VERDERMAG

The Verdermag magnetic drive pump series ensures 100% leak-free operation.

Thanks to these features, it enables the safe and efficient transfer of hazardous and aggressive fluids.

Ana Sayfa The Verdermag magnetic drive pump series ensures 100% leak-free operation. Thanks to these features, it enables the safe

The Verdermag series is offered in metal and non-metal models, providing high performance and long-lasting use. ATEX-certified options are available for most models.

Typical Application Areas:
✔ Chemical transfer
✔ Desalination
✔ Petrochemical
✔ High temperature and high-pressure applications

These pumps are specifically designed to provide reliable and efficient liquid transfer.

How Do Magnetic Drive Pumps Work?

Magnetic drive pumps are a modern drive system that provides non-contact power transmission between the motor and the pump.

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Verdermag Global Series Magnetic Drive Centrifugal Pumps

Magnetic coupling centrifugal pumps (mag drive pumps) are innovative and reliable pumps with a hermetically sealed design.
Max. Flow Rate : 80 m³/h
Max. Pressure : 105 mss
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Verdermag Global Series Magnetic Drive Centrifugal Pumps

Magnetic drive centrifugal pumps (mag drive pumps) are innovative and reliable pumps with a hermetically sealed design.

Verdermag Global Series Magnetic Drive Centrifugal Pumps

Magnetic drive centrifugal pumps (mag drive pumps) are innovative and reliable pumps with a hermetically sealed design. They transmit power between the motor and the impeller via a magnetic coupling, thus eliminating the need for a traditional mechanical seal.

The Verdermag Global series are magnetic drive pumps with AISI 316 stainless steel construction, providing resistance to various chemicals. They can be used in high temperature-high flow applications, as well as applications with high system pressure. Compliant with ISO 2858 standard.

Magnetic drive pumps, which offer safe and efficient fluid transfer without the risk of leakage or contamination, are an excellent choice for industries where product integrity and safety are at the forefront.

Technical Specifications

  • Maximum Flow Rate: 80 m³/hour
  • Head: 105 mwc
  • Maximum Particle Size: 0.5 mm
  • Viscosity: 150 cP
  • Certifications: ATEX
  • Maximum Working Pressure: 200 bar
  • Connections: DIN / ASME
  • Operating Temperature: -20 °C/+200 °C

Features & Advantages

  • AISI 316 stainless steel construction provides resistance to a wide range of chemicals. (Casing, Impeller, Shaft, Sleeve are AISI 316 stainless steel. Bearings are Silicon Carbide, Magnet Samarium Cobalt, O-ring Viton/EPDM/PTFE)
  • The Hastelloy C fluid containment sleeve reduces heat generated by induction current and increases the overall efficiency of the pump.
  • The modular structure shortens delivery times and provides stock delivery in some models.
  • Using only four bearing types for the entire product range provides very little spare parts requirement for a pump group.
  • Silicon carbide bearings provide long-term use with low maintenance requirements and low operating costs.
  • Simple design provides efficient pumping and easy maintenance.
  • Samarium cobalt magnets are capable of operating without problems even in operating conditions where the pump's design temperatures are exceeded.
  • The company's superior engineering enables the development of specialized pumps for specific applications.
  • All models have a quick installation "cartridge" option. Thus, the downtime of the pump during maintenance is minimized in critical applications.

Related Applications

  • Chemical processes
  • Unloading in tank farms
  • In re-circulation
  • Thermal oil transfer
  • Pharmaceutical industry
  • In specialty chemicals
  • In the petrochemical industry, such as oil and offshore

How Do Magnetic Drive Pumps Work?

Thanks to the double magnet structure consisting of an external and internal magnet, there is no mechanical seal that directly contacts the pump shaft. The elimination of this mechanical contact ensures 100% leak-proof, low maintenance costs and long service life.

Magnetic couplings are widely preferred, especially in processes where leakage is unacceptable, such as acids, solvents, hazardous chemicals, and volatile substances. Thanks to the hermetically sealed body, the fluid does not come into contact with the external environment in any way. Therefore, it provides safe operation in the chemical industry, treatment plants, surface treatment lines, pharmaceutical processes, and ATEX zones.

Thanks to non-contact power transmission, the inner and outer magnets rotate synchronously with the effect of the magnetic field. This movement enables the impeller to rotate, allowing the fluid to be sent to the pump outlet line under pressure.

Unlike conventional pumps, no mechanical seal is used; thus, the risk of leakage is completely eliminated.

Thanks to this structure:

✔ 100% Leak-Proof

The pump body is hermetically sealed, and no contact occurs between the liquid and the external environment. Since there is no mechanical seal, the risk of leakage is completely eliminated.

✔ No Mechanical Wear

Since the coupling operates without contact, there is no heating or wear due to friction. This significantly reduces maintenance costs.

✔ The Safest Choice in Chemical and Hazardous Fluids

Leakage is an unacceptable risk in acids, solvents, toxic and environmentally risky fluids. Magnetic drive pumps have become standard in this type of fluid.

✔ Suitable for ATEX and Explosive Environments

It can be used safely in hazardous areas because there is no spark or friction.

Why Choose Magnetic Drive Pumps

✔ Processes where leakage is unacceptable
✔ Chemical and corrosive fluids
✔ Explosive atmospheres (ATEX)
✔ Facilities with high environmental risk
✔ Expectation of long maintenance intervals and low operating costs

Magnetic Drive Centrifugal Pumps

The most preferred structure in modern chemical and process industries is magnetic drive centrifugal pumps.

  • The motor rotates the outer magnet.
  • The outer magnet rotates the inner magnet synchronously with the magnetic field.
  • The inner magnet rotates the impeller, transferring the liquid along the line.
    Since this system is seal-less, the liquid and internal components are completely isolated from the external environment.
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