logging/flow reporting systems.

Area-Velocity Flow

Measure open channel flow without a flume or weir.

Doppler Flow

Doppler flow meters measure flow from outside a pipe with a strap-on sensor. Greyline Doppler meters continuously transmit high frequency sound (640 kHz) that travels through the pipe wall and into the flowing liquid. Sound is reflected back to the sensor from solids or bubbles in the fluid. If the fluid is in motion, the echoes return at an altered frequency proportionate to flow velocity. Doppler flow meters continuously measure this frequency shift to calculate flow.

The Doppler effect was first documented in 1842 by Christian Doppler, an Austrian physicist. We hear everyday examples of Doppler: the sound of a train whistle changing pitch as it passes by, or the exhaust noise from a race car as it speeds past our location.

The Doppler technique only works on liquids which contain solids or gas bubbles to reflect its signal. These are "difficult" liquids that may damage regular flow meters: slurries, sludge, wastewater, abrasives, viscous and corrosive chemicals. Because the sensor mounts on the outside of the pipe, there is no pressure drop and no obstruction to flow.

For best performance Doppler sensors should be mounted away from turbulence creating devices like pipe elbows and tees, and away from velocity increasing devices like controlling valves and pumps. Typical accuracy is ±2% of full scale.

Doppler instruments include a strap-on sensor, connecting cable and an electronics enclosure which can be mounted at a convenient location nearby (within 500 ft / 152 m). Sensors can be rated intrinsically safe for mounting in hazardous-rated locations.

Greyline OCF-IV Open Channel Flow Monitor

Standard features include:

sensor - Model PZ12, PVC
sensor cable - 25 ft / 7.6 m RG62AU coaxial
enclosure - watertight NEMA4X (IP66) polycarbonate
calibration - to any flume or weir with built-in 3-button programmer, password protected
displays - Flow/Level values - large 4-digit LCD Totalizer/Menu/Status - 16-digit alphanumeric
temperature compensation - automatic
outputs - RS-232C, isolated 4-20mA (1000 ohm)
data logger - 50,000 point with multi-session and flow report capability
PC software for data log retrieval by direct serial connection, or by dial-up connection with modems and telephone lines
1 PC software utilities disk and RS-232C cable
3 relays - programmable flow alarm, flow proportional, failsafe/echo-loss
electrical surge protection - AC, sensor, 4-20mA - power input
100-130VAC 50/60Hz, 7.5 watts maximum
1 Manual - Installation and Operation

OPEN CHANNEL FLOW MONITOR SPECIFICATIONS

SCOPE: This specification covers an ultrasonic, echo-ranging type open channel flow meter as manufactured by Greyline Instruments, Massena, New York / Long Sault, Ontario. This instrument shall provide for indicating, transmitting, totalizing and data logging of the flow rate through a flume, weir, or other primary measuring device.

A. GENERAL

Flow Monitor to consist of an non-contacting ultrasonic sensor, connecting cable, and a remote enclosure with indicating, transmitting, controlling and data logging electronics.
Measurement accuracy shall be ±0.25% and shall be automatically temperature compensated.
Sensor cable length shall be as required by installation, not to exceed 500 ft (152 m).
System shall have no moving parts and shall not contact flowing water.

B. SENSING ELEMENT

Sensor shall withstand accidental submersion to 20 psi.
Sensor minimum range shall be 8" (203.2 mm) and maximum range shall be 12 ft (3.66 m).
Sensor shall be constructed of PVC.
Sensor operating temperature shall be from -40°F to 150°F (-40°C to 65°C).
Sensor shall include integral temperature sensor. Temperature sensors requiring separate mounting and wire runs shall not be accepted.

C. SENSOR CONNECTING CABLE

Provide RG62AU coaxial cable, minimum length 25 ft (7.6 m), with waterproof, potted bond to the Sensor head.
Level and temperature signals shall be conducted on one single coaxial cable. Separate or multiple-conductor cables shall not be accepted.
Extended sensor cable shall be RG62AU coaxial to a maximum of 500 ft (152m). Cable shall be spliced with screw terminal connections in manufacturers recommended steel NEMA4 Junction Box.
Sensor cable shall be installed in grounded metal conduit.

D. TRANSMITTER

The transmitter shall provide for field calibration to common primary metering devices, plus allow entry of "K" and "n" values for calibration to nonstandard flumes, weirs or open channels.
Field-calibration shall be via built-in 3-key calibration system with menu selection of parameters. Systems requiring calibration by Parameter codes, BCD switches or external calibrators shall not be accepted.
Calibration data shall be password protected and permanently stored through power interruptions for a minimum of 12 months.
Field calibration shall allow selection and automatic conversion of measurement units, measurement span, high/low flow alarm relay and flow proportional relay pulse rates.
Transmitter shall permit field programmable damping to smooth output in turbulent flow conditions, and programmable rejection time to disregard false signals from rain, wind, floating objects and spurious echoes.
Transmitter operating temperature shall be from -5° to 140°F (-20° to 60°C). Transmitter shall contain a thermostat-controlled enclosure heater for condensation protection below 30°F (-1°C).
Have a built-in 50,000 point data logger, RS232C serial output and connecting cables. Data logger shall support time and date-stamped logging and generate formatted flow reports including total, average, minimum, maximum and times of occurrence.
Include Windows software for data log retrieval, graphing and export.
Transmitter shall have an isolated 4-20mA output into a 1000 ohm maximum load. Output shall allow field programmable offsets of 4mA and 20mA.
Provide 3 relay contacts rated 5 amp SPDT programmable to operate a remote totalizer, a sampler, high-low flow alarm plus echo loss alarm.
Provide a 4-digit LCD display scaled in user-selected engineering units and visible without opening the Transmitter enclosure.
Provide a 16-digit alphanumeric display for calibration menu, running totalizer, flow reports, or error message display of echo loss or other fault conditions.
Transmitter shall be housed in a wall-mount, watertight NEMA4X (IP66) enclosure with hinged, clear cover. Mounting hardware shall be included.
Transmitter Displays indicating flow rate, units of calibration, maximum flow rate and flow totalizer shall be visible without opening cover.
Transmitter electronics shall be surge protected on AC power input, sensor and 4-20 mA output.
Transmitter power input shall be 115VAC 50/60Hz with power consumption of 7.5 watts or less.

E. OPTIONAL FEATURES FOR INSERTION AS REQUIRED

Electronics enclosure shall include an Intrinsic Safety Barrier. Sensor, connecting cable and junction boxes shall be rated intrinsically safe to Class I,II,III, Div. I,II, Groups C,D,E,F,G.
Have a thermostat controlled enclosure heater for Transmitter operation at temperatures below freezing.
Have manufacturer's recommended enclosure sunscreen to permit Electronics enclosure mounting in direct sunlight.
Have manufacturer's recommended Sensor sunscreen to permit temperature-compensated Sensor mounting in direct sunlight.
Have manufacturer's recommended sensor mounting stand.
Transmitter power input shall be 200-260VAC 50/60Hz with maximum power consumption of 7.5 watts or less.
Transmitter power input shall be 24VDC with maximum power consumption of 6.5 watts or less.
Transmitter power input shall be 12VDC (battery power) with maximum power consumption of 6.5 watts or less.

F. MANUFACTURER

Open Channel Flow Monitor shall be Greyline Model OCF-IV and warranted against defects in materials and workmanship for one year.

	OCF-IV Electrical Connections Diagram (36KB Adobe Acrobat file)
	PZ12 Sensor Dimensions, Specifications and Mounting (65KB Adobe Acrobat file)
	Sensor mounting for Open Channel flow applications (46KB Adobe Acrobat file)
	OCF-IV User's Guide (550KB Adobe Acrobat file)
	OCF-IV Brochure (199KB Adobe Acrobat file)