Pitch Blade Turbine Manufacturer in India β Trusted by Industry Leaders
Looking for a reliable Pitch Blade Turbine Manufacturer in India? At SV Industries, we specialize in designing and manufacturing high-performance pitch blade turbines that deliver efficient mixing, precise flow control, and long-lasting performance across multiple industries.
With a proven track record in chemical, pharmaceutical, and food processing sectors, our turbines are engineered to meet the toughest industrial demands. From custom blade angles to robust shaft designs, every component is built with quality, safety, and performance in mind. Serving industry leaders with over a decade of experience in agitator and impeller manufacturing, SV Industries is your trusted partner in mixing technology.
π Explore Our Full Range of Industrial Agitators:
What is a Pitch Blade Turbine? β Definition & Overview
A Pitch Blade Turbine is a type of industrial mixing impeller designed to generate axial flow in a vessel. It consists of blades mounted at a fixed angleβusually 30Β° to 45Β°βfrom the shaft, allowing the fluid to move vertically through the tank for effective mixing.
Used in medium to high-viscosity fluids, pitch blade turbines are commonly found in chemical reactors, fermentation tanks, and blending systems where both top-to-bottom circulation and efficient mass transfer are required.
β What is a Pitch Blade Turbine?
A pitch blade turbine is a mechanical mixing device with angled blades that create an axial flow pattern, ensuring uniform mixing of liquid-phase or liquid-solid systems.
β Typically used in:
Chemical processing reactors
Food and beverage blending
Pharmaceutical mixing systems
Viscous liquid agitation
π Mounted on a vertical or angled shaft and often customized based on:
Tank size
Viscosity of the fluid
Mixing speed requirements
βοΈ Key Features & Characteristics
Blade Angle: Standard options are 30Β°, 45Β°, or custom based on flow needs
Flow Pattern: Promotes axial flow for uniform vertical circulation
Mounting Style: Primarily vertically mounted, suitable for tall tanks
Material Options: Available in SS304, SS316L, and other alloys
Versatility: Works in both batch and continuous processes
π‘ Ideal for use with Anchor Impellers or Paddle Impellers in hybrid agitation systems.
How Does a Pitch Blade Turbine Work? β Working Principle Explained
A Pitch Blade Turbine (PBT) operates on a simple yet highly effective mixing principle, combining both axial and radial flow to ensure uniform mixing in a wide range of industrial applications. This impeller design is especially useful in blending low to medium viscosity fluids, solid suspensions, and gas-liquid mixtures.
β How Does a Pitch Blade Turbine Work?
A Pitch Blade Turbine works by rotating pitched blades that push the fluid in both axial (vertical) and radial (horizontal) directions, creating a balanced flow for thorough mixing.
π Step-by-Step Working Principle of Pitch Blade Turbine:
1. Rotation Starts the Process
As the turbine starts rotating, its pitched bladesβtypically angled between 30Β° to 45Β°βcut through the liquid, initiating a dynamic mixing process.
2. Axial Flow Movement
The angled blades push liquid verticallyβeither upward or downwardβcreating a strong axial flow along the shaft.
3. Radial Flow Dispersion
At the same time, the blades move the fluid outward, producing radial flow that reaches the tank walls and corners.
4. Flow Balance Creates Vortex Circulation
The combined axial and radial flow generates a vortex that ensures uniform mixing, preventing dead zones in the tank.
5. Complete Suspension and Mixing
Whether itβs solid suspension, gas dispersion, or chemical blending, this mechanism ensures everything mixes thoroughly and efficiently.
π― Where is this principle used?
This mixing method is essential in:
Pitch Blade Turbine Design by SV Industries β Engineering That Performs
At SV Industries, we don’t just manufacture impellers β we engineer precision-driven solutions. Our Pitch Blade Turbine design stands out for its customizability, durability, and performance across a wide range of industrial mixing applications.
ποΈ What Sets Our Design Apart?
We combine engineering expertise with in-house manufacturing control to deliver Pitch Blade Turbines that are built for efficiency and longevity.
Custom Blade Angle Options
We tailor blade angles between 30Β° to 45Β° to meet your specific flow pattern and mixing intensity requirementsβwhether you need axial flow, radial flow, or a precise balance of both.
Premium Material Grades
Our impellers are available in SS304, SS316, SS316L, Hastelloy, and custom alloys, ensuring corrosion resistance and mechanical strength for demanding environments.
Learn more about our custom reactor vessels that pair perfectly with these materials.
Robust Shaft Coupling Design
Designed for easy maintenance and vibration-free operation, our shaft coupling ensures stable torque transmission, even under high-speed and high-load conditions.
Precision Fabrication & Welding
Every turbine is fabricated with tight tolerances, and inspected rigorously in our in-house QC lab, making sure your system delivers consistent results every time.
π§ͺ Why Choose SV Industries?
5+ years of agitator expertise
Advanced 3D modeling and simulation tools
Custom configurations for vessel integration
Proven solutions for pharma, chemicals, cosmetics, and biotech
Explore our other high-performance impellers like the Hydrofoil Impeller and Paddle Impeller to find the best fit for your process.
π€ From Design to Delivery β We Handle It All
Looking for complete agitator systems? Visit our Agitator product page or Contact Us for expert guidance on your next project.
Types of Pitch Blade Turbines Offered by SV Industries
Pitch Blade Turbines (PBTs) come in multiple configurations to suit different fluid dynamics, mixing intensities, and industrial applications. At SV Industries, we specialize in custom-designed Pitch Blade Turbines that enhance process efficiency across diverse industries.
π Common Types of Pitch Blade Turbines
2-Blade Pitch Turbine
Design: Lightweight and simple
Flow Type: Primarily axial flow
Best For: Low-viscosity fluids, mild blending, compact reactors
Industries: Cosmetics, pharmaceuticals, food additives
3-Blade Pitch Turbine
Design: Offers better flow symmetry than 2-blade
Flow Type: Combination of axial and radial
Best For: Moderate viscosity fluids and bioprocessing
Applications: Bioreactors, fermenters
Standard 4-Blade Pitch Turbine
Blade Angle: 45Β° (standard)
Flow Pattern: Balanced axial-radial flow
Best For: General-purpose industrial mixing
Used In: Chemical reactors, storage tanks
Low-Angle Pitch Turbine
Flow Type: High axial, gentle circulation
Ideal For: Heat- and shear-sensitive materials
Common in pharma and personal care industries
High-Angle Pitch Turbine (Custom)
Flow Type: More turbulent, strong shear zones
Best For: Gas-liquid dispersion, slurries, viscous blends
Upward Flow Pitch Blade Turbine
Blade Orientation: Reversed to push upward
Purpose: Solid suspension, avoids sedimentation
Ideal For: Sludge, reactive solids, and bottom-heavy mixtures
π Application Matrix
| Turbine Type | Flow Type | Application |
|---|---|---|
| 2-Blade Pitch Turbine | Axial | Low-viscosity fluids, cosmetics, mild blending |
| 3-Blade Pitch Turbine | Axial + Radial | Bioprocessing, fermenters, pharmaceuticals |
| 4-Blade Pitch Turbine | Balanced Axial-Radial | General industrial mixing |
| Low-Angle PBT | High Axial | Shear-sensitive materials, personal care |
| High-Angle PBT | Turbulent + Shear | Gas-liquid dispersion, viscous slurries |
| Upward Flow PBT | Upward Axial | Solid suspension, sludge processing |
π§ Custom Design Options at SV Industries
We provide customization for:
Blade angle, number, and width
Material grade: SS304, SS316, Hastelloy
Vessel integration and shaft design
Check out our full product catalog to explore more impeller and agitator solutions.
Applications of Pitch Blade Turbines in Industrial Mixing
Pitch Blade Turbines (PBTs) are among the most versatile impellers in the mixing world, widely used for handling medium to high-viscosity fluids across several industries. With their customizable blade angles and ability to generate axial-radial flow, PBTs deliver efficient agitation, homogeneous blending, and superior mass transferβmaking them the go-to solution for diverse industrial mixing challenges.
π Industry-wise Applications of Pitch Blade Turbines
| Industry | Key Applications |
|---|---|
| Chemical | Mixing polymers, acids, solvents, and catalysts |
| Pharmaceutical | Blending APIs, syrups, emulsions under sterile conditions |
| Food & Beverage | Agitating sauces, syrups, dairy, and starch solutions |
| Paint & Coatings | Dispersing pigments, binders, and additives uniformly |
| Water Treatment | Sludge mixing, aeration, and chemical dosing |
| Biotechnology | Fermentation and cell culture media agitation |
π§ Types of Fluids Handled by Pitch Blade Turbines
Pitch Blade Turbines are engineered to handle a wide range of fluids, including:
β Low- to Medium-Viscosity Liquids β Water, ethanol, and light chemicals
β High-Viscosity Fluids β Syrups, slurries, pastes, and gels
β Gas-Liquid Mixtures β Ideal for aeration, fermentation, and oxygen transfer
β Solid-Liquid Suspensions β Maintains uniform distribution of particulates
β Shear-Sensitive Fluids β Pharmaceuticals and cosmetics where integrity matters
Whether itβs chemical processing, pharmaceutical batch mixing, or food-grade blending, SV Industries’ Pitch Blade Turbines are built to meet your toughest mixing demands with precision-engineered performance.
Application Suitability of Pitch Blade Turbines for Different Fluids
Pitch Blade Turbines (PBTs) are renowned for their versatile performance across a wide range of fluid viscosities. Whether you’re handling low-viscosity solvents or high-viscosity industrial compounds, PBTs deliver consistent mixing efficiency, making them ideal for multiple sectors such as chemical, pharmaceutical, food processing, and paints.
This section outlines how fluid viscosity impacts the performance and suitability of Pitch Blade Turbines, allowing engineers and procurement teams to make informed equipment choices.
π§ Viscosity-Based Performance Table
| Viscosity Range | Fluid Type | Suitability | Common Applications |
|---|---|---|---|
| 0β100 cP (Low) | Water, Ethanol, Milk | β β β ββ | Dilution, Light Mixing |
| 100β1,000 cP (Medium) | Syrups, Oils, Paints | β β β β β | Blending, Heat Transfer, Emulsification |
| 1,000β10,000 cP (High) | Gels, Creams, Resins | β β β β β | Thick Mixture Agitation, Homogenization |
| 10,000+ cP (Very High) | Adhesives, Sludges, Polymers | β β β ββ | Heavy-Duty Mixing, Batch Reactors |
π Why Viscosity Matters in Turbine Mixing
Low-viscosity fluids such as water or alcohols benefit from faster axial flow and higher shear rates.
Medium to high-viscosity fluids, like creams and oils, require optimized blade pitch angles to ensure homogeneous mixing.
For very high viscosity materials, such as adhesives and polymers, PBTs provide moderate suitability when combined with slow RPM and batch mixing setups.
SV Industriesβ custom Pitch Blade Turbines are engineered for multi-viscosity compatibility, ensuring performance in diverse mixing environments.
π Application Suitability Chart β Fluid Viscosity
Understanding fluid viscosity is critical when selecting an efficient mixing solution. At SV Industries, we engineer Pitch Blade Turbines (PBTs) to deliver consistent performance across a wide range of low to high-viscosity fluids. This makes them ideal for industries such as chemical processing, pharmaceuticals, food and beverage, paints, and coatings.
Below is a visually intuitive chart that highlights the application suitability of PBTs based on the viscosity of the fluid being mixed.
π What This Chart Tells You
Low-viscosity fluids like water, solvents, and milk benefit from fast axial flow generated by PBTs.
Medium-viscosity fluids such as oils, syrups, and emulsions are ideal for balanced axial and radial flow, ensuring homogeneous mixing.
High-viscosity fluids like resins, pastes, creams, and adhesives may require customized blade pitch and speed adjustments for effective performance.
The chart helps you quickly identify whether a Pitch Blade Turbine is suitable for your application and what performance to expect based on fluid behavior.
At SV Industries, our team of experts custom-designs each turbine to optimize performance for your specific fluid and industry requirements. We also offer various impeller types like the Hydrofoil Impeller, Anchor Impeller, and Paddle Impeller for specialized applications.
π Viscosity vs Performance Chart Of Pitch Blade Turbine
Selecting the right mixing equipment depends heavily on the viscosity of the process fluid. At SV Industries, we specialize in designing Pitch Blade Turbines (PBTs) that deliver consistent mixing performance across a broad viscosity spectrumβfrom water-thin liquids to dense slurries.
The chart below demonstrates how mixing performance varies with fluid viscosity, helping industries choose the most suitable configuration of blade angle, shaft speed, and impeller size.
π What the Chart Indicates
High performance is observed in low to medium viscosity ranges (1β1,000 cP), making PBTs highly effective in applications involving solvents, emulsions, and oils.
In higher viscosity ranges (above 5,000 cP), performance may taper unless compensated with optimized blade pitch or increased power input.
This chart helps engineers, process designers, and plant managers understand where Pitch Blade Turbines offer maximum efficiency in mixing operations.
Whether you’re dealing with chemicals, pharmaceuticals, dairy products, resins, or pastes, SV Industriesβ tailored turbine designs ensure optimal shear, flow, and homogeneity.
Looking for impellers optimized for very high-viscosity fluids? Explore our Anchor Impeller or Helical Impeller solutions.
π Cavitation vs Flow Rate Chart Of Pitch Blade Turbine
Cavitation is a critical phenomenon in industrial mixing systems where vapor bubbles form and collapse due to rapid pressure drops, potentially damaging impellers and reducing mixing efficiency. At SV Industries, we engineer our Pitch Blade Turbines (PBTs) to operate within optimized flow rate ranges to minimize cavitation risk and maximize performance longevity.
The chart below provides a clear view of how flow rate influences cavitation behavior, helping process engineers maintain safe, efficient, and durable mixing operations.
π Why This Chart Matters
Low flow rates may lead to inefficient mixing but generally pose minimal cavitation risk.
High flow rates, especially at improper blade angles or with low-viscosity fluids, can cause severe cavitation, leading to blade erosion, vibration, and failure.
The chart helps determine the ideal operating flow rate that balances effective mixing with mechanical integrity.
It is especially important in high-speed operations such as paint production, solvent mixing, and chemical reactions where shear control and pressure balance are critical.
To ensure optimal performance, SV Industries customizes blade pitch, shaft speed, and impeller diameter based on your specific fluid properties and operating conditions. Explore our Agitator Range or contact us for technical consultation via the Contact Us page.
Benefits of Using SV Industries' Pitch Blade Turbines
Choosing SV Industries as your Pitch Blade Turbine manufacturer means you’re investing in high-performance, precision-engineered mixing technology backed by years of industrial expertise and customization capability.
Here are the top 8 compelling reasons why leading industries across India and beyond trust our Pitch Blade Turbines for their critical mixing operations:
π§ Custom Blade Angles
Our turbines are built with adjustable pitch angles to match your specific flow, shear, and turbulence requirementsβperfect for versatile mixing applications.
βοΈ Energy-Efficient Design
Optimized for low power consumption while delivering maximum mixing efficiency, our PBTs reduce operating costs in the long term.
π‘οΈ Corrosion-Resistant Materials
Manufactured using SS304, SS316L, Hastelloy, and other high-grade materials for superior chemical resistance and durability in aggressive environments.
ποΈ Robust Construction
Every turbine is crafted with industrial-grade shaft coupling and balanced impeller dynamics for smooth, vibration-free operation.
π Axial and Radial Flow Control
Designed to deliver an ideal balance of axial and radial flow, ensuring thorough blending even in complex fluid layers.
π§ͺ Compatible with High-Viscosity Fluids
Our turbines are proven to perform efficiently with medium- to high-viscosity fluids, including pastes, slurries, and emulsions.
π§° Quick Installation & Easy Maintenance
The modular design allows for fast installation, while our service-friendly layout ensures minimal downtime and easy cleaning.
π Proven Industry Performance
Widely used across chemical, pharmaceutical, food processing, paint, and resin industries, our PBTs deliver consistent and scalable results.
π€ Trusted by Industry Leaders
Our clients include well-known manufacturers and process companies who rely on SV Industries for precision mixing solutions. Interested in real-world performance? Visit our Gallery to explore live project visuals or reach out through our Contact Us page for a personalized demo or case study.
Technical Specifications of Pitch Blade Turbines
At SV Industries, our Pitch Blade Turbines (PBTs) are engineered to meet a wide range of industrial mixing requirements. Designed with customization, durability, and performance in mind, each unit offers flexibility across critical technical parameters to suit your specific process needs.
Explore the comprehensive technical details below:
π§ 1. Blade Diameter Range
Our PBTs are available in blade diameters ranging from 100 mm to 2000 mm, accommodating a wide variety of tank sizes and mixing intensities. Larger diameters are also available upon request for high-volume applications.
π 2. Blade Pitch Angle Options
We offer adjustable blade pitch angles typically between 30Β° to 60Β°, optimized for specific axial and radial flow balance based on your fluid dynamics and mixing goals.
ποΈ 3. Material Grades
Our turbines are manufactured using high-grade industrial materials including:
SS304 / SS316 / SS316L β Standard for chemical and pharma industries
Hastelloy / Titanium / Alloy 20 β For highly corrosive or reactive environments
Mild Steel with coatings β For general-purpose applications
βοΈ 4. Shaft Sizes
We provide custom shaft diameters from 25 mm to 150 mm, depending on load, torque, and process depth. Shaft lengths can also be adjusted to suit tank geometry and mounting height.
π οΈ 5. Mounting Options
Choose from various agitator mounting configurations such as:
Top-mounted
Bottom-mounted
Side-entry
Flange- or plate-mounted
Each design is compatible with standard tank nozzles or custom mountings.
π 6. Number of Blades
Available in multiple configurations:
2-Blade Pitch Turbine
3-Blade Pitch Turbine
4-Blade Pitch Turbine
More blades enhance mixing shear and are selected based on fluid viscosity and tank geometry.
π 7. Operating Speed Range
Our PBTs can operate efficiently at speeds between 30 to 400 RPM, depending on tank size, fluid type, and mixing purpose (blending, heat transfer, dispersion, etc.).
π§ͺ 8. Fluid Viscosity Handling
Designed to handle a broad range of viscosities:
Low-viscosity fluids (like solvents and water)
Medium-viscosity mixtures (resins, paint)
High-viscosity slurries (paste, polymers)
Performance data is validated through CFD simulation and real-world testing.
π© 9. Coupling Types
We offer standard and heavy-duty rigid, flexible, and gear couplings to match your drive system and torque requirements, reducing stress on shafts and motors.
π§° 10. Surface Finish & Coatings
Surface finish options include:
Mechanical Polish
Electropolishing
Passivation
Food-grade and pharmaceutical coatings
All finishes comply with GMP and FDA standards when required.
| Specification | Details |
|---|---|
| Blade Diameter Range | 100 mm to 2000 mm (Custom sizes available) |
| Blade Pitch Angle | 30Β° to 60Β° adjustable |
| Material Grades | SS304, SS316, SS316L, Hastelloy, Titanium, Alloy 20, MS |
| Shaft Sizes | 25 mm to 150 mm (Length customizable) |
| Mounting Options | Top, Bottom, Side-entry, Flange or Plate Mounting |
| No. of Blades | 2-Blade or 3-Blade configurations |
| Operating Speed Range | 30 to 400 RPM |
| Fluid Viscosity Range | Low to High Viscosity (Solvents to Slurries) |
| Coupling Types | Rigid, Flexible, Gear Couplings |
| Surface Finish | Mechanical Polish, Electropolish, Passivation, GMP/FDA Coating |
β Trusted Technical Reliabilitys
Whether you’re mixing chemicals, processing food ingredients, or dispersing pigments, SV Industries’ Pitch Blade Turbines are engineered with precision, durability, and full specification clarity to support engineering teams and procurement decisions.
For project-specific drawings or a personalized datasheet, visit our Contact Page or explore our other Agitator Designs like the Hydrofoil Impeller and Rushton Turbine.
π Pressure Drop vs Flow Rate Chart for Pitch Blade Turbine
In fluid mixing systems, understanding the pressure drop across the impeller at varying flow rates is essential for designing energy-efficient and performance-optimized processes. The Pitch Blade Turbine offers a unique advantage with its customizable blade angle and balanced axial-radial flow, resulting in minimal pressure loss even at higher throughput levels.
The following chart showcases how pressure changes as flow rate increases β a valuable insight for process engineers and plant designers aiming to maximize mixing efficiency without overloading the system.
π What This Chart Indicates
As seen above, while flow rate increases, the pressure drop remains within an optimal range, especially with well-calibrated impeller geometry. This means less strain on pumps, lower energy consumption, and better fluid circulation in large-scale mixing operations.
βοΈ For systems requiring high throughput with low resistance, SV Industries delivers precision-engineered Pitch Blade Turbines that ensure smooth flow and minimal hydraulic losses, making them ideal for chemical reactors, heat exchangers, and pharma-grade vessels.
π Speed vs Flow Rate Efficiency Chart for Pitch Blade Turbine
In industrial mixing, optimizing impeller speed to achieve maximum flow rate efficiency is crucial. The Pitch Blade Turbine is uniquely designed to balance axial and radial flow, making it highly efficient across a broad RPM range. This chart illustrates how changes in rotational speed (RPM) influence the volumetric flow rate, helping engineers tailor performance to specific fluid dynamics.
Understanding this relationship enables energy savings, shorter mixing times, and better product consistency β especially in applications like food processing, pharmaceuticals, and specialty chemicals.
π Insights from the Chart
From the chart, it is clear that moderate increases in RPM lead to a significant rise in flow rate efficiency, particularly in low-to-medium viscosity fluids. This performance trend highlights why Pitch Blade Turbines are ideal for blending, dispersion, and suspension mixing tasks across multiple industries.
π When you need optimized flow at controlled speeds, trust SV Industries for precision-engineered Pitch Blade Turbines that enhance process throughput while reducing operating costs.
π Torque vs RPM Performance Curve for Pitch Blade Turbine
One of the most critical performance factors in any mixing application is the relationship between torque and rotational speed (RPM). In Pitch Blade Turbines, this relationship defines how effectively the impeller can transfer energy to the fluid. At lower RPMs, torque increases significantly β making it ideal for high-viscosity mixing applications where strong shear and flow control are essential.
The chart below visualizes this inverse relationship, helping engineers and process designers select the right operational settings for maximum mixing efficiency.
π What the Chart Tells You
As shown above, torque increases as RPM decreases, confirming that Pitch Blade Turbines are best suited for low-to-medium speed applications requiring high thrust. This makes them a preferred choice in industries like chemicals, pharmaceuticals, and paints, where shear-sensitive fluids demand controlled, powerful mixing.
β For applications demanding high torque at lower RPMs, Pitch Blade Turbines by SV Industries are engineered to deliver consistent, energy-efficient performance.
Materials Used in Pitch Blade Turbine Construction
At SV Industries, we engineer Pitch Blade Turbines using premium-quality materials to ensure durability, corrosion resistance, and compliance with global standards. The choice of material significantly affects the mixing performance, chemical compatibility, and equipment lifespanβespecially in critical process industries like chemical, pharmaceutical, food, and paint.
π© Commonly Used Materials
We offer a wide range of materials based on your process requirements, fluid properties, and regulatory standards:
πΉ SS304 (Stainless Steel 304)
Ideal for general-purpose mixing in food-grade and low-corrosive environments. It offers good mechanical strength and hygiene.
πΉ SS316 / SS316L
The industry standard for pharmaceuticals, chemicals, and marine applications. Known for excellent corrosion resistance against acids, alkalis, and chlorides.
πΉ Duplex Stainless Steel
Best suited for high-strength and high-corrosion environments such as petrochemical or offshore industries. Offers higher durability and stress corrosion resistance than SS grades.
πΉ Hastelloy C-22 / C-276
A super-alloy used in extreme chemical conditions involving strong oxidizers, acids, and chlorinated solvents. Recommended for highly corrosive and high-temperature mixing applications.
πΉ MS (Mild Steel)
Suitable for basic mixing where corrosion is not a concern. Cost-effective but limited in aggressive chemical environments.
πΉ Titanium / Alloy 20 / Others
Custom materials are available on demand for highly specialized industries or unique chemical requirements.
π Certifications & Compliance
To meet global engineering and industry safety standards, our Pitch Blade Turbines are designed and fabricated in accordance with:
ASME (American Society of Mechanical Engineers) standards
GMP (Good Manufacturing Practice) for pharmaceutical-grade designs
FDA-compliant finishes, if required
ISO 9001:2015 certified manufacturing process
β Need GMP or ASME-certified Pitch Blade Turbines? Contact our experts to get documentation and technical support.
β When Should You Choose Which Material?
| Material | Best For | Avoid In |
|---|---|---|
| SS304 | Food-grade, water-based, low-corrosive mixing | Strong acids, chlorides |
| SS316 | Pharmaceuticals, solvents, chemicals | Highly reducing acids |
| Duplex Steel | Saltwater, high-pressure, offshore environments | None (high performance) |
| Hastelloy | Harsh acids (HCl, HβSOβ), extreme pH & temperature | Over-budgeted applications |
| Mild Steel (MS) | Budget applications with non-corrosive fluids | Acidic, high-humidity, chemical processes |
Still not sure which material is right for your application? Explore our expert guide or request a free consultation.
Pitch Blade Turbine Performance Chart & Mixing Efficiency Comparison
Understanding the performance of a Pitch Blade Turbine (PBT) is essential when selecting the right mixer for your industrial needs. At SV Industries, we prioritize delivering high mixing efficiency while ensuring energy optimization for every application. This section explores how mixing efficiency, power consumption, and fluid flow characteristics change with varying impeller speeds, flow rates, and fluid viscosities.
π Performance Insights Based on RPM and Flow Rates
Pitch Blade Turbines are engineered for a balanced axial and radial flow, which ensures effective dispersion, suspension, and blending in low to medium viscosity fluids. The blade pitch angle and number of blades impact how energy is transferred to the fluid, which directly affects the mixing time and power number.
Hereβs what you can expect in terms of performance:
Low RPM (60β100):
β
Gentle mixing, ideal for heat-sensitive or shear-sensitive fluids
β
Low power consumption
β
Best for homogeneous liquid-liquid mixing
Medium RPM (100β200):
β
Balanced power vs. flow efficiency
β
Suitable for suspending solids and blending viscous fluids
β
Excellent for chemical reactors and pharma vessels
High RPM (200β300+):
β
Rapid mixing, but higher power draw
β
Better suited for rapid dispersion, high-throughput mixing
β
Often used in paint, coating, and adhesive industries
π Mixing Efficiency Comparison (PBT vs. Other Impellers)
When compared with other impellers like the Rushton Turbine or Anchor Impeller, Pitch Blade Turbines provide:
30β40% better axial flow, reducing dead zones
Lower power number, translating into reduced energy cost
Versatility across tank sizes, due to custom blade diameter and shaft configuration
Reduced vortex formation, resulting in stable surface levels
π§ͺ Real-World Use Case: Paint Industry Efficiency
In a controlled mixing setup for water-based paint:
Pitch Blade Turbine achieved 95% homogenization in 6 minutes at 150 RPM
Rushton Turbine achieved 88% homogenization in 8.5 minutes
Energy saving of nearly 15% over time using a PBT
π Discover More Efficient Mixing Tools
Explore related products for hybrid mixing strategies:
π Power Consumption vs Flow Rate Chart for Pitch Blade Turbine
Understanding the power dynamics of your mixing system is essential for reducing operational costs and optimizing performance. This section analyzes the correlation between flow rate and power consumption for SV Industries’ Pitch Blade Turbines (PBTs), helping engineers and plant operators make data-driven decisions for system efficiency.
π What the Chart Reveals
This performance curve shows that power consumption increases gradually with rising flow rate, which is typical for axial-flow impellers. However, SV Industriesβ precision-engineered PBTs ensure:
Optimized blade angles for reduced drag and turbulence
Energy-efficient mixing without sacrificing fluid homogeneity
Controlled power usage across a wide range of mixing speeds and batch sizes
Our engineered design balance between axial and radial flows allows for stable energy usage, even at higher RPMs. This makes the PBT a preferred solution for industries like:
Chemical Processing (for large-volume continuous mixing)
Pharmaceuticals (for delicate, energy-sensitive reactions)
Food & Beverage (where uniformity and low energy use are critical)
If you’re looking for a power-efficient solution tailored to your process,
π© Get a Custom Pitch Blade Turbine Quote
π Efficiency vs Flow Rate Curve for Pitch Blade Turbine
When it comes to industrial mixing systems, the relationship between flow rate and mixing efficiency plays a pivotal role in operational performance. The Pitch Blade Turbine (PBT) is known for its high-efficiency mixing across a wide range of flow conditions, thanks to its customizable blade pitch and axial-radial flow profile.
The chart below illustrates how the efficiency of the PBT changes with increasing flow rates, helping engineers fine-tune their mixing setups for optimal throughput and minimal energy consumption.
π Insights from the Chart
As flow rate increases, the mixing efficiency of SV Industries’ Pitch Blade Turbine remains consistently high, reaching optimal levels at mid-to-high flow conditions. This demonstrates the turbineβs ability to:
Ensure uniform mixing of both low- and medium-viscosity fluids
Deliver energy savings through efficient hydrodynamic performance
Maintain stable flow patterns with minimal cavitation or turbulence
These features make the PBT ideal for chemical, pharmaceutical, food processing, and paint manufacturing industries, where fluid consistency, batch repeatability, and low power usage are critical.
For tailored designs or assistance with impeller sizing, get in touch with our team:
π Request a Custom Pitch Blade Turbine
SV Industries β Leading Pitch Blade Turbine Manufacturer in India
As the demand for high-performance mixing solutions grows across industries, Pitch Blade Turbine manufacturers and suppliers in India are playing a critical role in shaping innovation. Among these, SV Industries stands out with its precision engineering, customization capability, and client-first approach.
Whether you’re in the chemical, pharmaceutical, food processing, or paint industry, the right industrial agitator can drastically improve your process efficiency. SV Industries ensures every turbine meets global quality standards and operational precision, backed by our legacy of expertise.
π What Sets SV Industries Apart?
Custom-Built Pitch Blade Turbines tailored to your mixing needs β from blade diameter to pitch angle.
In-house Design & Fabrication unit with CAD/CAE tools and advanced quality checks.
Corrosion-resistant materials like SS316, Duplex Steel, and Hastelloy β built for longevity.
Expert in axial-radial flow balance for efficient blending in low to medium viscosity fluids.
Trusted by clients for delivering cost-effective, energy-efficient mixers with rapid ROI.
Fast dispatch from Gujarat-based facility with pan-India and global shipping support.
Dedicated support team for application guidance, installation, and after-sales service.
Explore our full range of agitators and mixing impellers to find the perfect solution for your plant.
π§Ύ Certifications & Clients Served
To maintain our leadership as one of the most reliable Pitch Blade Turbine manufacturers in India, we ensure full compliance with international manufacturing standards, including:
β ASME certified fabrication practices
β GMP and ISO-compliant quality protocols
β Welding and pressure tests as per DIN and ASTM
We proudly serve top-tier clients in:
π§ͺ Chemical industries (organic/inorganic processing)
π Pharmaceutical manufacturers
π₯« Food and beverage processors
π¨ Paint, dye, and pigment plants
π’οΈ Petrochemical and oil refineries
Explore some of our other products trusted across India:
Ribbon Blenders for dry mixing
Limpet Coil Reactors for thermal processing
Storage Tanks for safe material handling
Why Choose SV Industries for Your Pitch Blade Turbine Needs?
When precision, durability, and performance matter, SV Industries is your trusted partner for Pitch Blade Turbine solutions in India and beyond. With a focus on custom engineering, high-quality materials, and client-centric service, we go beyond just supplying impellers β we deliver mixing performance that scales with your process.
Whether you’re handling viscous liquids, multi-phase mixtures, or sensitive chemical formulations, our turbines are designed to offer:
β Optimized axial-radial flow balance
β Maximum mixing efficiency
β Minimal power consumption
β Superior corrosion resistance
β Long-term operational reliability
From design consultation to on-time delivery, we ensure every interaction is smooth, efficient, and tailored to your industrial requirements.
β Letβs Build the Perfect Mixer for You
π§ Need a custom-designed Pitch Blade Turbine? Or want expert guidance to choose the right impeller for your application?
π© Contact Us today or
π Request a Custom Design β and letβs optimize your mixing system together.
Frequently Asked Questions (FAQs) about Pitch Blade Turbines
What is a Pitch Blade Turbine?
A Pitch Blade Turbine is a radial-flow turbine with blades that are pitched at specific angles to the axis of rotation, used for applications requiring high shear, liquid mixing, and solid suspension.
How does a Pitch Blade Turbine work?
The turbineβs blades generate radial flow and shear forces, allowing it to mix liquids, disperse gases, and suspend solids efficiently.
What industries use Pitch Blade Turbines?
Pitch Blade Turbines are used in industries such as chemical processing, pharmaceutical manufacturing, biotechnology, food production, and wastewater treatment.
What is the difference between a Pitch Blade Turbine and other turbines?
The main difference is the ability to adjust the pitch angle of the blades, which allows for customized mixing performance in various applications.
What materials are used to make Pitch Blade Turbines?
SV Industries’ Pitch Blade Turbines are made from stainless steel and other corrosion-resistant materials, ensuring durability and resistance to harsh environments.
Can Pitch Blade Turbines handle high-viscosity fluids?
Yes, Pitch Blade Turbines are designed to handle a wide range of viscosities, from low-viscosity liquids to high-viscosity slurries.
How do I choose the right Pitch Blade Turbine for my application?
Choosing the right turbine depends on factors like fluid properties, shear requirements, and mixing goals. SV Industries offers customized Pitch Blade Turbines tailored to your specific needs.
What is the role of a Pitch Blade Turbine in fermentation?
In fermentation, the turbine provides effective gas-liquid mixing, ensuring proper oxygen transfer and solid suspension for optimal microbial growth.
How do I maintain a Pitch Blade Turbine?
Regular inspection, lubrication, and cleaning are essential to ensure the turbine operates efficiently over its lifetime.
Where does SV Industries supply Pitch Blade Turbines?
SV Industries supplies Pitch Blade Turbines to regions including Gujarat, Rajasthan, Maharashtra, Madhya Pradesh, Uttar Pradesh, and Bihar.
Get a Custom Pitch Blade Turbine Quote Today!
Need a high-performance Pitch Blade Turbine tailored to your industrial mixing requirements? At SV Industries, we offer custom-designed Pitch Blade Turbines engineered for superior efficiency, durability, and process compatibility.
Whether you’re in the chemical, pharmaceutical, food, paint, or cosmetics industry, our turbines are trusted for:
βοΈ Precise axial-radial flow balance
π© Material options like SS304, SS316, and Hastelloy
π§ͺ High mixing efficiency for low to medium-viscosity fluids
β Compliance with ASME, GMP, and global standards
π οΈ Expert consultation and in-house fabrication
Every impeller is crafted to optimize your batch results and reduce energy consumption β because your process deserves precision.
π Letβs engineer your mixing success.
π Request a Custom Quote Now
or
π¨ Contact Our Technical Team to discuss your Pitch Blade Turbine requirements today!
