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Ultrasonic Level Sensor Application in Above Ground Bulk Storage Tanks

Ultrasonic Level Sensors and Transmitters Above ground bulk storage tanks are containers that hold large volumes of liquid and typically range from 10 to 32 feet in height. They operate under no pressure, are available in many shapes, and are widely manufactured out of plastic, fiberglass or metal. Vertical cylindrical tanks are the most common. Depending upon the liquid, they may also have a chemically resistant inner lining. There are many environmental regulations associated with the design and operation of bulk storage tanks, and above ground tanks have different regulations than below ground tanks. Bulk storage tanks have two basic control systems, one to add liquid into the tank and one to remove liquid from the tank. Some also have secondary containment walls to prevent spills or leakage, and all have good transportation access to support deliveries. The primary requirement for this application is to monitor the liquid level, enabling operators to know when it’s time to refill the tank, and prevent it from overflowing or running dry.

Technology

A short duration, high frequency ultrasonic sound wave is pulsed up to four times per second from the face of the transducer. The sound wave reflects off the surface of the liquid and returns to the transducer. The level sensor measures the time of flight between the sound generation and receipt, and translates this into the distance between the transducer face and liquid surface. The distance is then converted into a percentage of measured span and output as a proportional 4-20 mA signal.

Best Practices

The installed level sensor must have a clear view of the liquid surface. This means that the measurement space beneath the level sensor should be free of any obstructions such as pipes, fittings, ladders or walls inside the tank. The level sensor must be located above the highest liquid level and never be submersed during normal operation. Bulk storage tanks are often located outdoors without any environmental protection and are directly influenced by heat from the sun or cold from the weather. As such, temperature differentials may generate condensation within the tank. This more often occurs at the high end of the temperature range, but may also occur at the low end, resulting in the formation of water droplets or ice on the transducer, which can affect acoustic transmission and receipt. Where significant condensation exists, select a level sensor with a longer more powerful measurement range, and apply a very thin layer of petroleum jelly water repellant across the transducer face. Liquid is normally dispensed into bulk storage tanks from the top and removed from the bottom. This typically creates an agitated liquid surface during filling and a smooth liquid surface during emptying. Depending upon the liquid type and amount of agitation, foam may be generated. Foam absorbs the acoustic signal and can reduce the effective measurement range of the level sensor. Where foam exists, the level sensor should be installed in a stand-pipe to separate out the surface foam from the point of measurement. Another solution is to extend the fill pipe to the bottom of the tank and eliminate the agitation. Vapor is normally associated with corrosive liquids in higher concentrations, but may also be found in non-corrosive liquids at higher temperatures. Vapor absorbs the acoustic signal and can reduce the effective measurement range of the level sensor. Where significant vapor exists, select a level sensor with a longer more powerful measurement range, and properly vent the tank. With strong vaporous acids such as hydrochloric or nitric, the level sensor should also be installed in a stand-pipe to maximize the acoustic signal strength.

Installation

There are several ways to mount a level sensor in this application. The inside of a bulk storage tank normally has few obstructions or equipment. The tank top may be flat, domed, round or angled. Find a mounting location where the level sensor has a direct view of the liquid throughout the entire measurement span. The location must be flat, level to the liquid and accessible. The following equipment can be used to install the sensor.

Tank Adapter

Tank adapters are recommended where the tank’s mounting location is level and not on a slope. Use a tank adapter that is slip x thread, and avoid thread x thread adapters. Do not use tank adapters that are mounted upside down.

Coupling

A shorter half coupling is preferred over a taller full coupling. Use a coupling that is slip x thread, and avoid thread x thread couplings. If you use a full coupling, it must follow the height and diameter restrictions described under Riser with Flange.

Stand-Pipe

Level sensors can be installed in a stand-pipe to separate surface foam, dampen turbulence or maximize the acoustic signal strength of the level sensor. Do not use a stand-pipe in applications with dirty, coating or scaling liquids that will leave material build-up on the inner pipe wall. The stand-pipe must be one continuous section of smooth pipe without any breaks or transitions. The pipe’s inner diameter must be equal to or greater than the level sensors beam width and larger diameter pipes are recommended. To install the level sensor, mount a low-profile threaded coupling on top of the pipe. Just under the coupling, and within the level sensors deadband, drill two quarter-inch vent holes on opposing sides of the pipe. The pipe should extend to the bottom of the tank, or at least below the level sensor’s measurement span. Cut a 45º angle on the bottom of the pipe. Finally, the level should be maintained above the 45º cut, so there’s always liquid in the pipe.

Riser with Flange

Long, narrow risers, which in fiberglass tanks may also extend a few inches inside the tank top, can affect acoustic transmission and receipt. The inner surface of the riser must be smooth and free of ridges, especially in the region below the installed transducer face. Risers with diameters of 3" or more are recommended. If the only option is a 2" diameter riser, the height of the riser and any mounting connections above it cannot exceed 5". Caution should be taken with any riser heights greater than 8", and the use of tee connections within the riser structure is not permissible.

Center of Dome Top Tank

Where possible, avoid installing the level sensor in the center of a dome top tank. The dome top acts like a parabolic reflector that amplifies acoustic energy and may cause the level sensor to perform intermittently at certain tank levels.

Electrical

Bulk storage tanks may be located near large pumps, motors or variable frequency drives that can generate substantial EMI or RFI noise. Make sure that such devices are grounded to earth, and then ground the level sensor and associated electrical equipment to the same earth-ground as these devices. Some areas maybe subject to frequent lightning strikes or have unreliable power. Where so, proper surge protection and filtering is recommended.

Span

The level sensor outputs a 4-20 mA current signal that’s proportionate to the measurement span within the bulk storage tank. Users typically set the 4 mA to empty or the lowest measured level, and 20 mA to full or the highest measured level. Avoid placing the 4 mA or 20 mA span setpoints at or near levels where pumps, valves or alarms may actuate.

Interface

The level sensors 4-20 mA current signal is normally connected to a local controller or centralized control system. These devices may include a PLC, SCADA, DSC or stand-alone level controller. Either control device is fine as long as it accepts a 4-20 mA current signal. The operational range of the controller must then be programmed to match the measurement span of the level sensor, and take into account that the sensors 4 mA setpoint is normally placed above the empty tank condition. Once the controller's operational range has been configured to the correct levels and engineering units, then the relay setpoints are applied for pump, valve or alarm automation. An independent high-level alarm or safety shut-off system should always be used in addition to the primary system, and an independent low-level alarm or safety shut-off system is recommended for pump or process protection.

This material has been republished with permission from Flowline, Inc.

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