Level Sensors

Overview of Fluid Level Sensors

Fluid or liquid-level sensors play a crucial role in the water and wastewater industry. They manage and control the treatment and distribution of water as well as the collection and treatment of wastewater. These fluid level sensors also find application in industries involving liquid or gas transfer, such as chemicals, oil & gas, and more. 

Most sensors are designed to measure levels of fluids with varied consistencies, including viscous and semi-solids. These sensors ensure efficient operations by monitoring the level of fluid in industrial systems. They can be used for continuous or intermittent measurement, depending on the application requirement.

Types of Fluid Level Sensors We Offer

Fluid level sensors operate using several different principles, depending on the design and type, such as contact and non-contact. Here are some of the most common types of fluid-level sensors we offer and how they work.

1. Submersible Level Sensors: These contact-based level sensors are designed to be fully submerged in the fluid they are measuring. They typically use a pressure transducer at the end of a cable, which measures the pressure exerted by the fluid above it. The pressure reading is then converted into level measurement. Submersible sensors are highly accurate and commonly used in environments like deep wells, and tanks.
2. Radar Level Sensors: Radar sensors work by emitting microwave signals toward the surface of the liquid from the top. The signal bounces back to the sensor, and the time it takes for the echo to return is used to calculate the distance to the surface, thus determining the fluid level. Radar sensors are highly reliable and effective in a range of environmental conditions, including extreme temperatures and pressures, vapors, and foam.
3. Ultrasonic Level Sensor: These non-contact level sensors are similar to radar, ultrasonic water level sensors, and use sound waves to detect the fluid level. These sensors emit ultrasonic pulses downward toward the liquid surface. The pulses reflect back to the sensor, and the sensor calculates the distance to the surface based on the time delay of the returned echo.

Tips To Choose the Right Level Sensor

Choosing the right level sensor for your application can significantly impact the efficiency, accuracy, and reliability of your fluid level monitoring system. Here are some key tips to help you select the most appropriate level sensor.

1. Understand your application requirement: Before selecting a sensor, clearly define what you need it to do. Consider the type of fluid, the environment, and the application's specific requirements.
2. Consider the material compatibility: Ensure that the materials used in the sensor are compatible with the fluid to avoid corrosion, degradation, or contamination. In the case of extremely corrosive fluids in industrial processes, consider non-contact sensors.
3. Accuracy and resolution: Consider how precise the level measurements need to be. Some applications may require highly accurate sensors with fine resolution, while others might not need as much precision or very accurate values.
4. Installation and maintenance: Look at how easy it is to install and maintain the sensor. Sensors with complex installation procedures or high maintenance requirements might increase long-term costs and downtime.
5. Output and connectivity: Ensure the sensor's output is compatible with your existing monitoring systems. Check if the sensor supports digital outputs like 4-20 mA, 0-10 V, or newer protocols like HART©, which can provide more detailed diagnostics and easier integration.
6. Cost-effectiveness: Analyze the total cost of ownership, including initial purchase, installation, maintenance, and potential replacement costs.
7. Evaluate the measurement technology: Choose a sensor technology that best fits the operating conditions and fluid properties.

Application of Level Sensors

Here are some key applications of level sensors:

1. Water and wastewater management: Level sensors are extensively used in water treatment plants, wastewater treatment facilities, and distribution systems to monitor water levels.
2. Chemical industry: In chemical manufacturing, level sensors monitor and control the levels of raw materials or mixtures and finished products (ready chemical compounds) in tanks and vessels.
3. Oil and gas industry: Level sensors monitor the levels in fuel tanks, separators, and storage containers. 
4. Agriculture: Level sensors are used in agricultural applications for tank-level monitoring of fertilizers and pesticides.
5. Marine: On ships and in maritime applications, level sensors monitor the ballast water, fuel, and oil tanks to maintain balance and stability of the vessel.
6. Automotive: Level sensors are used in vehicles for monitoring the fuel level in tanks and ensuring that lubricant levels are maintained. 
7. Energy production: In power plants, level sensors are critical for controlling water and steam levels to ensure efficient and safe energy production.

Frequently Asked Questions (FAQs)

• How do I install and maintain these level sensors?

Installation and maintenance instructions vary by sensor type and manufacturer. We provide detailed manuals for installation process if needed.

• How accurate are level sensors?

The accuracy of sensors depends on the model and technology used. We provide specifications for each model, including accuracy levels, to help you make an informed decision based on your accuracy needs.

• How can I order or get a quote for a level sensor?

You can order or request a quote directly through our website, by calling our sales team, or by contacting us via email.

• What types of level sensors does Cannon Water Technology offer?

We offer a variety of level sensors including submersible level sensors, radar level sensors, ultrasonic level sensors, and inline sensors, each designed to meet specific application needs in various industries.