PENTAIR ENVIRONMENTAL SYSTEMS MODEL 2020 ELECTROMAGNETIC FLOWMETER CLOUD BASED DAT A IRRIGATION AUTOMATION REMOTE MONITORING WATER MEASUREMENT
PENTAIR ENVIRONMENTAL SYSTEMS
MODEL 2020 ELECTROMAGNETIC FLOWMETER
CLOUDBASED DATA
IRRIGATIONAUTOMATION
REMOTEMONITORING
WATERMEASUREMENT
02 AQUAMONIX
FEATURES
• The 2020 flow detector uses the well
proven electromagnetic method
of measurement, which applies
Faraday’s Law as the principle of
operation.
• ABS tube and housing.
• High accuracy.
• No moving parts.
• Wide operating range.
• No obstruction to the flow.
• Little to no pressure loss.
• A choice of electrodes to suit the
process.
• Variety of flange types available.
• Robust construction.
• Submersible to 1.5 metres (5 feet)
of water.
• Suitable for buried service.
• Minimal straight pipe requirements.
• Remotely mounted electronics.
• On powered sites used with the
M300 transmitter which features
multiple outputs and flexible
programming.
• On non-powered sites used with
the I300 or I500 battery powered
transmitter with solar recharge.
GENERAL APPLICATIONS• Irrigation flow measurement.
• Water production and distribution.
• Effluent discharge.
• Selected chemical applications.
INSTALLATION REQUIREMENTSDetectorMounts directly into the process pipeline and can be installed in horizontal, vertical or sloped pipelines. The preferred axis of the detector measuring electrodes is horizontal.
Note: For accurate flow measurement the flow detector must always be full.
ASSOCIATED FLOW TRANSMITTERCan be located remotely from the detector. Model M300 up to 100 metres. Model I300 or I500 up to 30 metres.
MODEL 2020 ABS BODY FLOWMETERThe 2020 ABS Body Flowmeter, used with either our M300 or I300/I500 flow transmitters, is ideally suited to accurately measure the flowrate of a wide variety of conductive process liquids, water, wastewater.
I300/I500 Solar-powered Transmitter
M300 Transmitter (for powered sites)
03AQUAMONIX
NOMINAL BORE MIN FLOW RANGE M300 & I300 L/SEC (GAL/MIN)
MAX FULL SCALE M300 L/SEC (GAL/MIN)
MAX FULL SCALE I300 L/SEC (GAL/MIN)ØA B K D C
50 (2) 240 (9.45) 100 (3.94) 360 (14.17) 130 (5.12) 0–1.0 (0–15.5) 20 (317) 10 (158)
80 (3) 240 (9.45) 100 (3.94) 400 (15.75) 130 (5.12) 0–2.5 (0–39.6) 50 (792) 25 (396)
100 (4) 260 (10.24) 105 (4.13) 420 (16.54) 145 (5.71) 0–4.0 (0–63.4) 78 (1,236) 40 (634)
150 (6) 325 (12.80) 135 (5.31) 520 (20.47) 175 (6.89) 0– 8.9 (0–141.0) 176 (2,790) 88 (1,393)
200 (8) 364 (14.33) 152 (5.98) 610 (24.02) 201 (7.91) 0–15.7 (0–248.9) 314 (4,977) 157 (2,486)
250 (10) 417 (16.42) 179 (7.05) 750 (29.52) 228 (8.98) 0–24.5 (0–388.3) 491 (7,782) 245 (3,883)
300 (12) 456 (17.95) 199 (7.83) 818 (32.20) 251 (9.88) 0–35.3 (0–559.5) 707 (11,206) 353 (5,595)
375 (15) 500 235 900 NA 0–50 2475 1237
450 (18) 550 292 1150 NA 0–75 3556 1778
Note: Dimensions are nominal to ± 2mm (or ± 0.08 in), gal = US gallon
SPECIFICATIONS
Sizes 50 mm–300 mm
Metering Tube ABS Plastic
Electrodes 316 S/S as standard Hastelloy ‘C’ Specials available on request
Earthing Ground Electrodes 316 S/S fitted as standard Other ground electrode materials available
Process Flange Slip-ring galvanised fittings, optional stainless steel
Connections AS2129 D/E, ANSI 150 Spigot and gilbault connections Others available on request
Pressure Limitations 50 mm (2 in) = 1500 kPa at 20°C (68°F) 80 mm (3.2 in) = 1200 kPa at 20°C (68°F) 100–200 mm (4 in–8 in) = 1200 kPa at 20°C (68°F) 250 mm (10 in) = 1200 kPa at 20°C (68°F) 300 mm (12 in) = 900 kPa at 20°C (68°F)
Temperature Limitations
60°C (140°F) maximum
Environmental Protection
IP68 or Nema 4 to 5 m (15 feet)
Housing Composite Material, ABS
Note: Above dimensions are based on flanged style meters. For meters with spigot ends, the length is reduced. See the table below.
ØA PER SPIGOT FOR SPIGOT ON EACH END
50 3 mm (0.12 in) 6 mm (0.24 in)
80 5 mm (0.19 in) 10 mm (0.38 in)
100 5 mm (0.19 in) 10 mm (0.38 in)
150 8 mm (0.31 in) 16 mm (0.62 in)
200 6 mm (0.24 in) 12 mm (0.48 in)
250 60 mm (2.36 in) 120 mm (4.72 in)
300 60 mm (2.36 in) 120 mm (4.72 in)
TYPICAL SPECIFYING SEQUENCE
Example EM2020 - 080 AD AD S XUsed with TransmitterIR2020 = for use with I300EM2020 = for use with M300Size mm (in)050 (2)080 (3.5)100 (4)150 (6)200 (8)250 (10)300 (12)Process Connection – UpstreamAD = AS2129 flange (Table ‘D’) (Std)AE = AS2129 flange (Table ‘E’)C1 = ANSI 150 flangeSE = Spigot EndZZ = Special (detail in text)Process Connection – DownstreamAs aboveElectrode MaterialS = Stainless 316 (Std)H = Hastelloy ‘C’Z = Special (detail in text)Pipe not full ElectrodeX = NoneS = Stainless 316 (Std)H = Hastelloy ‘C’K = Special (detail in text)
TECHNICAL DATA
ACCURACY M300 I300
Display and Outputs
0.2% of rate or 1 mm/sec (0.04 in/sec) whichever is greater
1% of rate or 2 mm/sec (0.08 in/sec) whichever is greater
Velocity Range: 0.01 to 10.0 m/sec (0.03 to 33 ft/sec)
<0.03 to >5.0 m/sec (<0.1 to >16.4 ft/sec)
Turndown from Full Scale:
>1000:1 >166:1
Pressure Effects: Negligible effect Negligible Effect
Repeatability: <0.05% <0.1%
Power Supply Variations:
Negligible Negligible
Note: Under reference conditions
DIMENSIONSin mm and (inches)
HOW TO ORDER
PENTAIR ENVIRONMENTAL SYSTEMS
MODEL 2030 IRRIGATION FLOWMETER
CLOUDBASED DATA
IRRIGATIONAUTOMATION
REMOTEMONITORING
WATERMEASUREMENT
02 AQUAMONIX
FEATURES• Operates on batteries with solar
power recharge.
• No obstruction in flow path, no moving parts.
• Extremely low headloss.
• Broad operating range.
• Simple installation.
• Tamper-proof design.
• Each Irriflow flowmeter is supplied with a 3 point calibration certificate, traceable to national standards.
• Pit Mount – Designed to be attached to a discharge headwall with the flowmeter ID similar to the discharge pipe, therefore producing no appreciable head loss.
• No Mounting Tabs – Designed for encasement into piping systems.
GENERAL APPLICATIONSThe Irriflow uses the well proven electromagnetic method of measurement, which applies Faraday’s Law as the principle of operation. This technique features a straight through section of pipe with no obstruction to restrict flow, and no moving parts to wear or break.
SYSTEM CONFIGURATIONThe Emflux 2030 consists of two main components, the Detector (primary element) and the Transmitter (secondary).
The Detector installs into a pipe and provides a linear, low level signal proportional to flow.
The Transmitter mounts remotely from the detector. It accepts the low level signal from the detector and converts it into industry standard outputs, as well as displaying flowrate and total flow.
To conserve power, the system periodically samples the flowrate. The reading and outputs are held until the next sample which is updated every 1 to 60 minutes (programmable). The reading may be manually updated by simply pressing a display button. This would typically occur when setting or adjusting flowrate.
SYSTEM ACCURACY• Better than ±2.5% over the flow
range 0.5 ML/day – 40 ML/day.
INSTALLATION REQUIREMENTSThe IR2030 series requires a minimum of five diameters, of straight pipe or 1 length between pits, upstream of the meter and a minimum 600 mm (23.6 in) of clear area at the downstream end. The meters must remain full for proper operation.
IRRIGATION FLOWMETERDesigned to meet the specific requirements of open channel irrigation schemes, the ‘Irriflow’ is a high performance flowmeter for farm offtakes.
Designed for Dethridge Meter Replacement
I300 Solar-powered Transmitter
Flow detector
03AQUAMONIX
EMFLUX 2030 SPECIFICATION
DETECTOR SPECIFICATIONS
Wetted materials: 304 stainless steel housing 316 stainless steel electrodes Insulating rubber liner
Head loss Negligible (application specific)
Cable 5 to 30 metres (16 to 98 feet) fitted and potted
TRANSMITTER SPECIFICATIONS
Displays 2 line alphanumeric LCD
Flow rate in: Megalitres per day × 0.1 Metres per second × 0.1 Litres per second × 0.1
Flow total in: Battery volts Solar panel volts
Megalitres × 0.001, cubic metres
Outputs 4.20 mA, externally powered (option) Digital pulse open collector Frequency Serial MODBUS
Flowrange 0.5 to 40 megalitres (0.1 to 11.5 million US gallons per day). Maximum flow is determined by available head,
Power supply 12 V DC from battery with solar recharge
Enclosure Stainless steel, IP65 weatherproof 300 H × 200 D × 245 W with sunshield and 50 mm pipe mount
IR2030 SIZE AND WEIGHT
SIZE I/D(MM) O/D (MM) H (MM) L (MM) WT (KGS)
450 445 558 375 600 70
470 470 585 388 600 72
485 485 600 396 600 76
600 600 714 453 600 91
(Refer Emflux I300 brochure for more details).
HOW TO ORDER
TYPICAL SPECIFYING SEQUENCE
Example: IR2030 450 PM 2 S F R
Model
IR2030 = for use with I300
Size (all 600mm long)450 = ID 445 mm, OD 558 mm
470 = ID 470 mm, OD 585 mm
485 = ID 485 mm, OD 600 mm
600 = ID 600 mm, OD 714 mm
Process Connection (Upstream)NM = No Mounting Tabs
EM = End Mount
IM = Insertion Mount
PM = Pit Mount
Front Tab1 = No D/S Tab
2 = With D/S Tab
ElectrodesS = 316SS
PottingF = Potting (Cable must be ordered separately)
Transmitter LocationR = Remote
SYSTEM COMPONENTS
1 Upstream entry Pit
2 Connecting Pipe - RCP
3 Irriflow Solar Powered Transmitter
4 Mag Flow Meter Model 2030
5 Downstream exit Pit
6 Flow Control Gate or Penstock
7 Operating Head Loss
8 Downstream Sill
PENTAIR ENVIRONMENTAL SYSTEMS
MODEL 2060 ELECTROMAGNETIC FLOWMETER
CLOUDBASED DATA
IRRIGATIONAUTOMATION
REMOTEMONITORING
WATERMEASUREMENT
02 AQUAMONIX
FEATURES• The 2060 flow detector uses the
well proven electromagnetic method of measurement, which applies Faraday’s Law as the principle of operation.
• No moving parts
• High accuracy
• Wide operating range
• No obstruction to the flow
• Little to no pressure loss
• Liners to suit chemical or abrasive applications.
• A choice of electrodes to suit the process
• Variety of flange types available
• Robust construction
• Steel welded construction
• Submersible to 10 metres of water
• Suitable for buried service
• Minimal straight pipe installation requirements
• Remotely mounted electronics
• On powered sites used with the M300 transmitter which features multiple outputs and flexible programming
• On non-powered sites used with the I300 or I500 battery-powered transmitter with solar recharge.
GENERAL APPLICATIONS• Water production and distribution.
• Waste water monitoring and treatment.
• Irrigation flow measurement.
• Mining slurries.
• Effluent discharge.
• Pulp and paper applications.
INSTALLATION REQUIREMENTSDetectorMounts directly into the process pipeline and can be installed in horizontal, vertical or sloped pipelines. The preferred axis of the detector measuring electrodes is horizontal.
Note: For accurate flow measurement the flow detector must always be full.
Recommended installation requirements are 5 diameters of straight pipe section upstream and 3 diameters downstream.
Associated Flow TransmitterCan be located remotely from the detector. Model M300 up to 100 metres. Model I300 or I500 up to 30 metres.
MODEL 2060 STEEL-BODY FLOWMETERThe 2060 steel-bodied flow detectors offer the strength and durability of steel with a choice of chemical or abrasive resistant liners.
M300 Transmitter (for powered sites)
I300 or I500 Transmitter
(solar-powered)
DIMENSIONSin mm and (inches)
03AQUAMONIX
HOW TO ORDER
TYPICAL SPECIFYING SEQUENCE
Example: EM2060 D1 1 S X S FEM = M300 or IR = I300Size (mm)5080100150 to 1000FlangedAD = AS2129 Table DAE = AS2129 Table EB1 = BS4504-10B2 = BS4504-16B3 = BS4504-25C1 = ANSI 150C2 = ANSI 300D1 = AS4087-16D2 = AS4087-21D3 = AS4087-35Lining Material1 = Hard Ebonite Rubber2 = (Not Available)3 = Neoprene4 = Linatex5 = PolyurethaneElectrodesS = 316SSH = Hastelloy ‘C’T = Tungsten TippedEarthingX = NoneS = 316SSH = Hastelloy ‘C’T = Tungsten TippedD = 304SS Discs Pipe Not FullX = NoneS = 316SSH = Hastelloy ‘C’T = Tungsten TippedPottingX = No PottingF = Potting (Cable must be ordered separately)
SPECIFICATIONS
Sizes 50 mm–1000 mm (2–40 inch) NB
Metering Tube 304 Stainless steel
Lining Hard Ebonite Rubber, Basalt, Neoprene, Linatex, Polyurethane Specials available on request
Electrodes 316 S/S as standard, Hastelloy ‘C’ Tungsten tipped, Specials available on request
Earthing Ground Electrodes Discs or contra flanges are available on request
Process Flange Wide range available
Pressure Limits Limited by flange rating
Temperature Limitations
Dependent on Liner selection, Hard Ebonite Rubber = 80°C (176°F)
Environmental Protection
IP68 to 10 metres (33 feet)
Housing All steel welded case with two part epoxy coating
TECHNICAL DATA AND SPECIFICATIONS
ACCURACY M300 I300
Display and Outputs
0.2% of rate or 1 mm/sec (0.04 in/sec) whichever is greater
1% of rate or 2 mm/sec (0.08 in/sec) whichever is greater
Velocity Range: 0.01 to 10.0 m/sec (0.03 to 33 ft/sec)
<0.03 to >5.0 m/sec (<0.1 to >16.4 ft/sec)
Turndown from Full Scale:
>1000:1 >166:1
Pressure Effects: Negligible effect Negligible Effect
Repeatability: <0.05% <0.1%
Power Supply Variations:
Negligible Negligible
Note: Under reference conditions
NOMINAL BORE MIN FLOW RANGE M300 & I300 L/SEC (GAL/MIN)
MAX FULL SCALE M300 L/SEC (GAL/MIN)
MAX FULL SCALE I300 L/SEC (GAL/MIN)ØA B C D
50 (2) 231 (9.09) 216 (8.50) 360 (14.17) 0–1 (0–16) 20 (317) 10 (158)
80 (3) 231 (9.09) 216 (8.50) 360 (14.17) 0–2.5 (0–39) 50 (792) 25 (396)
100 (4) 231 (9.09) 216 (8.50) 360 (14.17) 0–4 (0–63.4) 78 (1236) 40 (634)
150 (6) 316 (12.44) 258 (10.16) 429 (16.89) 0–8.8 (0–139) 176 (2789) 88 (1395)
200 (8) 373 (14.61) 287 (11.30) 429 (16.89) 0–15.7 (0–249) 314 (4977) 157 (2488)
225 (9) 400 (15.75) 300 (11.81) 429 (16.89) 0–20 (0–317) 397 (6293) 200 (3170)
250 (10) 421 (15.57) 311 (12.24) 429 (16.89) 0–25 (0–396) 490 (7767) 245 (3883)
300 (12) 479 (18.86) 340 (13.39) 471 (18.54) 0–35 (0–555) 707 (11206) 353 (5595)
350 (14) 582 (22.91) 391 (15.39) 543 (21.38) 0–49 (0–777) 962 (15248) 481 (7624)
375 (15) 607 (23.90) 417 (16.42) 582 (22.91) 0–56 (0–888) 1104 (17499) 552 (8749)
400 (16) 634 (24.96) 417 (16.42) 582 (22.91) 0–63 (0–999) 1256 (19909) 628 (9954)
450 (18) 685 (26.97) 443 (17.44) 607 (23.90) 0–80 (0–1268) 1590 (25202) 795 (12601)
500 (20) 736 (28.98) 468 (18.43) 683 (26.89) 0–100 (0–1585) 1963 (31114) 982 (15565)
600 (24) 838 (32.99) 520 (20.47) 785 (30.91) 0–141 (0–2235) 2827 (44808) 1414 (22412)
700 (28) 940 (37.01) 570 (22.44) 937 (36.89) 0–193 (0–3059) 3848 (60992)
800 (32) 1040 (40.94) 620 (24.41) 1050 (41.34) 0–251 (0–3978) 5026 (79664)
900 (36) 1140 (44.82) 670 (26.38) 1180 (46.46) 0–318 (0–5040) 6362 (100840)
1000 (40) 1245 (49.02) 723 (28.47) 1310 (51.57) 0–393 (0–6229) 7854 (124488)
Note: Dimensions are nominal to ± 1 mm. For other liner materials, consult the factory. Dimension D is based on Standard Hard Ebonite Rubber Lining. gallons = US gallons.
PENTAIR ENVIRONMENTAL SYSTEMS
EMFLUX I300/I500 BATTERY OR SOLAR-POWERED TRANSMITTER
CLOUDBASED DATA
IRRIGATIONAUTOMATION
REMOTEMONITORING
WATERMEASUREMENT
02 AQUAMONIX
FEATURES• Uses the well proven
electromagnetic method of measurement, which applies Faraday’s Law as the principle of operation.
• Operates on batteries and a solar panel
• High accuracy
• Multiple outputs
• Pulse
• Frequency
• 4–20 mA
• Serial comms at TTL level
• Radio ready
• Integral keypad for configuration and operation with password protection
• Simple set-up and operation
• Self calibrating electronics
• Optional remote visual flowrate indication (from up to 30 metres [98.5 feet])
• Weatherproof stainless steel construction to IP65
• Tamperproof design with lockable door
• Double layered enclosure (on 3 sides and top)
• Concealed mounting bolts for both the sunshield and the inner enclosure. (Difficult to remove from pole and remove solar panel)
• Cable entry via mounting post and directly into rear of enclosure (No exposed cables)
• Solar panel cannot be removed without fully disassembling
enclosure and sunshield (Integral version only)
• Reset monitor counts the number of times the battery has been disconnected from the system also the hours since last reset
• Not effected by water purity.
GENERAL APPLICATIONS• Irrigation, on and off farm flow
measurement
• Mining, remote water supplies and discharge monitoring
• Pipeline leakage detection
• Water Bore flow monitoring
• Environmental flow measurements
• Water and wastewater.
SYSTEM CONFIGURATIONThe transmitter comes completely packaged including a weather shield to protect the electronics enclosure from direct sunlight, rain and hail. The Solar panel is installed as an integral part of the weather shield.
The inner fully sealed box houses the battery and electronics. Mounting brackets are included to enable connection to a 50 mm (2 in) mounting pipe. Cabling from the detector head enters the enclosure via the mounting pipe.
SYSTEM SET-UP AND OPERATIONThe transmitter is supplied pre-commissioned to suit your application requirements. Any required setup changes can be performed using the integral keypad. To conserve power the system periodically samples the flowrate.. The reading and outputs are held between samples which occur at configured intervals of 15 seconds to 60 minutes. Readings may also be manually updated simply by pressing a display button.
OPTIONS
Peak/Off-Peak Totalisers: Provides flow consumption information during electricity peak and off-peak periods.
Latch Totalisers: Locks in the current flow total either on a monthly or yearly basis. This allows meter readers either one month or a year to read the flow total at a pre-determined time before it is overwritten.
Remote Visual Indicator: A high Intensity LED is installed in the door of the enclosure and flashes at a rate proportional to flowrate. The actual rate is configured by the user to suit the application. For example in the case of a Dethridge Wheel replacement, the flash rate can be set to simulate the turning blades of the wheel. This enables the flowrate to be viewed remotely simulating the Dethridge wheel. The LED can be viewed up to distances of 30 metres (98.5 feet). The viewing angle is limited to eight degrees, to prevent the flashing becoming a potential problem to local residences.
SOLAR-POWERED TRANSMITTERSolar-powered transmitter for use with the Emflux range of Electromagnetic Flow Detector Heads. Designed to meet the requirements of remote and non-powered site applications.
03AQUAMONIX
Radio Communication (RTU): The transmitter can also be a RTU (Remote Telemetry Unit). As an option the transmitters electronic circuit can include a radio modem. This feature will allow a radio transmitter/receiver to be plugged directly into the system. A space in the rear of the enclosure has been allowed to fit the radio, which is powered from the existing solar panel and battery The radio communicates using a Modbus RTU protocol enabling it to communicate with many existing telemetry systems. Information that can be collected includes:
• Flow Rate
• Flow Total
• Solar Panel Volts
• Battery Volts
• Resets
• Diagnostic Messages
With the appropriate equipment available from third party wireless solution providers, it is possible to provide for internet access to flow information.
4–20 mA Output: This provides a signal proportional to flowrate. This option requires a remote 12 V DC to 24 V DC (depending on loop load) power source. The output is always zero based, ie. 4 mA = 0 L/sec, with the span being programmable up to a maximum velocity of 5 metres (16.4 feet) per second.
SPECIFICATIONS
Display 2 Lines × 16 character alphanumeric LCD
Flow rate in: Megalitres per day × 0.1 Revs per minute × 0.1 Litres per second × 0.1 Cubic metres per hour × 0.1 Metres per second × 0.1
Flow total in: Megalitres × 0.001, Cubic metres
BATTERY VOLTS & SOLAR PANEL VOLTS
Output 4–20 mA, externally powered, 12 to 24 V DC (max) required
Pulse Digital 5 to 24 V DC open collector output opto isolated. 20 mA max current. Programmable up to 5 pulses per second. Pulse width fixed at 50 mS. (Used with optional flashing remote indicator)
Frequency Open collector, 24 V DC max. 100 mA max current. Programmable up to 650 Hz 50/50 duty cycle. Minimum output frequency = 5 Hz. Serial comms at TTL level, remote access to real time data.
Flowrange 0.03 to 5.0 m/sec (0.1 to 16.4 ft/sec).
Power supply 12 VDC from 7 ah battery and 5 watt solar panel
Current draw 10 mA average, based on 10 min. update time and no options.
Enclosure Pipe mounting 304 stainless steel. IP65 (Nema 4) weatherproof 300 H × 200 D × 240 W. With sunshield and pipe mounting hardware.
Transmitter/detector separation
To a maximum of 30 metres (98.5 ft)
Operating temp. 0 to 55°C (0 to 131°F)
Minimum process conductivity
5 microsiemens per cm
Pipe not full detection
Standard feature in transmitter. Detection of a pipe that is not full will drive flow readings and outputs to zero.
Note: Requires detectors with pipe not full electrode option.
DIMENSIONS (MM)
HOW TO ORDER
TYPICAL SPECIFYING SEQUENCE
Example: I300 - I 1 X X X Z
Solar Panel
I = Integral Mounted (std)R = Remote Mount KitX = No solar panel
or mounting bracketsTotaliser1 = Single Totaliser (std)2 = Peak/Off-Peak Totalisers, Data LoggingFlashing LEDX = None L = With Flashing LEDAnalogue OutputX = NoneA = With single 4-20mA Output (loop powered)Integral RadioX = None R = With RadioSpecial FunctionZ = Special Features not included above. Data in text.B = No battery required
Note: Each 1300 transmitter comes complete with: 12 V 7 AH sealed lead acid battery, 5 Watt 12 V solar panel and pipe mounting brackets and sunshield.
PENTAIR ENVIRONMENTAL SYSTEMS
MODEL M300 FLOWMETER TRANSMITTER
CLOUDBASED DATA
IRRIGATIONAUTOMATION
REMOTEMONITORING
WATERMEASUREMENT
02 AQUAMONIX
FEATURES• The M300 uses the well proven
electromagnetic method of measurement, which applies Faraday’s Law as the principle of operation. This technique features a straight through section of pipe with no obstruction to restrict flow and no moving parts to wear or break.
• Highly accurate. 0.2% of rate from 0.5 to 10 metres (1.65 to 33 feet) per second.
• Integral keypad standard. All configuration is performed via front keypad. No plug-in programmer required.
• 32 character display standard, displays rate, total and diagnostic messages.
• Display guides operator with menu prompts during configuration.
• Comprehensive output options. Include multiple analogue, relay, digital and serial outputs.
• Self calibrating system with in-field verification.
• Self monitoring and diagnostic functions. Constantly monitors system integrity and measurement validity. Diagnostics can be linked to outputs for diagnostic alarm.
• Flexible mounting options. Wall or panel mounting system standard.
• Bi-directional flow standard.
• Accredited under the Standards Australia Supplier Assessment scheme to ISO9002, ensuring our customers receive a high level of support and quality.
GENERAL APPLICATIONSElectromagnetic flowmeters for the accurate flow measurement of any conductive fluid. Ideally suited to water and waste water treatment plants, mining and general industry.
TECHNICAL DATADisplay: 32 character (2 line × 16 character) alpha-numeric backlit LCD. Displays rate of flow, total flow, alarms, diagnostic messages analogue outputs and relay annunciators. Displays text prompts in programming mode.
Configuration: All functions are accessible via 3 button integral keypad. A logical 2 level menu system with display prompts ensures ease of configuration.
Outputs: 1 × 4–20 mA. Second 4–20 mA output optional. (Each fully isolated, max. load 1000 ohms) 2 × relays with change over contacts. 4 × relays optional. (1.0 A, 30 V DC. Selectable for dry contact). Configurable for:
• Empty pipe detection (Note: Requires detector with ‘pipe not full’ option)
• Forward/reverse flow detection
• Hi/low alarm, (deadband adjustable)
• Totaliser output
• System fault, diagnostic alarm.
2 × Digital, open collector. (Configurable as frequency [0–1000 Hz] or pulse outputs 100 mA, 60 V DC). 1 × RS485/RS232.
Power supply: 24 V DC. 85–265 V AC 50/60 Hz. (±20%). Power consumption, 25 va.
M300 FLOWMETER TRANSMITTER
The M300 is an industry standard Flow Transmitter providing a range of outputs and flexibility to operate from Mains AC or 24 V DC power supply.
VELOCITY/ACCURACY GRAPH
Resolution 18 bit.
Linearity < 0.05%
Repeatability < 0.05%
Temp, stability < 0.05% range, minus 10-55°C (14–131°F)
Voltage effects Negligible
Turndown from FS > 1000:1
Separation 100 metres (328 feet).
Conductivity 5µS/cm
03AQUAMONIX
Enclosure: Rated IP65 (Nema 4).
Surface or panel mounting.
Accuracy: ±0.2% of rate or ±0.001
metres (±0.003 feet) per second,
whichever is greater, from 0.5 to
10 metres (1.65 to 33 feet) per second.
Battery operation: The M300 can function from a 24 V DC battery power supply. The M300 will take a reading from the flowtube, turn off the power supply to the tube, and hold this reading, indicating and totalising at this rate for the ‘switch off’. This switch off period is adjustable to suit the particular dynamics of the flow application, and maximise battery life. Two 60 AH 12 V batteries will power the flowmeter for a period of 2 weeks, based on a 10 min update time. Using a solar panel the system can run continuously without mains power.
SET-UP AND OPERATIONThe operation and set-up of the system are broken into two main areas:
Commissioning ModeOnly accessible through a 3 digit security code to avoid unauthorised access. This mode is used to set the Flow System to your application requirements, including Flow Range, Flow Units, Response Time, Simulations, Outputs etc. Settings may
be made either direct via the three button keypad or remotely using the Comms Port and a computer. When information is provided, the M300 is supplied configured to customer requirements.
Operations MenuDisplays readings in normal run mode. The default display shows the Flowrate and Totaliser with an indication of Forward / Reverse Flow. The operator may also call up other displays, using the up/down arrow key, such as
• Reverse Total
• Output Signals
• Diagnostics and Alarms
• Nett Totaliser
• Rate/Velocity
• Run Time Hours
The display automatically reverts back to default display after two (2) minutes.
DiagnosticsThe M300 incorporates advanced diagnostics which monitor the integrity of the system, including:
• Detector Head Current
• Detector Head Cabling
• Internal Reference Voltages
• A to D Conversion
Configuration options• Detector Head Size
• Low-flow Cut-off
• Detector Head Constant
• Failsafe Modes
• Flow range
• Relay functions
• Response Time
• Outputs
The LCD display and integral keypad allows the user complete control over all configurable functions. Self calibrating electronics and self diagnostics ensure the system maintains integrity at all times. Simple in-field verification available.
Operator interfaceThe M300 includes an integral 2 line alphanumeric display and keypad as standard. No plug in programmer is required. Password protection is included to prevent unauthorized tampering. All parameters are sequenced in a logical, easy to follow order. Configuration prompts on the display further simplifies set-up.
Automatic electrode cleaningA high frequency applied to the Electrodes between each measurement cycle is used to continuously clean the electrodes. This feature removes the errors caused by coating which typically occurs in many applications.DIMENSIONS (MM)
HOW TO ORDER
TYPICAL SPECIFYING SEQUENCE
Example: M300 - L 1A 2R F R K
Power SupplyL = 24 DC (standard)M = 85 to 265 V AC 50 Hz
(60 Hz optional)Analogue output1A = 1 × 4 to 20 mA (standard)2A = 2 × 4 to 20 mA
Relay outputs2R = 2 × relays (standard)4R = 4 × relays
Flowmeter typeF = Full Pipe MagFlow Tube
Mounting optionsR = Remote transmitter
Special functionK = (ie. empty pipe detection,
60 Hz line frequency)
PENTAIR ENVIRONMENTAL SYSTEMS
MODEL M500 FLOWMETER TRANSMITTER
CLOUDBASED DATA
IRRIGATIONAUTOMATION
REMOTEMONITORING
WATERMEASUREMENT
02 AQUAMONIX
FEATURES• Uses the well proven
electromagnetic method of measurement.
• No moving parts or restriction of flow during measurement.
• Enhanced diagnostic and alarm functions, completely configurable
• Removable SD card allowing upgrade of transmitter.
• Large multi-line backlit LCD display.
• User configurable logging interval for flow data and diagnostic tables.
• Optional 4-20mA output.
• User configurable digital frequency and pulse outputs.
• Full serial Modbus multidrop support.
• 3x expansion slots allowing additional IO.
• Serial support for modems, RTUs and PLCs.
• Ability to calibrate and operate flow tubes up to 1000mm in diameter.
• Capacitance style keypad with no moving parts.
• Cable entry via IP68 rated glands
• Designed for outdoor environments.
GENERAL APPLICATIONSElectromagnetic flowmeters for the accurate flow measurement of any conductive fluid. Ideally suited to water and waste water treatment plants, mining and general industry.
TECHNICAL DATADisplay: 128 x 64 pixel monochrome graphic type with LED backlighting. Backlight can be enabled or disabled, includes auto-off mode when enabled and after 30 seconds of keypad inactivity.
Configuration: Four button capacitive touch with adjacent key suppression, self-calibrating, with wake function and press or hold discrimination. Two-level menu hierarchy: menu and submenu with numerical index to each menu item for ease of cross referencing.
Programmable meter codes are configurable. Access remotely via Magmate utility or via the onboard USB port.
Outputs:
• Digital pulse, with output triggering by volume or alarm cause
• Frequency output, configurable up to 1000Hz
• 4-20mA output in either source or sink mode
• RS232 / RS485 Modbus over serial line.
Power supply: Integral AC/DC conversion, 85-265VAC / 47-63Hz.
12-24VDC native power supply.
Cable Entries: M16x3 (Power, Flow Detector Signal, Serial Comms), M20x1 (Flow Detector Coil), M25x1 (Conduit entry) supplied with gland plug for sites with no conduit, ensuring protection from moisture and dust.
M500 FLOWMETER TRANSMITTER
The M500 Electromagnetic Flowmeter has been developed to meet the demanding requirements for accurate metering of process and mining fluid supplies but is equally at home in other water supply applications including urban water (recycled water, distribution network and revenue monitoring), irrigation and environmental monitoring.
ACCURACY
Flow Velocity Range 0.01 to 10.00 metres per second
Linearity ±0.005%
Accuracy Better than ±0.5% of indicated flow rate, or ±1mm/s.
Full Scale Flow Rate Programmable
Low Flow Cutoff Programmable from 0 to 10% of full scale flow rate.
Flow Channels Flow velocity, Flow rate, Mass Flow
Totaliser Units Litres, Kilolitres, Megalitres, Gigalitres, Imperial and US Gallons, Imperial mega-gallons and others
Flow Time Units Seconds, Hours, Days
Flow Simulation Mode Simulated DC current out, Simulated flow rate on meter front LCD.
03AQUAMONIX
SET-UP AND OPERATION
The operation and set-up of the system are broken into two main areas:
Operations Menu• Power up display (self-test status
and firmware version indication).
• Display of flow variables and alarms.
• Passcode entry.
• Read only display of settings and diagnostic information.
Configuration of user settings (configuration menus).
DiagnosticsThe M500 incorporates advanced diagnostics which monitor the integrity of the system, including:
• Coil voltage check
• Coil current check
• Electrode check
• Pipe Not Full detection
• Signal voltage check
• A/D Converter operation and self calibration
• Real Time Clock operation
• Battery voltage
• Battery current
• Solar voltage
Other diagnostic functions included as standard.
RecordsPC compatible directory structure with individual files for:
• Flow data records (CSV)
• Diagnostic results records (CSV)
• System event records (CSV)
• Alarms records (CSV)
• Configuration data (binary format)
FIGURE 1: PART NUMBER TABLE FOR M500 FLOWMETER.
Examples:
M500-MXXX M500 with 240VAC supply, no option expansion cards.
M500-MXAX M500 with 240VAC supply, analogue expansion card.
M500-LMXX M500 with 24VDC supply, modem expansion card.
PART NUMBERS FOR OPTIONAL EXPANSION CARDS:
Modem card: Aquamonix part number G625056-PUR
Analogue card: Aquamonix part number G625054-PUR
Digital I/O card: Aquamonix part number G625057-PUR
HOW TO ORDER
TYPICAL SPECIFYING SEQUENCE
Example: M500 M X X X
M500 Electromagnetic Flowmeter
L: 12-24VDCM: 240VAC
X: No option card
M: modem card(RS232, 485,422)
X: No option card
A: Analogue Card (4-20mA)
X: No option card
D: Digital IO expansion
DIMENSIONS M5 BOLT MOUNTING HOLE POSTIONS
(mm)
ELECTROMAGNETIC FLOWMETER SERVICES AND SUPPORT
CLOUDBASED DATA
IRRIGATIONAUTOMATION
REMOTEMONITORING
WATERMEASUREMENT
02 AQUAMONIX
SERVICE PRODUCTS
Electromagnetic flow meters use a proven and reliable technology free of drift and therefore are considered to be maintenance free. However every piece of electronic measuring equipment requires some form of checking and verification on a regular schedule to verify operation and accuracy.
Aquamonix, through its Service Division, offers a full suite of service products for the Emflux electromagnetic flow meter range. This commitment to service and support is aimed at minimising downtime and cost whilst maintaining confidence in the measurement.
The following service options are available without having to remove the flow meter from the process.
FLOWMETER COMMISSIONING
An Aquamonix service technician is available to attend site and provide advice on installation of electromagnetic flow meters. The technician will consider all installation factors that influence the accuracy of the meter.
WATER PRODUCTS SERVICE AND SUPPORT
03AQUAMONIX
FLOWMETER VERIFICATION SERVICE
In-situ flowmeter verification service using proprietary equipment and other specialised electronic measuring equipment are used for verifying installed and operational flow meters. Programmed full verification of installed flow meters offers a considerably lower cost option than full removal and wet calibration (see in-field verification fact sheet).
BREAKDOWN SERVICE
An Aquamonix service technician is available to attend site for breakdowns. The technician will perform diagnostic tests to isolate the faulty flow meter components. Were possible the technician will repair and verify the meter onsite to minimise downtime. In the advent a buried meter needs to be removed the technician will co-ordinate with other contractors for excavation, isolation, removal and installation of the meter. Were it is required and possible the technician will provide end to end solution.
INSERTION PROBE
Using an insertion point velocity electromagnetic flowmeter the Greenspan technician can perform velocity profile measurements and calculate the exact flow rate of the pipe.
The point velocity meter is inserted into a pipe via a tapping point. This service can form a part of the programmed maintenance schedule.
www.aquamonix.com.au Ph: 1300 797 246
New South Wales: Ph: (02) 8710 4040268 Milperra Rd, Milperra, NSW 2214
Victoria: Ph: (03) 5821 404419a New Dookie Rd, Shepparton, VIC 3630
Western Australia: Ph: (08) 9477 11881/30 Oxleigh Drive, Malaga, WA 6090