Mastering Electric Actuator Selection: The Key to Efficient Water Treatment

Mastering Electric Actuator Selection: The Key to Efficient Water Treatment

Simple Valve |

Hello, dear colleagues! Today, we're diving into the fascinating world of electric actuators for valves and gates in water treatment systems. As an engineer with years of experience in this field, I often encounter questions about choosing the optimal equipment. Let's explore what you should consider when selecting electric actuators to ensure efficient and reliable operation of your water treatment system.

Types of Electric Actuators and Their Characteristics

Let's start with the most crucial aspect – the types of electric actuators. In water treatment systems, we typically encounter three main types:

  1. Multi-turn actuators: Ideal for rising stem gates. They provide precise flow control and can withstand high loads.

  2. Part-turn actuators: Work excellently with ball valves and butterfly valves. Their advantage is quick opening and closing.

  3. Linear actuators: Used to control knife gate valves. They provide linear motion, perfect for regulating flow in certain types of valves.

Each type has its peculiarities, and the choice depends on the specific application. For instance, last year, we worked on upgrading a water treatment plant in Barcelona. We used a combination of multi-turn and part-turn actuators, which allowed us to optimize flow control at various stages of treatment.

It's important to note that these actuators should comply with the European standard EN 15714-2:2009, which specifies requirements for part-turn and multi-turn electric actuators for industrial valves.

Requirements for Positioning Accuracy and Response Speed

Positioning accuracy and response speed are critical parameters for the efficient operation of a water treatment system.

Positioning accuracy determines how precisely the actuator can set the valve or gate to a specified position. Modern systems require accuracy up to 0.1% of full stroke. This is especially important when dosing reagents or regulating flow at critical points in the treatment process.

Response speed affects the system's reaction time. In some cases, such as emergency shutdowns, quick response (less than 1 second) is required, while for other operations, slower movement (up to 30 seconds or more) is acceptable.

I remember a case at one of the water treatment plants in Valencia where we faced the problem of water hammers due to the too rapid closure of gates. The solution was to install electric actuators with adjustable speed, which allowed for smooth gate closure and avoided pipeline damage.

Protection Against Overloads and Emergency Situations

Safety is something we can't economize on. Modern electric actuators must be equipped with reliable protection systems:

  • Torque overload protection: Prevents damage to the actuator and valve in case of jamming or excessive force.

  • Thermal protection: Protects the motor from overheating.

  • Phase failure protection: Important for three-phase motors.

  • Safe torque off function: Ensures immediate shutdown in emergency situations.

Moreover, many modern actuators are equipped with self-diagnostic functions that allow predicting potential problems before they occur. This significantly increases system reliability and reduces the risk of unplanned downtime.

It's crucial to ensure that the actuators comply with the CE marking requirements, which is mandatory for products sold in the European Economic Area (EEA). This marking indicates that the product meets high safety, health, and environmental protection requirements.

Energy Efficiency and Energy Recovery Possibilities

In an era where energy efficiency is becoming increasingly important, choosing the right electric actuator can significantly reduce your water treatment system's energy consumption.

Modern electric actuators are often equipped with frequency converters, which allow optimizing motor operation depending on the load. This can reduce energy consumption by 30-50% compared to traditional systems.

An interesting technology that we recently implemented on a project in Madrid is actuators with energy recovery capability. When closing large gates on pressure pipelines, these actuators can convert the kinetic energy of the flow into electrical energy, which is then used for other plant needs. This not only saves energy but also reduces the load on the mechanical parts of the system.

Integration with SCADA Systems and Communication Protocols

In today's world of automation, it's critical that electric actuators easily integrate into the overall control system. Most modern actuators support standard communication protocols such as:

  • Modbus

  • Profibus

  • Foundation Fieldbus

  • HART

The choice of a specific protocol depends on your existing infrastructure and requirements for speed and reliability of data transmission. For example, in the project to modernize the water supply system in Seville, we used actuators with Profibus DP support, which made it easy to integrate them into the existing SCADA system and ensure high-speed data exchange.

In addition, many modern actuators support wireless communication technologies such as Bluetooth or Wi-Fi. This simplifies the process of setup and diagnostics, especially in hard-to-reach places.

Adaptation to Aggressive Environments and Extreme Operating Conditions

Water treatment systems often operate in challenging conditions: high humidity, presence of aggressive chemicals, extreme temperatures. Therefore, when choosing an electric actuator, it's necessary to consider the following factors:

  • Degree of protection: The minimum standard for water treatment systems is IP67 (complete protection against dust and temporary immersion in water). For particularly challenging conditions, IP68 (prolonged immersion) is recommended. These ratings are defined in the EN 60529 standard.

  • Corrosion resistance: The actuator housing should be made of corrosion-resistant materials, such as stainless steel or special polymers.

  • Temperature range: Ensure that the chosen actuator can operate in your system's temperature range. Some models can function from -40°C to +80°C.

  • Explosion protection: If your system contains explosive gases (for example, methane in wastewater treatment systems), it's necessary to choose actuators with appropriate ATEX certification.

ATEX Directive and Explosion Protection

The ATEX Directive 2014/34/EU regulates equipment and protective systems intended for use in potentially explosive atmospheres in the EU. When selecting actuators for potentially explosive environments, it's crucial to understand and comply with this directive.

ATEX classifies equipment into different categories based on the level of protection they offer:

  1. Category 1: Very high level of protection

  2. Category 2: High level of protection

  3. Category 3: Normal level of protection

For water treatment plants, especially those dealing with wastewater, Category 2 equipment is often required. This category is suitable for areas where explosive atmospheres are likely to occur in normal operation.

When selecting an actuator for a potentially explosive environment, ensure it has the appropriate ATEX marking. This marking includes:

  • The Ex symbol

  • The equipment group (I for mines, II for other environments)

  • The category (1, 2, or 3)

  • The type of explosive atmosphere (G for gas, D for dust)

For example, an actuator marked II 2G is suitable for use in Zone 1 areas with a potentially explosive gas atmosphere.

Remember, using ATEX-certified equipment is not just about compliance – it's about ensuring the safety of your staff and facilities. Always consult with experts when dealing with potentially explosive environments.

Recently, we worked on a project in the coastal area of Costa Brava, where electric actuators were exposed to salty sea air. We chose actuators with marine grade stainless steel housing and additional protective coating, which ensured their reliable operation in these aggressive conditions.

Conclusion

Choosing the right electric actuator for valves and gates in water treatment systems is a complex but extremely important task. The right decision can significantly increase your system's efficiency, reduce operating costs, and extend equipment life.

Remember, there's no one-size-fits-all solution. Each project is unique and requires an individual approach. Don't be afraid to consult with experts and manufacturers – their experience can be invaluable in choosing the optimal solution for your system.

And finally, friends, remember: water is life, and our work in purifying it is incredibly important. Let's create systems together that will work efficiently, reliably, and ecologically. Good luck with your projects!