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BATURIN ® is one of the largest European manufacturers of Rotors and Stators for Construction Equipment such as Plastering Machines and Mortar Pumps, as well as Progressive Cavity Pumps for general industries.
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Rotors and Stators

Comprehensive range of progressive cavity pumps for any industry or application.
D6-3 Rotors and Stators for Plastering Machines and Mortar Pumps
D6-3

Rotors & Stators

  • Capacity (at 400 rpm) 20 lit/min
  • Capacity (at 200 rpm) 10 lit/min
  • Working pressure (max) 30 bar
  • Grain Size (max) up to 3 mm
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D6-3 Slim Stators and Rotors for Plastering Machines
D6-3 Slim

Rotors & Stators

  • Capacity (at 400 rpm) 20 lit/min
  • Capacity (at 200 rpm) 10 lit/min
  • Working pressure (max) 25 bar
  • Grain Size (max) up to 3 mm
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D7-2,5 Rotors & Stators
D7-2,5

Rotors & Stators

  • Capacity (at 400 rpm) 25 lit/min
  • Capacity (at 200 rpm) 13 lit/min
  • Working pressure (max) 25 bar
  • Grain Size (max) up to 3 mm
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D8-2 Stators and Rotors for Plastering Machines
D8-2

Rotors & Stators

  • Capacity (at 400 rpm) 32 lit/min
  • Capacity (at 200 rpm) 16 lit/min
  • Working pressure (max) 25 bar
  • Grain Size (max) up to 3 mm
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D8-1,5 Rotors and Stators for Plastering Machines and Mortar Pumps
D8-1,5

Rotors & Stators

  • Capacity (at 400 rpm) 36 lit/min
  • Capacity (at 200 rpm) 18 lit/min
  • Working pressure (max) 15 bar
  • Grain Size (max) up to 3 mm
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D5-2.5 Stators and Rotors for Plastering Machines
D5-2,5

Rotors & Stators

  • Capacity (at 400 rpm) 25 lit/min
  • Capacity (at 200 rpm) 12 lit/min
  • Working pressure (max) 25 bar
  • Grain Size (max) up to 3 mm
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B4-1,5 Rotors and Stators for Plastering Machines PFT Knauf
B4-1,5

Rotors & Stators

  • Capacity (at 400 rpm) 10 lit/min
  • Capacity (at 200 rpm) 5 lit/min
  • Working pressure (max) 15 bar
  • Grain Size (max) up to 2 mm
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B4-2 Rotors and Stators for Plastering Machines PFT Knauf
B4-2

Rotors & Stators

  • Capacity (at 400 rpm) 10 lit/min
  • Capacity (at 200 rpm) 5 lit/min
  • Working pressure (max) 20 bar
  • Grain Size (max) up to 2 mm
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2L6 Rotors and Stators for Mortar Pumps
2L6

Rotors & Stators

  • Capacity (at 400 rpm) 60 lit/min
  • Capacity (at 200 rpm) 30 lit/min
  • Working pressure (max) 20 bar
  • Grain Size (max) up to 6 mm
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2L6+++ Rotors and Stators for Mortar Pumps
2L6+++

Rotors & Stators

  • Capacity (at 400 rpm) 110 lit/min
  • Capacity (at 200 rpm) 55 lit/min
  • Working pressure (max) 20 bar
  • Grain Size (max) up to 6 mm
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60.12 Rotors and Stators for Mortar Pumps
60.12

Rotors & Stators

  • Capacity (at 400 rpm) 270 lit/min
  • Capacity (at 200 rpm) 130 lit/min
  • Working pressure (max) 20 bar
  • Grain Size (max) up to 10 mm
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2L8 Rotors and Stators for Mortar Pumps
2L8

Rotors & Stators

  • Capacity (at 400 rpm) 450 lit/min
  • Capacity (at 200 rpm) 220 lit/min
  • Working pressure (max) 20 bar
  • Grain Size (max) up to 10 mm
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Concrete & Plastering Machines
EH-800

Rotors & Stators

  • Capacity (at 400 rpm) 300 lit/min
  • Capacity (at 200 rpm) 150 lit/min
  • Working pressure (max) 12 bar
  • Grain Size (max) up to 10 mm
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Netzsch Pumps, Rotors, Stators
Netzsch ® Equivalent

Rotors & Stators

  • Aftermarket Rotors & Stators
  • Aftermarket Spare Parts
  • Aftermarket PC Pumps
  • Prompt DeliveryWorldwide
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Need a quote right NOW?

BATURIN ® provides the fastest quotation for your requests of the products and shipment. Just make a request for our sales.

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Frequently Asked Questions

Top 10 the most common questions about Progressive Cavity Single Screw Pumps.

What is a progressive cavity pump, and how does it work?

A progressive cavity pump is a type of positive displacement pump that operates through the interaction of a helical rotor and a stator. The rotor, a screw-like component, fits within the stator, a tube with a matching internal profile. As the rotor turns within the stator, a series of sealed cavities form and progress from the inlet to the outlet side of the pump. This action displaces fluid, creating a continuous and gentle flow. The pump's design allows it to handle a wide range of viscosities, making it suitable for transferring fluids from thin liquids to thick pastes, while its positive displacement nature ensures consistent performance even with challenging materials like abrasive slurries or highly viscous substances.

What are the advantages of using progressive cavity pumps?

Using progressive cavity pumps offers several advantages across industries: they excel in transferring fluids with varying viscosities, from low to high, maintaining product integrity; their gentle, non-pulsating flow is ideal for shear-sensitive materials; they handle fluids containing solids or abrasives effectively; self-priming capability streamlines operations; accurate dosing is possible for precise applications; and their adaptability spans industries such as wastewater treatment, oil and gas, and food processing.

Where are progressive cavity pumps commonly used across industries?

Progressive cavity pumps find wide application across diverse industries: in wastewater treatment, they handle sludge and chemicals; in the oil and gas sector, they transfer viscous crude oil and drilling mud; the food and beverage industry uses them for gentle handling of sauces and purees; mining relies on them for abrasive slurries and viscous materials; the chemical industry benefits from their ability to handle corrosive chemicals; the pulp and paper industry employs them for paper pulp and additives; marine operations utilize them for bilge water and fluids; the biogas industry employs them in handling organic waste; and the construction field relies on them for grouts, coatings, and slurries, demonstrating their versatility and essential role in various sectors.

How do progressive cavity pumps handle high-viscosity fluids and solids?

Progressive cavity pumps excel in handling high-viscosity fluids and solids due to their unique design: the helical rotor and stator combination creates sealed cavities that trap and progressively move the fluid or solids. As the rotor turns within the stator, the cavities decrease in size, compressing the material and generating the pressure required for movement. This design minimizes shear forces, enabling the pump to gently and efficiently handle high-viscosity fluids without compromising product quality. Additionally, the pump's design accommodates solids by preventing clogging; the cavities' self-cleaning action and minimal clearance between rotor and stator ensure effective transportation of solids-laden fluids, making progressive cavity pumps suitable for applications involving slurries and materials with suspended particles.

What are the main components of a progressive cavity pump?

The main components of a progressive cavity pump include a helical rotor and a stator. The rotor, resembling a screw, is a central shaft with helical threads that fit into the stator, a cylindrical tube with a matching internal profile. Together, these components create sealed cavities that progress from the pump's inlet to outlet side as the rotor turns within the stator. Other essential elements include bearings that support the rotor's rotation, shaft seals to prevent fluid leakage along the shaft, inlet and outlet ports for fluid entry and exit, a drive mechanism often in the form of an electric motor, and a coupling connecting the drive to the pump's shaft. These components collectively facilitate the pump's positive displacement action and efficient transfer of fluids, while additional features like a hopper and feed screw can aid in pumping solids or viscous materials.

How do you select the right progressive cavity pump for a specific application?

Selecting the right progressive cavity pump for a specific application involves considering key factors such as the nature of the pumped fluid, its viscosity, solids content, corrosiveness, temperature, flow rate, and pressure requirements. Evaluating the pump's material compatibility with the fluid is essential to ensure durability. Additionally, assessing the need for special features like hopper feeding or explosion-proof designs, along with the space available for installation, helps tailor the pump to the application's unique demands. Collaborating with pump manufacturers or experts to analyze these parameters aids in choosing the appropriate pump size, configuration, and materials that best match the requirements of the intended application, ultimately optimizing performance and efficiency.

What maintenance and servicing are required for progressive cavity pumps?

Maintenance and servicing for progressive cavity pumps include regular inspection of rotor and stator wear, replacement of components when necessary, and lubrication of bearings and seals. Cleaning and flushing of the pump to prevent buildup and clogging are vital, particularly when handling solids or abrasive materials. Monitoring shaft seals and checking for leakage helps maintain pump efficiency. Ensuring proper alignment and tension of belts, if applicable, contributes to smooth operation. Additionally, adhering to manufacturer-recommended maintenance schedules, training personnel on proper operation, and addressing any issues promptly are essential practices to extend pump lifespan and sustain optimal performance.

Can progressive cavity pumps handle corrosive or abrasive fluids?

Yes, progressive cavity pumps are capable of handling both corrosive and abrasive fluids due to their unique design. The close tolerances between the rotor and stator prevent contact between the pumped fluid and the pump's metal components, reducing the risk of corrosion. Additionally, the gentle and consistent flow provided by progressive cavity pumps minimizes the impact of abrasive particles on the pump's internal surfaces. By selecting appropriate materials for the rotor, stator, and other components, and ensuring proper maintenance practices, progressive cavity pumps can effectively handle fluids with corrosive properties and abrasive content, making them suitable for applications in industries such as chemical processing, mining, and wastewater treatment.

What is the efficiency and energy consumption of progressive cavity pumps?

The efficiency of progressive cavity pumps can vary based on factors such as fluid viscosity, pressure requirements, and pump design. Generally, these pumps offer high volumetric efficiency and consistent flow, making them well-suited for applications requiring accurate dosing and handling of shear-sensitive materials. However, their efficiency can decrease at lower speeds or when handling highly viscous fluids. Energy consumption is influenced by the pump's size, speed, and operating conditions. While progressive cavity pumps may require more energy than some other pump types due to their positive displacement nature, they excel in handling challenging fluids, ultimately contributing to efficient and reliable fluid transfer in a wide range of industries.

How does the choice of materials impact the performance of progressive cavity pumps?

The choice of materials significantly impacts the performance of progressive cavity pumps. The compatibility of materials with the pumped fluid determines factors such as corrosion resistance, wear resistance, and overall durability. Using the right materials ensures that the pump can handle corrosive chemicals without degradation or contamination, and it can transfer abrasive fluids without excessive wear on the rotor and stator. Material selection also influences the pump's ability to handle different temperature ranges and maintain its efficiency over time. Additionally, proper material choices prevent reactions that could alter the fluid's properties and negatively affect pump performance. By selecting materials that align with the specific characteristics of the pumped fluid, the pump can deliver reliable and efficient performance while extending its operational lifespan.

Need a custom solution?

BATURIN ® is a leader on the market for individual custom solutions for very special needs. Our team provides prompt design and quotes for the most sophisticated requests.

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We Deliver Worldwide

Progressive cavity pumps offer several advantages that make them suitable for a variety of applications in different industries. Here are six advantages of using progressive cavity pumps

Contact Us

BATURIN ® European Headquarters is based in Poland that allows to deliver our product at any European country.

BATURIN POLAND sp. z o.o.

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About Us

Overview of our company's history, values, and mission.
"We see Industrial manufacturing as the art of crafting precision and efficiency into the production of goods on a large scale."

BATURIN® originated in 1991 as a family-owned company with a unique focus on the potential applications of Progressive Cavity Pumps technology. The company's initial formation was as a laboratory dedicated to researching the viability of using Progressive Cavity Pumps in the aerospace industry for the precise conveyance of fuel components. This marked the inception of BATURIN®'s journey, where the exploration of innovative solutions began.

As time progressed, BATURIN® transitioned from its experimental beginnings into a significant player in the manufacturing landscape. The company expanded its horizons beyond the aerospace industry and evolved into a prominent manufacturer of Progressive Cavity Pumps and Parts. With a comprehensive understanding of the technology's capabilities, BATURIN® broadened its reach to serve a diverse array of industries, becoming a reliable provider for a wide spectrum of applications. Today, the company stands as a testament to the evolution of vision into reality, offering quality solutions that span across multiple sectors.

BATURIN® pays special attention to the development and implementation of cutting-edge technologies into each product while maintaining a classical approach to lean manufacturing, which is the foundation of the company's success. To meet the highest customer requirements, BATURIN® possesses all the necessary technical capabilities and a team of specialized experts:

5,000+ square meters of production area
300+ square meters of laboratories
600+ square meters of office space
100+ employees
10+ certified engineers

Annual production volume:

6,000+ screw pumps per year
70,000+ stators per year
70,000+ rotors per year

BATURIN®'s main manufacturing facilities are strategically located in both Europe and Asia, a deliberate choice that bestows the company with remarkable efficiency and adaptability in both production and global product distribution. This geographic advantage allows BATURIN® to effectively serve customers across the world by ensuring seamless production processes and efficient shipment to various destinations.

In addition, BATURIN® boasts an extensive network of branches and representatives spanning Europe, Asia, Africa, North and South America. This expansive presence empowers the company to provide customers with an unparalleled level of support, catering to their needs on a local and global scale.
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