Pumping Stations and Lift Stations are essential part of Water and Wastewater Management Systems. They ensure that liquids such as water or sewage travel smoothly across long distances or from lower levels to higher levels. A Swing Check Valve is a critical and essential device in their operations that prevents backflow of the fluids and safeguards the systems efficiency, durability, and longevity.

What are Swing Check Valves?

A Swing Check Valve is a type of check valve that allows forward flow of water and sewage, while blocking its reverse flow. It provides the best option for applications that require a unidirectional homogeneous flow. The valve body, seat, and disc linked to the hinge form the main physical components of a swing check valve. Upon receiving a specific flow rate, the disc rotates to a horizontal position allowing forward flow of the liquid. When the flow stops, the disc returns back to the seat preventing backflow of the liquid. This simple yet effective mechanism ensures unidirectional flow, and prevents damage to the system due to back flow or reverse surges of the liquid. There are a variety of seat and disc designs available for use depending upon the process media characteristics and the requirements of the specific application. The flow rate to achieve stable operation depends upon the valve size, which in turn is determined by the suitability of the working conditions.

Why are Swing Check Valves used in Pumping Stations and Lift Stations?

Swing Check Valves are crucial in Pumping Stations and Lift Stations for the following reasons:

 

Prevents Backflow
In Pumping Stations and Lift Stations backflow can disrupt operations and reduce operational efficiency by damaging meters, compressors, filters, pumps, and other devices built for unidirectional flow. Swing check valves safeguard the pumps by preventing reverse flow, thereby maintaining system integrity.

 

Protects Against Media Contamination or Mixing
By preventing reverse flow, swing check valves protect against the mixing of different media between two reservoirs. For example in a Water Treatment Plant, swing check valve prevent contamination by stopping the treated water from flowing back in to the untreated water reservoir.

 

Prevents Drainage
If a pump ceases operation while pumping water from the suction reservoir to the discharge reservoir, reverse flow is quite likely to happen. Swing check valves help prevent this.

 

Protects Against Water Hammer
While pumping water, due to a sudden surge in water pressure caused by changes in water momentum causes Water Hammer, which can damage the equipment or the water pipelines. Swing check valves diminish the impact of sudden flow changes, by gradually closing the flow of water, thereby minimizing the risk of damage.

 

Low Maintenance Cost and Longevity
Because of their simple, yet sturdy design swing check valves require minimal maintenance. This makes them a cost-effective choice for long-term use in demanding operations like pumping stations and lift stations.

Energy Efficiency
Since swing check valves eliminate backflow, they are able to maintain consistent levels of pressure of the system. This lowers energy wastage, while ensuring that the pumps operate to optimal efficiency.

Applications of Swing Check Valves

Swing check valves are most commonly used in:

  • Municipal Water Systems
  • Industrial Water Systems
  • Waste Water Management
  • Irrigation Systems
  • Storm Water Drainage.
  • Lift Stations
  • Industrial Fluid Systems

FAQs

Q1. What materials are used to manufacture swing check valves?

Swing check valves are usually made from materials like cast iron, ductile steel, stainless steel, and bronze. Their suitability depends upon the applications pressure, temperature, and fluid characteristics.

Q2. What are the factors upon which you choose the right swing check valve for your system?

The following factors need to be considered to choose the right swing check valve:

  • Type of Fluid : Water, Sewage, Chemicals
  • Operating Pressure
  • Operating Temperature
  • Flow Rate
  • Velocity
  • Size of Pipe
  • Material Compatibility

Always consult a valve expert to help you guide select the most appropriate type of valve for your application.

Q3. What are the maintenance requirements of a swing check valve?

Though swing check valves require minimal maintenance, it is always prudent to conduct periodic inspections for wear and tear, debris or sediment formation, cleaning to ensure proper operation of flap or lid, in case of even slight breakage it is advisable to immediately replace the valve.

Q4. What makes swing check valves energy efficient?

Since swing check valves prevent backflow and can maintain consistent system pressure, they reduce the energy consumption required for operating pumps, which leads to cost savings and enhanced efficiency.

Q5. Can swing check valves be used in horizontal and vertical installations?

Yes swing check valves can be installed in both the vertical and horizontal flow installations and pipe lines, provided the flow direction is upwards in vertical installations.

Q6. What are the challenges that swing check valves can face?

The potential challenges that swing check valves may face over a period of time include wear and tear, debris accumulation, sediment accumulation, noise caused by impact closing in high velocity system operations. Proper sizing and regular maintenance can mitigate these problems considerably.

Q7. Why are swing check valves cost-effective?

Their simple mechanism, minimal maintenance requirement, durability, and performance longevity makes swing check valves cost-effective.

Conclusion

For pumping and lift stations to operate efficiently and reliably, swing check valves are of utmost importance. By preventing backflow and reducing the impact of water hammer, swing check valves greatly enhance the system efficiency, overall performance, and longevity of water and water management systems. As the demand for sustainable and efficient infrastructure rises, the importance of dependable components like swing check valves will only increase. It is therefore very critical to comprehend and choose the most appropriate swing check valve for a particular system. Investing in high quality swing check valves not only enhances the systems efficiency but also safeguards critical infrastructure and increases its performance longevity.

STEELSTRONG VALVES specializes in an assortment of valves, such as Swing Check, Gate, Globe, Check, Ball, and Cryogenic valves. It complies with numerous standards like ASME-ANSI, API, and BS. The company offers a wide selection of sizes, pressure ratings, and materials like Carbon Steel, Alloy Steel, Stainless Steel, Duplex, and Monel. SteelStrong demonstrates a strong commitment to continuous improvement in quality management systems, and customer satisfaction, while adhering to international standards and regulatory requirements.