Keeping pumping stations running often requires pumping a lot of money into them. Because these systems send massive quantities of water through the different waste water and purification stages, they are often prone to faults and almost always consume a lot of energy. Festo has developed a safe and energy-efficient automation solution for these "problem children", one that has proven itself around the world, hundreds of times. We've identified the main issue: Non-return valves, which you won't need these when you work with Festo.
In a wastewater treatment plant, the relentlessly running pumps shift huge quantities of water. This calls for massive machines and the current consumption is correspondingly high. It's no surprise then that the energy consumption of wastewater treatment plants accounts for up to 20% of public authority power costs. A large part of that goes on the pressurization account; the second biggest cost driver are the pumping stations. This is particularly the case where obsolete technology is in use, especially when several pumps are running at the same time, and when for reasons of redundancy, you have to have further pumps on stand-by.
It is clear that energy-efficient processes are called for and are being increasingly promoted. At Festo, we know that there is a potential for saving energy with most systems. Let's look at a conventional pumping station first. Or you can skip directly to the solution from Festo.
Even today, the pumping stations in many waste water and water treatment plants are still being secured in the conventional way using mechanical non-return valves. Fundamentally, non-return valves are meant to prevent the backflow of the water should the pump come to a standstill. But the solution that uses mechanical non-return valves has a number of disadvantages. Most of all, it is prone to faults and it is inefficient.
The main problem is that because of the valve disc, a non return valve creates a resistance against the performance of the pump, which it must overcome. This requires more energy than is necessary. Even worse, it impacts operational safety, because when the pump comes to a standstill, a gas bubble created by microorganisms is formed that prevents an automatic start-up of the pump. The non-return valve first has to be actuated manually so that the gas can escape from the bubble and the pump can start up.
Viewed in the long term, there is also the fact that closing non-return valves can generate a water hammer, which can cause the piping system to start to oscillate. Damage to the piping is certain to follow. And there is a further factor that shortens the service life of the whole system. Non-return valves are prone to leaks. The result of that are leakages and return flows that are difficult to identify. Once the damage has become visible, it is often not just a question of replacing the non-return valve but in the worst case, even the pump has to be replaced.
Festo offers a safe and energy-efficient solution for pumping stations that replaces mechanical non-return valves: Automated gate valves with pneumatic linear actuators. The process valves are connected over a central or a decentralized PLC.
An important argument for the pneumatic, automated knife gate valve is that the pump no longer has to work against the flow resistance generated by the flap. The energy savings that result for the operation of the pump, are far higher than the energy requirements for the additional controller and the creation of the compressed air.
The Namur valves, which are mounted directly on the linear actuator and controlled through a central or decentralized PLC, ensure that the knife gate valves open and close at the same time as the pump. If unwelcome cavitation occurs, the gas escapes from the bubble immediately after the gate valve is opened, meaning that functioning of the pump is not impacted. And as a result of the controlled closing function, water hammers are no longer created on the piping system. Added to this is the reduced wear on the automated knife gate valve and the improved sealing, which significantly lengthen the service life of the system.
Even in the case of power failures, your system remains reliable and goes to a failsafe position; if there is a voltage drop, an air reservoir springs into action automatically for the compressor. Pneumatic actuators have three emergency functions: On, off, stop. The situation-appropriate functioning of the process valves is guaranteed at all times.
Automated gate valves with pneumatic linear actuators from Festo offer a number of tangible advantages:
To date, Festo has successfully implemented the described solution in over 100 water works and more than 200 wastewater treatment plants. For example, at the Sindelfingen wastewater treatment plant. The system cleans the wastewater generated by roughly 250,000 residents in southern Germany. In the pumping station that brings the wastewater from the primary settlement tank for biological treatment, there are six centrifugal pumps, each with a power consumption of 90 kW and a flow rate of up to 500 l/s at a delivery head of 8 to 9 m. Depending on the quantity of wastewater, up to five of the six pumps are in operation at any one time. One pump is there for redundancy purposes.
Before the conversion, the non-return valves were held permanently open, which however reduced the flow rate by up to 10%. In addition, the free flow cross section was reduced, and the piping system suffered from water hammers when the non return valve closed.
Since we replaced the non-return valves completely and functionally with the pneumatic automation of the existing knife gate valves, the same pump flow rate has been achieved with significantly less energy. As a result, the Sindelfingen wastewater treatment plant saves annually almost 90,000 kWh. This corresponds to 2% of the wastewater treatment plant's total energy requirements and represents an annual saving of over 11,000 Euro. The authority invested 25,000 Euro. Do the math and see just how quickly Festo automation will have paid for itself.