Flo-Dar

Hach Flo-Dar Basic User Manual

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DOC026.97.80380
Flo-Dar Sensor
09/2019, Edition 6
Basic User Manual
Manuel d'utilisation de base
Manual básico del usuario
Manual Básico do Usuário
基本用户手册
基本取扱説明書
기본 사용 설명서
Table of Contents
English..............................................................................................................................3
Français......................................................................................................................... 30
Español.......................................................................................................................... 59
Português...................................................................................................................... 88
中文............................................................................................................................... 117
日本語........................................................................................................................... 141
한글............................................................................................................................... 168
2
5 Installation on page 10
6 Operation on page 25
7 Maintenance on page 25
Table of Contents
1 Table of contents on page 3
2 Expanded manual version on page 3
3 Specifications on page 3
4 General information on page 4
Section 2 Expanded manual version
For additional information, refer to the expanded version of this manual, which is available on the
manufacturer's website.
Section 3 Specifications
Specifications are subject to change without notice.
Specification Details
Dimensions (W x D x H) 160.5 x 432.2 x 297 mm (6.32 x 16.66 x 11.7 in.); with SVS,
D=287 mm (15.2 in.)
Weight 4.8 kg (10.5 lb)
Enclosure IP68 waterproof rating, polystyrene
Pollution degree 3
Protection class III
Installation category I
Operating temperature –10 to 50 °C (14 to 122 °F)
Storage temperature –40 to 60 °C (–40 to 140 °F)
Altitude 4000 m (13,123 ft) maximum
Power requirements Supplied by FL Series flow logger
Interconnecting cable (disconnect at both
sensor and logger ends)
Polyurethane, 0.400 (±0.015) inch diameter
IP68
Standard length: 9 m (30 ft); maximum length: 305 m (1000 ft)
Depth measurement Method: Ultrasonic
Standard operating range from Flo-Dar sensor housing to liquid:
0–152.4 cm (0–60 in.)
Optional extended operating range from transducer face to liquid:
0–6.1 m (0–20 ft) (with 43.18 cm (17 in.) deadband), temperature
compensated
Accuracy: ±1%; ±0.25 cm (±0.1 in.)
English 3
Specification Details
Surcharge depth measurement Method: Piezo resistive pressure transducer with stainless steel
diaphragm
Auto zero function maintains zero error < 0.5 cm (0.2 in.)
Range: 3.5 m (138 in.); overpressure rating: 2.5 × full scale
Velocity measurement Method: Pulsed radar - Doppler
Range: 0.23–6.10 m/s (0.75–20 ft/s)
Frequency Range: EU Models—24.175 GHz ± 15 MHz, US/Canada
Models—24.125 GHz ± 15 MHz
Output Power: EU Models—20 mW (13 dBm) nominal ± 10%,
US/Canada Models—2.5 V/m at 3 meters (maximum field strength)
Accuracy: ±0.5%; ±0.03 m/s (±0.1 ft/s)
Certifications The Flo-Dar transmitter has the wireless certifications that follow:
European Union (EU): CE mark
United States (US): FCC ID: VIC-FLODAR24
Canada: IC: 6149A-FLODAR24
Brazil: ANATEL: 01552-13-09098
Flow measurement
Method Based on the continuity equation
Accuracy ±5% of reading is typical where flow is in a channel with uniform flow
conditions and is not surcharged, ±1% full scale maximum
Surcharge conditions depth/velocity
Depth (standard with Flo-Dar sensor) Surcharge depth supplied by Flo-Dar sensor
Velocity (with optional surcharge velocity
sensor)
Method: Electromagnetic
Range: ±4.8 m/s (±16 ft/s)
Accuracy: ±0.046 m/s (±0.15 ft/s) or 4% of reading, whichever is more
Zero stability: > ±0.015 m/s (±0.05 ft/s) typical
Section 4 General information
In no event will the manufacturer be liable for direct, indirect, special, incidental or consequential
damages resulting from any defect or omission in this manual. The manufacturer reserves the right to
make changes in this manual and the products it describes at any time, without notice or obligation.
Revised editions are found on the manufacturer’s website.
4.1 Safety information
N O T I C E
The manufacturer is not responsible for any damages due to misapplication or misuse of this product including,
without limitation, direct, incidental and consequential damages, and disclaims such damages to the full extent
permitted under applicable law. The user is solely responsible to identify critical application risks and install
appropriate mechanisms to protect processes during a possible equipment malfunction.
Please read this entire manual before unpacking, setting up or operating this equipment. Pay
attention to all danger and caution statements. Failure to do so could result in serious injury to the
operator or damage to the equipment.
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English
Make sure that the protection provided by this equipment is not impaired. Do not use or install this
equipment in any manner other than that specified in this manual.
4.1.1 Use of hazard information
D A N G E R
Indicates a potentially or imminently hazardous situation which, if not avoided, will result in death or serious injury.
W A R N I N G
Indicates a potentially or imminently hazardous situation which, if not avoided, could result in death or serious
injury.
C A U T I O N
Indicates a potentially hazardous situation that may result in minor or moderate injury.
N O T I C E
Indicates a situation which, if not avoided, may cause damage to the instrument. Information that requires special
emphasis.
4.1.2 Precautionary labels
Read all labels and tags attached to the instrument. Personal injury or damage to the instrument
could occur if not observed. A symbol on the instrument is referenced in the manual with a
precautionary statement.
This is the safety alert symbol. Obey all safety messages that follow this symbol to avoid potential
injury. If on the instrument, refer to the instruction manual for operation or safety information.
This symbol indicates that a risk of electrical shock and/or electrocution exists.
This symbol indicates the presence of devices sensitive to Electro-static Discharge (ESD) and
indicates that care must be taken to prevent damage with the equipment.
Electrical equipment marked with this symbol may not be disposed of in European domestic or public
disposal systems. Return old or end-of-life equipment to the manufacturer for disposal at no charge to
the user.
This symbol, when noted on the product, identifies the location of a fuse or current limiting device.
This symbol indicates that the marked item requires a protective earth connection. If the instrument is
not supplied with a ground plug on a cord, make the protective earth connection to the protective
conductor terminal.
4.1.3 Confined space precautions
D A N G E R
Explosion hazard. Training in pre-entry testing, ventilation, entry procedures, evacuation/rescue
procedures and safety work practices is necessary before entering confined spaces.
The information that follows is supplied to help users understand the dangers and risks that are
associated with entry into confined spaces.
English
5
On April 15, 1993, OSHA's final ruling on CFR 1910.146, Permit Required Confined Spaces, became
law. This standard directly affects more than 250,000 industrial sites in the United States and was
created to protect the health and safety of workers in confined spaces.
Definition of a confined space:
A confined space is any location or enclosure that has (or has the immediate potential for) one or
more of the following conditions:
An atmosphere with an oxygen concentration that is less than 19.5% or more than 23.5% and/or a
hydrogen sulfide (H
2
S) concentration that is more than 10 ppm.
An atmosphere that can be flammable or explosive due to gases, vapors, mists, dusts or fibers.
Toxic materials which upon contact or inhalation can cause injury, impairment of health or death.
Confined spaces are not designed for human occupancy. Confined spaces have a restricted entry
and contain known or potential hazards. Examples of confined spaces include manholes, stacks,
pipes, vats, switch vaults and other similar locations.
Standard safety procedures must always be obeyed before entry into confined spaces and/or
locations where hazardous gases, vapors, mists, dusts or fibers can be present. Before entry into a
confined space, find and read all procedures that are related to confined space entry.
4.1.4 EU/FCC/IC/ANATEL regulations
Use of this device is subject to the conditions that follow:
There are no user serviceable items inside this device.
The user must install this device in accordance with the supplied installation instructions and must
not modify the device in any manner whatsoever. Any changes or modifications to the device may
void the user’s authority to operate this equipment.
Any service that includes the transmitter must only be done by Hach Company.
This device is considered a “mobile” wireless device per the FCC. For RF exposure safety, the
user must maintain a minimum of 20 cm (8 in.) separation distance from the face of the radar
transmitter when it is in operation.
4.2 Certification
C A U T I O N
This equipment is not intended for use in residential environments and may not provide adequate protection to
radio reception in such environments.
Canadian Radio Interference-Causing Equipment Regulation, ICES-003, Class A:
Supporting test records reside with the manufacturer.
This Class A digital apparatus meets all requirements of the Canadian Interference-Causing
Equipment Regulations.
Cet appareil numérique de classe A répond à toutes les exigences de la réglementation canadienne
sur les équipements provoquant des interférences.
FCC Part 15, Class "A" Limits
Supporting test records reside with the manufacturer. The device complies with Part 15 of the FCC
Rules. Operation is subject to the following conditions:
1. The equipment may not cause harmful interference.
2. The equipment must accept any interference received, including interference that may cause
undesired operation.
Changes or modifications to this equipment not expressly approved by the party responsible for
compliance could void the user's authority to operate the equipment. This equipment has been tested
and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC rules.
These limits are designed to provide reasonable protection against harmful interference when the
equipment is operated in a commercial environment. This equipment generates, uses and can
radiate radio frequency energy and, if not installed and used in accordance with the instruction
manual, may cause harmful interference to radio communications. Operation of this equipment in a
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English
residential area is likely to cause harmful interference, in which case the user will be required to
correct the interference at their expense. The following techniques can be used to reduce
interference problems:
1. Disconnect the equipment from its power source to verify that it is or is not the source of the
interference.
2. If the equipment is connected to the same outlet as the device experiencing interference, connect
the equipment to a different outlet.
3. Move the equipment away from the device receiving the interference.
4. Reposition the receiving antenna for the device receiving the interference.
5. Try combinations of the above.
Flo-Dar Sensor—Part number list:
Standard U-Sonic 890004901, 890004902; Standard U-Sonic I.S. (Intrinsic Safety) 890004801,
890004802, 890004803; Long-Range U-Sonic 890005201, 890005202, 890005206; Long-Range U-
Sonic I.S. (Intrinsic Safety) 890004804, 890004805, 890004806; Remote Long-Range U-Sonic
890005204, 890005205, 890005207: Remote Long-Range U-Sonic I.S. (Intrinsic Safety) 890004807,
890004808, 890004809
The part numbers above are service only and cannot be purchased – reference only for wireless
certifications.
4.3 Product overview
The Flo-Dar sensor measures the flow velocity and liquid depth in open channels using radar and
ultrasonic technology. The unit is made to withstand submersion during surcharge conditions. The
optional surcharge velocity sensor supplies velocity measurements during surcharge conditions.
Figure 1 shows the configuration of a Flo-Dar system in a non-hazardous location.
Theory of operation information and ordering information for replacement parts are available in the
expanded user manual on the manufacturer's website (http://www.hach.com).
English 7
Figure 1 System overview
1 Flo-Dar sensor with optional surcharge velocity
sensor
3 Mounting frame
2 Flow logger or controller 4 Non-hazardous environment
4.4 Product components
Make sure that all components have been received. Refer to Figure 2 and Figure 3. If any items are
missing or damaged, contact the manufacturer or a sales representative immediately.
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English
Figure 2 Instrument components
1 Flo-Dar sensor 4 Surcharge velocity sensor (SVS) (optional)
2 Extended range sensor (optional) 5 Flo-Dar connector and SVS connector
3 Bubble level 6 Flo-Dar with bare-wire and SVS with bare-wire
1
Figure 3 Wall mount hardware
1 Wall mount bracket 7 Standard frame
2 Spacer, 12-inch 8 Spacer, 2¼-inch
3 Anchor ,
3
/
8
x 2¼ in. (4x) 9 Adjustable wall bracket
4 Anchor washer (6x) 10 Clamp bolts, ¼-20 x 1 in. (10x)
5 Anchor nut,
3
/
8
-16 (6x) 11 Clamp half, not threaded (2x)
6 Frame for extended range sensor (optional) 12 Clamp half, threaded (2x)
1
Bare-wire is an alternative to the connector.
English 9
Section 5 Installation
D A N G E R
Explosion hazard. Trained personnel only must install or commission the equipment.
5.1 Mechanical installation
5.1.1 Site location guidelines
N O T I C E
To prevent damage to the enclosure, install the instrument away from direct sunlight, ultraviolet radiation (UV),
heat sources and severe weather. Install a sun shade or protective cover above the instrument when the location
is outdoors.
For the best accuracy, install the sensor where the flow is not turbulent. The ideal location is in a
long, straight channel or pipe. Outfalls, vertical drops, baffles, curves or junctions cause the velocity
profile to become distorted.
Where there are outfalls, vertical drops, baffles, curves or junctions, install the sensor upstream or
downstream as shown in Figure 4Figure 6. For upstream locations, install the sensor at a distance
that is at least five times the pipe diameter or the maximum fluid level. For downstream locations,
install the sensor at a distance that is at least ten times the pipe diameter or the maximum fluid level.
If the location contains a junction and the flow in one pipe is much higher, install the sensor on the
wall near the lower flow pipe.
Figure 4 Sensor location near an outfall, vertical drop or baffle
1 Acceptable upstream sensor location 5 Distance downstream: 10 × pipe diameter
2 Outfall 6 Vertical drop
3 Distance upstream: 5 × maximum level 7 Baffle
4 Acceptable downstream sensor location
10 English
Figure 5 Sensor location near a curve or elbow
1 Acceptable upstream sensor location 3 Distance downstream: 10 × pipe diameter
2 Acceptable downstream sensor location 4 Distance upstream: 5 × pipe diameter
English 11
Figure 6 Sensor location near a junction
1 Acceptable upstream sensor location 3 Distance downstream: 10 × pipe diameter
2 Acceptable downstream sensor location 4 Distance upstream: 5 × pipe diameter
5.1.2 Install the sensor
W A R N I N G
Explosion hazard. In hazardous locations, friction between surfaces can generate sparks that can
cause an explosion. Make sure that no friction is possible between the instrument and any surrounding
surfaces.
C A U T I O N
Potential hearing loss risk. Hearing protection required. The level transducer emits ultrasonic sound
energy when powered. Ear protection must be worn when working within 1 meter of this device. Do not
point the transducer output towards ears during installation, calibration and maintenance.
Ultrasonic pressure:
Dimensions of useful beam: Long range
Ultrasonic pressure: > 110 dB at 1 m (3.3 ft) on axis
Sound pressure inside beam: 111.9 dB maximum
Mount the Flo-Dar sensor above the open channel on the wall of the manhole. For hazardous
locations, a barrier must be installed outside of the hazardous area.
For temporary installation, an optional Jack-bar is available. Instructions are supplied with the Jack-
bar.
The sensor dimensions are shown in Figure 7 and Figure 8.
The dimensions of the standard frame for wall installation are shown in Figure 9.
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English
Figure 7 Sensor dimensions
1 Optional extended range sensor 3 Minimum clearance for cable
2 Minimum clearance for cable with extended range
sensor
English 13
Figure 8 Sensor with SVS dimensions
1 Minimum clearance for cable
Figure 9 Standard frame dimensions
1 579.12 mm (22.8 in.) with 2¼ in. spacer; 828.04 mm (32.6 in.) with 12 in. spacer
5.1.2.1 Assemble the clamps on the frame and wall bracket
Install the clamps on the frame and wall mount bracket before installation on the wall.
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English
Items to collect: Wall mount hardware (Figure 3 on page 9)
Frame
Wall mount bracket
Clamps
Hardware: wall bracket, spacer, nuts and bolts
1. Put two clamp halves (one with threads and one without threads) around the wall mount bracket.
Refer to Figure 10.
2. Connect the clamp halves together with four bolts. Tighten the bolts sufficiently to temporarily
hold the clamp in position.
3. Put the other two clamp halves around the front end of the frame. Refer to Figure 10.
Note: Typically, the front of the frame will point toward the wall. Refer to Figure 10 and Figure 14 on page 20.
If flow conditions make it necessary to point the sensor away from the wall, use the 12-inch spacer and put the
two clamp halves around the back end of the frame.
4. Connect the clamp halves together with four bolts. Tighten the bolts sufficiently to temporarily
hold the clamp in position.
Figure 10 Assemble the clamps on the wall bracket and frame
1 Adjustable wall bracket 5 Frame
2 Clamp half, threaded 6 Spacer
3 Clamp bolt, ¼–20 x 1 in. 7 Wall mount bracket
4 Clamp half, not threaded
5.1.2.2 Install the frame on the wall
D A N G E R
Explosion hazard. Review the safety information in Confined space precautions on page 5 before
entering a confined space.
English 15
Review the guidelines that follow to find the best location for the sensor.
Examine the upstream and downstream flow characteristics. Use a mirror if necessary. Install the
sensor above the water where the flow is stable. Do not install the sensor where there are
standing waves, pools or objects or materials that can disrupt the flow profile.
If the upstream flow characteristics are acceptable, install the sensor on the upstream wall of the
manhole with the sensor pointing upstream. This location will make sure that the measured flow is
the same as the flow in the pipe and that the sensor cable points away from the wall.
Install the sensor away from the sides of the pipe and in the very center of the flow where the fluid
is at the maximum depth.
Install the sensor in a location that is accessible for maintenance.
Items to collect:
Assembled frame and wall mount bracket assembly
Anchors with nuts and washers
Tools: mirror, ruler or tape measure, marker
Complete the steps to install the frame on the wall of the manhole above the flow. Make sure to obey
all codes and/or directives that are relevant to the location. Refer to Site location guidelines
on page 10.
1. Make a mark on the wall that identifies the location of the top of the sensor frame. Refer to
Figure 11. The wall brackets will be installed above and below this mark.
Sensor without SVS—make sure that when the sensor is in the frame, the radar beam is not
stopped by the wall or channel. Refer to Figure 13 on page 19.
Sensor with SVS—the top of the sensor frame must be installed at an exact distance above the
top of the channel. For pipe diameters that are more than 635 mm (25 in.), measure 127 mm
(5 in.) from the interior crown of the pipe to the top of the frame. For pipe diameters that are
less than 635 mm (25 in.), measure 152.4 mm (6 in.) from the interior crown of the pipe to the
top of the frame.
2. Put the wall mount brackets above and below this mark.
3. Attach the brackets to the wall using the supplied anchors. Install the anchors into 3/8-in.
diameter holes at a depth of 38.1 mm (1.5 in.).
4. Connect the frame to the wall bracket with a spacer. Refer to Figure 11. It may be necessary to
use the 12-inch spacer to position the sensor farther from the wall when there is a large pipe lip.
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English
Figure 11 Wall installation
1 Distance from interior crown of pipe to top of frame 3 Washer
2 Anchor 4 Nut
5.1.2.3 Install the sensor on the frame
The sensor fits in the frame in only one direction and is held in position when the bail on the sensor is
turned. Refer to Figure 12. The sensor can be removed from the frame and installed without entry
into the manhole when the optional retrieval pole is used.
1. Make sure that the cable is tightly connected to the sensor.
2. Turn the bail to retract the locking bars on the sensor.
3. Put the sensor on the frame. Make sure that the cable points toward the center of the manhole.
4. Turn the bail to hold the sensor on the frame. Refer to Figure 12.
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17
Figure 12 Horizontal alignment
1 Bubble level 2 Bail
5.1.2.4 Align the sensor vertically – Flo-Dar without SVS
The sensor must be aligned vertically to make sure that the sensor is above the flow and that the
radar beam will not be stopped by the wall or pipe. Refer to Figure 13.
1. Make an estimate of where a line that extends from the top of the radar lens perpendicular to
where the lens will point. Refer to Figure 13.
2. Loosen the clamp on the wall mount bracket and put the frame so that the radar beam will point
below the crown of the pipe by at least 25.4 mm (1 in.). Refer to Figure 13. It may be necessary
to install the 12-inch spacer to extend the frame farther from the wall.
3. Tighten the clamp and measure the frame position. Make sure that the radar beam is not stopped
by the wall or pipe. If the beam is stopped, move the frame further away from the wall with the 12-
inch spacer or lower the frame.
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Figure 13 Vertical alignment of the sensor
1 Spacer 2 Distance from interior crown of pipe to top of frame
5.1.2.5 Align the sensor vertically – Flo-Dar with SVS
The sensor must be aligned vertically to make sure that the sensor is above the flow under normal
full flow conditions and that the SVS is activated under surcharge conditions.
Item to collect: Ruler or tape measure
1. Measure directly above the crown of the pipe to the top of the frame. Refer to Figure 11
on page 17.
2. If the pipe lip is longer than 140 mm (5.5 in.), install the 12-inch spacer between the wall mount
bracket and the frame. Refer to Figure 14.
3. Loosen the clamp on the wall mount bracket and put the top of the frame above the crown of the
pipe at the specified distance:
152.4 mm (6 in.) for a pipe diameter that is less than 610 mm (24 in.)
127 mm (5 in.) for a pipe diameter that is equal to or larger than 610 mm (24 in.)
4. Tighten the clamp and measure the frame position again to make sure that it is at the correct
position.
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19
Figure 14 Vertical alignment of the sensor with SVS
1 Spacer 3 SVS sensor (optional)
2 Distance from interior crown of pipe to top of frame
5.1.2.6 Align the sensor horizontally
The sensor must be aligned horizontally to make sure that the sensor is over the center of the flow. If
the pipe is not level and has a slope of 2 degrees or more, align the sensor to be parallel with the
surface of the water.
Item to collect: Bubble level
1. Remove the paper backing from the bubble level and attach the level to the sensor. Refer to
Figure 12 on page 18.
2. Loosen the clamps and tap the frame into position.
3. Tighten both clamps and measure the frame position to make sure that it is at the correct
position.
5.1.2.7 Make a final alignment check
The correct vertical and horizontal alignment of the sensor is necessary for accurate measurements.
1. Measure the vertical alignment and make adjustments if necessary. Refer to Align the sensor
vertically – Flo-Dar without SVS on page 18 or Align the sensor vertically – Flo-Dar with SVS
on page 19.
2. Measure the horizontal alignment and make adjustments if necessary. Refer to Align the sensor
horizontally on page 20.
3. Repeat steps 1 and 2 until no further adjustments are necessary.
5.1.2.8 Optional extended range sensor installation
The extended range sensor (Figure 15) can be used when the pipe or channel depth is more than
the standard level specifications. Refer to Specifications on page 3.
Use the extended frame (Figure 16) instead of the standard frame, or mount the extended range
sensor on the wall.
The extended range sensor must be installed at least 457.2 mm (18 in.) above the crown of the pipe
for correct measurements. The extended range sensor has a deadband zone of 431.8 mm (17 in.)
where the sensor is not active.
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