Industrial Valves Selection and Sizing A Critical Engineering Decision

Valves, often the unsung heroes of industrial processes, are crucial components that regulate the flow of fluids. Their selection and sizing, seemingly mundane tasks, can significantly impact system performance, efficiency, and safety. A well-chosen valve ensures optimal fluid flow, minimizes pressure drop, and prevents operational issues. In this article, we delve into the key factors to consider when selecting and sizing valves for various applications.  

Understanding Valve Types and Applications

Before diving into the technicalities of selection and sizing, it's essential to understand the different types of valves and their specific applications:

• Gate Valves: Ideal for on-off service, providing full flow when open. 
• Globe Valves: Well-suited for throttling and regulating flow, offering precise control.  
• Ball Valves: Designed for quick-opening and closing, providing full flow when open.  
• Butterfly Valves: Used for throttling and on-off service, offering a compact design and low-pressure drop.
• Check Valves: Prevent reverse flow, protecting equipment and systems.  
• Plug Valves: Ideal for on-off service, especially in severe service conditions.  
• Diaphragm Valves: Designed for corrosive or viscous fluids, offering good sealing and low maintenance.  

Factors Influencing Valve Selection

1. Fluid Properties:

   • Viscosity: Affects flow resistance and pressure drop. 
   • Density: Influences flow rate and valve sizing. 
   • Corrosivity: Determines material selection for valve body and trim.
   • Temperature: Impacts material selection, sealing performance, and actuator requirements.
   • Particle Content: Can lead to erosion and cavitation, necessitating special valve designs.
   • Abrasiveness: Can cause wear and tear, requiring specific materials and designs. 

2. Operating Conditions:

   • Pressure: Determines valve class and material requirements.
   • Temperature: Impacts material selection and sealing performance.
   • Flow Rate: Influences valve size and type.
   • Cycle Duty: Affects valve design and actuator selection.
   • Vibration and Shock: Can lead to premature failure, requiring robust designs.

3. Service Requirements:

   • On-Off Service: Simple valves like ball or gate valves are suitable.
   • Throttling Service: Globe or butterfly valves are ideal for precise flow control. 
   • Emergency Shutdown: Quick-acting valves with reliable sealing are necessary.
   • Diversion Service: Multi-port valves can direct flow to different outlets. 
   • Mixing Service: Special valve designs are required for blending fluids.

4. Material Considerations:

   • Corrosion Resistance: Select materials compatible with the fluid.
   • Temperature Resistance: Ensure materials can withstand operating temperatures. 
   • Pressure Rating: Choose materials with sufficient strength.
   • Cost: Balance material cost with performance requirements.
   • Weight: Consider weight limitations, especially for large valves.

Valve Sizing Methodology

Valve sizing involves calculating the required flow area to ensure adequate fluid flow without excessive pressure drop. Common methods include:

1. Velocity-Based Sizing:

   • Calculates the required valve flow area based on a maximum allowable fluid velocity.
   • Ensures low noise levels and minimal erosion.

2. Pressure Drop-Based Sizing:

   • Determines the valve size that limits pressure drop to an acceptable level.
   • Balances flow capacity and energy efficiency. 

3. Flow Coefficient (Cv) Method:

   • Uses the Cv factor, a measure of valve flow capacity, to select the appropriate valve size.  
   • Requires knowledge of fluid properties and operating conditions.

Importance of Accurate Sizing

• Optimal Performance: Ensures efficient fluid flow and minimizes pressure drop.
• Reduced Energy Consumption: Minimizes pumping power requirements.
• Extended Valve Life: Prevents excessive wear and tear.
• Improved Process Control: Enables precise flow regulation. 
• Enhanced Safety: Reduces the risk of valve failure and system damage.

Real-world Example: The Oil and Gas Industry

In the oil and gas industry, valves play a critical role in controlling the flow of hydrocarbons. Incorrect valve selection can lead to significant operational challenges, including:

• Production Losses: Inefficient flow control can reduce production output.
• Safety Hazards: Malfunctioning valves can lead to leaks and fires. 
• Environmental Impact: Valve failures can result in spills and pollution.

By carefully considering factors like extreme temperatures, high pressures, and corrosive fluids, engineers can select and size valves that ensure safe and efficient operations.

Best Practices for Valve Selection and Sizing

• Consult with Valve Manufacturers: Seek expert advice on specific applications.
• Consider Future Expansion: Allow for potential increased flow rates.
• Account for Valve Tolerance: Factor in manufacturing tolerances when sizing.
• Perform Regular Maintenance: Inspect and maintain valves to ensure optimal performance.
• Consider Environmental Factors: Account for factors like ambient temperature and humidity.   

By following these best practices and staying updated with the latest advancements in valve technology, engineers can ensure the reliable and efficient operation of industrial systems.

Additional Considerations

• Valve Actuators: The selection of appropriate actuators (pneumatic, hydraulic, or electric) is crucial for reliable valve operation.
• Valve Trim: The valve trim, including the seat and plug, significantly impacts performance. Proper material selection and design are essential.  
• Valve Noise: Excessive valve noise can lead to operational issues and worker discomfort. Careful selection and sizing can help minimize noise levels. 
• Valve Cavitation: Cavitation can damage valve components and reduce efficiency. Proper valve selection and sizing can mitigate cavitation risks. 

By understanding these factors and working closely with experienced engineers, you can make informed decisions to select and size valves that will optimize your industrial processes. Freture Techno Pvt. Ltd. is leading Industrial Valves manufacturers in Mumbai, India. Providing high quality industrial valves use acroos different industry. 

The Role of Valves in the Food and Beverage Industry Ensuring Hygiene and Precision

The food and beverage industry is one of the most dynamic sectors in global manufacturing, where the quality of the final product is directly influenced by the precision of the processes involved. Industrial valves are indispensable components in these processes, serving as control points for fluids, gases, and semi-solids. Their role is not only to regulate the flow but also to ensure hygiene and compliance with food safety standards, factors that are critical for consumer health and regulatory adherence.

This article explores the applications, challenges, and advancements in valve technology for food and beverage manufacturing, offering insights into how this essential equipment supports efficiency and safety.

Key Applications of Valves in Food and Beverage Processing

Valves perform several vital roles in the food and beverage sector. Here are some of their key applications:

1. Flow Regulation for Consistent Production:
   Valves control the movement of liquids like milk, juices, oils, and water throughout production lines. For example, in beverage production, precise flow regulation ensures that the exact amount of liquid is delivered to each bottle. This accuracy minimizes waste and maintains consistency, a critical factor in retaining product quality and consumer trust.

2. Safety and Contamination Prevention:
   Valves are essential for maintaining a sealed environment to prevent contamination from external sources. In dairy processing, for example, valves prevent bacterial contamination during the transfer of milk between pasteurizers and storage tanks. This role is critical for meeting stringent health and safety standards.

3. Pressure and Temperature Control in Specialized Processes:
   Many food processes, such as pasteurization, involve heating ingredients to eliminate pathogens. Valves are used to precisely control temperature and pressure, ensuring the process is both effective and energy-efficient. Similarly, carbonated beverage production requires valves capable of handling high-pressure environments to manage the infusion of CO2.

4. Facilitating Seamless Cleaning Processes:
   In modern food production facilities, cleaning and sterilization processes are often automated to minimize downtime. Valves designed for CIP (Clean-in-Place) and SIP (Sterilization-in-Place) systems ensure that all surfaces in contact with food can be effectively cleaned without dismantling the equipment.

Common Valve Types Used in Food Processing

Different stages of food production require specialized valve designs tailored to the process. Here are some common types:

1. Sanitary Ball Valves:
   These valves feature a full-bore design, allowing fluids to pass through without obstructions, which prevents residue buildup. Their smooth surfaces and food-grade seals make them ideal for handling liquid ingredients like syrups, sauces, and dairy products.

2. Butterfly Valves:
   Lightweight and compact, butterfly valves are popular in large pipelines used for transporting water or other low-viscosity liquids. They offer rapid opening and closing, making them efficient in high-speed operations such as beverage filling lines.

1. Diaphragm Valves:
   These valves are highly hygienic due to their construction, which eliminates crevices where bacteria might grow. They are particularly suited for processes involving sterile conditions, such as yogurt fermentation or pharmaceutical-grade beverages.

2. Check Valves:
   In systems where backflow could lead to contamination or process inefficiency, check valves ensure that fluids only flow in the intended direction. This is particularly important in multi-step processes where ingredients are moved between tanks.

1. Control Valves:
   These valves are used to regulate the mixing of ingredients, such as blending flavors in soft drink production. Their precision ensures that the exact proportions are maintained, reducing the risk of inconsistent batches.

1. Knife Gate Valves:
   These valves are often used for semi-solid or viscous products like tomato paste or yogurt. Their sharp-edged gate design can cut through thicker materials, ensuring smooth operation without clogging.

Industry-Specific Challenges

The food and beverage industry operates under unique conditions that place specific demands on valve design and performance. Some of the main challenges include:

1. Stringent Hygiene Standards:
   Food-grade valves must comply with regulations from bodies like the FDA, 3-A Sanitary Standards, and EHEDG. These standards dictate the materials, construction, and cleaning protocols for valves, ensuring they do not contribute to product contamination.

2. Corrosion Resistance:
   Many food ingredients, such as citric acids in fruit juices or salts in processed foods, are highly corrosive. Valve materials like stainless steel or specialized alloys such as Hastelloy are often required to withstand such environments without degrading.

3. Thermal Variability:
   Production lines often undergo rapid temperature changes, such as when switching between cold storage and hot sterilization processes. Valves must be designed to endure these fluctuations without losing their integrity or operational efficiency.

4. Minimizing Downtime for Cleaning:
   Downtime for cleaning directly affects production capacity. Valves that support CIP and SIP enable quicker cleaning cycles, ensuring that production lines can resume operations faster.

Innovations in Valve Technology for Food and Beverage

Modern valve technologies are transforming the food and beverage sector, enhancing efficiency and compliance:

1. Hygienic Valve Designs:
   These designs prioritize smooth, crevice-free surfaces and incorporate food-grade seals to prevent microbial growth. Materials like PTFE (polytetrafluoroethylene) are often used for their non-stick properties, further reducing the risk of contamination.

2. Smart Valves with Sensors:
   Integrated with IoT technology, smart valves monitor critical parameters such as flow rate, pressure, and temperature. This real-time data allows operators to optimize production processes and anticipate maintenance needs.

3. Cryogenic Valves for Low-Temperature Applications:
   In applications like frozen food or beverage carbonation, cryogenic valves are designed to perform reliably under extremely low temperatures.

4. Energy-Efficient Valve Designs:
   Newer valve models focus on reducing pressure drops, which in turn minimizes energy consumption. This contributes to cost savings and aligns with sustainability goals.

Best Practices for Valve Maintenance

Ensuring the longevity and reliability of valves requires a proactive approach to maintenance. Key practices include:

1. Scheduled Inspections:
   Routine checks for wear, corrosion, and seal integrity help identify potential issues before they lead to operational failures.

2. Proper Cleaning Protocols:
   Using cleaning agents that are compatible with valve materials prevents unnecessary wear while ensuring hygienic standards are maintained.

3. Operator Training:
   A well-trained workforce is critical for proper valve operation and maintenance. Training programs should include instructions on dismantling, cleaning, and reassembling valves correctly.

4. Maintaining an Inventory of Critical Parts:
   Stocking essential components like seals, gaskets, and diaphragms ensures that repairs can be carried out quickly, minimizing downtime.

Meeting Compliance Standards

Valves in the food and beverage industry must adhere to global compliance standards to ensure safety and efficiency. These include:

• FDA Certification: For materials that come into contact with food and beverages.
• 3-A Sanitary Standards: Focused on hygienic equipment design for dairy and other food industries.
• EHEDG Guidelines: Ensuring cleanability and contamination prevention in European markets.

Conclusion

Industrial valves are the backbone of modern food and beverage production, supporting critical operations while ensuring safety and compliance. By leveraging advanced designs and adhering to rigorous maintenance protocols, manufacturers can enhance efficiency, reduce operational risks, and meet consumer expectations for quality.

Freture Techno Pvt. Ltd. is a leading provider of industrial valves, offering customized solutions tailored to the unique demands of the food and beverage industry. Their commitment to innovation and quality ensures seamless operations and regulatory compliance for manufacturers worldwide.

Optimizing Valve Performance for Oil and Gas Operations: Key Considerations

The oil and gas industry operates under demanding conditions where efficiency, safety, and reliability are paramount. Valves, often considered the unsung heroes of industrial systems, play a critical role in regulating fluid flow, maintaining pressure, and ensuring operational safety. From upstream exploration to downstream refining, valves are integral to every phase of the oil and gas value chain. This article explores the key considerations for optimizing valve performance in oil and gas operations.

1. Understanding the Unique Challenges in Oil and Gas Operations

Oil and gas operations are characterized by extreme conditions, such as high pressure, high temperature, and the presence of corrosive and abrasive materials. Valves used in these settings must withstand these harsh environments while ensuring reliable performance. The industry also demands compliance with stringent safety and environmental regulations, making valve selection and maintenance critical for operational success.

Key challenges include:

• High-Pressure Applications: Valves must manage pressures that can exceed 10,000 psi in drilling and production processes.

• Corrosive Environments: Materials like hydrogen sulfide (H2S) and carbon dioxide (CO2) require valves with corrosion-resistant properties.

• Temperature Extremes: Operations often encounter cryogenic conditions during LNG processing or high-temperature scenarios in refining.

• Safety Requirements: Valves must ensure fail-safe operations to prevent catastrophic failures.

2. Selecting the Right Valve Types

The selection of the appropriate valve type is fundamental to optimizing performance. Different phases of oil and gas operations demand different valve functionalities:

• Ball Valves: Ideal for high-pressure applications, ball valves provide tight shut-off and are easy to operate. Their robust design makes them suitable for both upstream and downstream processes.

• Butterfly Valves: Commonly used in large pipelines, butterfly valves are lightweight and cost-effective, offering quick operation with minimal pressure drop.

• Control Valves: These valves regulate flow and pressure, ensuring precise control in complex processes like refining.

• Safety Valves: Essential for overpressure protection, safety valves release excess pressure to prevent equipment damage and ensure worker safety.

• Check Valves: These unidirectional valves prevent backflow, protecting pumps and compressors in critical applications.

• Gate and Globe Valves: Known for durability, these valves are ideal for high-pressure and high-temperature applications, especially in onshore and offshore operations.

3. Material Selection: A Crucial Factor

Material compatibility is critical in valve performance and longevity. The presence of corrosive chemicals, abrasive particles, and high temperatures necessitates the use of specialized materials.

• Stainless Steel: Commonly used for its corrosion resistance and strength, particularly in downstream applications.

• Duplex and Super Duplex Stainless Steel: These materials provide excellent resistance to pitting and stress corrosion, making them ideal for offshore environments.

• Inconel and Hastelloy: Suitable for highly corrosive and high-temperature conditions.

• Carbon Steel: Widely used in less aggressive environments due to its cost-effectiveness and durability.

4. Advanced Technologies Enhancing Valve Performance

Technological advancements have significantly improved valve performance, safety, and efficiency in oil and gas operations. Modern innovations include:

• Zero-Emission Valves: These valves prevent fugitive emissions, meeting stringent environmental regulations.

• Smart Valves: Equipped with sensors and automation, smart valves provide real-time data, enabling predictive maintenance and reducing downtime.

• Bellow-Sealed Valves: Designed to eliminate leakage, these valves are ideal for hazardous applications, ensuring both safety and environmental compliance.

• Cryogenic Valves: Specially designed to operate in extremely low temperatures, these valves are indispensable in LNG and CNG applications.

5. Maintenance and Lifecycle Management

Proper maintenance is essential for ensuring valve reliability and extending service life. A proactive maintenance strategy includes:

• Regular Inspections: Identify wear and tear early to prevent unexpected failures.

• Condition Monitoring: Use advanced diagnostics to monitor valve performance and predict maintenance needs.

• Spare Parts Inventory: Maintain a stock of critical components to minimize downtime during repairs.

• Training and Certification: Ensure staff are trained to operate and maintain valves correctly.

Lifecycle management is equally important. Regular upgrades and replacements should be planned to keep systems up to date with the latest technologies and standards.

6. Compliance with Industry Standards

Valves in oil and gas operations must adhere to international standards to ensure safety and performance. Key standards include:

• API (American Petroleum Institute): Covers design, testing, and performance criteria for various valve types.

• ISO (International Organization for Standardization): Specifies requirements for valve design and performance.

• ASME (American Society of Mechanical Engineers): Focuses on pressure vessel and piping system standards.

• NACE (National Association of Corrosion Engineers): Provides guidelines for materials used in corrosive environments.

Conclusion

Optimizing valve performance in oil and gas operations is a complex task that requires careful consideration of operating conditions, material selection, and maintenance strategies. Advanced valve technologies and adherence to industry standards further enhance safety and efficiency. By investing in the right valves and maintenance practices, oil and gas companies can ensure smooth operations, reduce downtime, and meet environmental compliance requirements.

Freture Techno is a leading Industrial Valves manufacturer in India, providing Ball Valve, Butterfly Valve, Control Valve, Safety Valve, Check Valve, Gate Valve, Globe Valve, Bellow-Sealed Valve, Double Block and Bleed Valve, and Needle Valve. Their commitment to quality and innovation makes them a trusted partner in the oil and gas industry.

SWJAL PROCESS Pvt. Ltd. and FRETURE TECHNO Pvt. Ltd. to Exhibit Innovative Solutions at CPHI & PMEC India 2024

Greater Noida, Delhi NCR – November 26-28, 2024 – SWJAL PROCESS Pvt. Ltd. and FRETURE TECHNO Pvt. Ltd., industry leaders in water treatment systems and industrial valves, are excited to announce their participation in the CPHI & PMEC India 2024, a premier event for the global pharmaceutical and chemical manufacturing industries. The companies will be showcasing their latest innovations at Hall HR-B, Stall SP 13, at the India Expo Centre, Greater Noida, from November 26 to November 28, 2024.

The CPHI & PMEC India is one of the largest gatherings of pharmaceutical professionals, bringing together industry experts, manufacturers, and innovators from around the world. It provides a unique platform for companies like SWJAL PROCESS and FRETURE TECHNO to connect with global clients, showcase their advanced technologies, and explore new collaboration opportunities.

Innovative Water Treatment and Industrial Valve Solutions

SWJAL PROCESS Pvt. Ltd. specializes in state-of-the-art water treatment solutions, tailored specifically for the pharmaceutical, food, and cosmetic industries. The company’s expertise includes purified water systems, ultrapure water solutions, and cutting-edge filtration technologies designed to meet stringent industry standards.

FRETURE TECHNO Pvt. Ltd. is renowned for its high-performance industrial valves and instrumentation products that enhance efficiency and ensure safety across critical applications. Their range includes specialized valves for chemical, petrochemical, and pharmaceutical processes, engineered to deliver robust and reliable performance.

Join Us at Hall HR-B, Stall SP 13

Visitors are encouraged to stop by Stall SP 13 in Hall HR-B to learn more about SWJAL PROCESS’s and FRETURE TECHNO’s innovative solutions, meet with their teams of experts, and explore how their technologies can enhance operational efficiency and compliance in demanding industries.

For additional information, please contact:

SWJAL PROCESS Pvt. Ltd. and FRETURE TECHNO Pvt. Ltd.

• Email: sales@swjal.com

About FRETURE TECHNO Pvt. Ltd.
FRETURE TECHNO Pvt. Ltd. is a leading manufacturer of industrial valves and instrumentation, known for its innovation, durability, and dedication to safety.

Diwali Greetings from Freture Techno Pvt. Ltd.: Celebrating the Festival of Lights with You

 Dear Valued Partners and Customers,

As Diwali, the Festival of Lights, illuminates our lives with joy and prosperity, we at Freture Techno Pvt. Ltd. extend our warmest wishes to you and your families. Diwali is a time of reflection, gratitude, and renewed energy, and we are grateful for the trust you place in us.

This Diwali, we celebrate not only the victory of light over darkness but also the partnerships and collaborations that brighten our journey. Your support drives us to innovate and strive for excellence in every product we manufacture. As a leading provider of industrial valves and accessories, we remain committed to delivering quality and reliability in every solution we offer.

May this festival bring you prosperity, happiness, and success in all your endeavors. We look forward to a bright future together, powered by our shared values and dedication.

Warm Diwali wishes from the entire team at Freture Techno Pvt. Ltd. May the light of Diwali guide us all toward new opportunities and achievements.

Happy Diwali!

Power Plants: Ensuring Efficiency with Advanced Valve Systems

Power plants, whether nuclear, thermal, or hydroelectric, rely on the precise control of fluids and gases to generate electricity efficiently. Valves are a critical component in these systems, helping to regulate the flow of water, steam, fuel, and air. The correct operation of valves directly impacts the plant's efficiency and safety.

Key Valve Types in Power Plants

Control valves 

They are commonly used in power plants to regulate the flow of steam and water, which is critical to maintaining turbine efficiency. These valves ensure that steam is supplied to the turbines at the right pressure and temperature, optimizing energy production. By adjusting the flow rate in real-time, control valves help prevent energy waste and maximize plant efficiency.

https://www.freture.com/control-valves-manufacturers/

Pressure relief valves 

They are another essential component in power plants, particularly in systems where high pressures are present. These valves automatically release pressure when it exceeds safe levels, protecting equipment from damage. In nuclear power plants, where safety is paramount, pressure relief valves are rigorously tested to ensure they can handle extreme conditions without failing.

In cooling systems, Butterfly valves are often used to regulate the flow of cooling water to the plant's condensers. These valves are ideal for large-diameter pipes due to their compact design and ability to handle high flow rates with minimal pressure drop.

The Role of Automation

Automation has become a game-changer in the power generation industry, allowing for more precise control over critical processes. Automated valves enable operators to monitor and adjust flow rates, pressures, and temperatures remotely, ensuring that systems operate within optimal parameters. This not only improves efficiency but also reduces the risk of human error, which can lead to costly downtime or accidents.

Automation also plays a role in predictive maintenance. By monitoring the performance of valves in real-time, power plants can detect issues before they lead to equipment failure. This helps prevent unplanned outages and extends the lifespan of critical valve systems.

Challenges Faced in Power Plant Valve Operations

Power plants present several challenges for valve operation, including high temperatures, pressures, and corrosive environments. Valves used in steam systems, for example, must be able to withstand temperatures exceeding 500°C and pressures over 100 bar. This puts significant stress on valve components, necessitating the use of high-grade materials and regular maintenance.

Corrosion is another issue, particularly in cooling systems where water can be highly corrosive. Power plants often use valves made from corrosion-resistant materials, such as stainless steel or special alloys, to ensure long-term reliability.

Industrial Valves play a critical role in power plants by regulating the flow of fluids and gases, ensuring that systems operate efficiently and safely. As automation and predictive maintenance technologies continue to evolve, power plants will be able to optimize their operations further, reducing downtime and increasing energy output. The continued development of advanced valve materials and designs will help power plants meet the increasing demand for electricity while maintaining safety and efficiency.

New Upcoming Joint Venture Project Details - SWJAL PROCESS PVT. LTD.

 Mumbai, Sept 2024 — SWJAL PROCESS PVT. LTD. is proud to announce the launch of its

new joint venture, marking a significant step forward in the High Purity Water System industry.

This venture unites the expertise and vision of seasoned professionals from established

companies, bringing together a wealth of knowledge and experience to deliver advanced

solutions in water treatment technology.

Background of Founding Companies

The joint venture builds on the strong foundations laid by two distinguished entities in the

industry.

Ion Pure Process Equipment, led by Mr. Laxmishankar Yadav, has long been recognized for

its innovative approach to Water Treatment Solutions. The company's commitment to quality

and customer satisfaction has established it as a leader in the market.

On the other hand, Freture Techno Pvt. Ltd., co-directed by Mr. Kailas Waghamre and Ms.

Mamta Chavan, has earned a reputation for excellence in the manufacturing of industrial Valves

and instrumentation. Their dedication to precision engineering and innovation has positioned

Freture Techno Pvt. Ltd. as a key player in the industry.

Introducing SWJAL PROCESS PVT. LTD.

Henceforth “Ionpure Process Equipment” will be Known as a SWJAL PROCESS PVT. LTD.

Swjal emerges as a powerhouse in the water treatment sector, combining the strengths of its

founding companies. This new venture aims to leverage the deep industry knowledge,

technological advancements, and customer-focused strategies of its founders to deliver superior

water treatment solutions.

SWJAL PROCESS PVT. LTD. is dedicated to addressing the evolving needs of industries that

rely on high-quality water treatment systems. The company’s offerings will encompass a wide

range of services, including the design, manufacturing, and implementation of cutting-edge

water treatment systems.

Director Profiles

The leadership of SWJAL PROCESS PVT. LTD. reflects the combined expertise of its founding

companies:

● Ion Pure Process Equipments: Led by Mr. Laxmishankar Yadav, Ion Pure Process

Equipments has been a recognized name in the water treatment industry. Known for its

innovative solutions and unwavering commitment to customer satisfaction, the company

has established itself as a leader in the market, delivering reliable and efficient water

treatment systems.

● Freture Techno Pvt. Ltd.: Co-directed by Mr. Kailas Waghamre and Ms. Mamta

Chavan, Freture Techno Pvt. Ltd. is renowned for its excellence in the manufacturing of

industrial valves and instrumentation. Their focus on precision engineering and

innovation has earned the company a solid reputation as a key player in the industry.

Together, they form a leadership team committed to excellence, innovation, and customer

satisfaction.

Looking Ahead

The establishment of SWJAL PROCESS PVT. LTD. marks the beginning of a new chapter in the

water treatment industry. The company is poised to set new standards in the field, offering

robust, reliable, and efficient solutions tailored to meet the specific needs of its clients.

Website Launch and Exhibition Debut

SWJAL PROCESS Pvt. Ltd. has already launched its official website, providing detailed

information about its products and services. The official public launch of the company will take

place at the Pharma Pro&Pack exhibition in Hyderabad, one of the premier events for the

pharmaceutical manufacturing sector. Attendees are invited to visit the SWJAL PROCESS Hall

6 Stall No.H45 to learn more about SWJAL state-of-the-art water purification systems and meet

the team behind the company.

Contact Information

SWJAL PROCESS Pvt. Ltd.

Unit C-15/A, Jivdani Industrial Estate,

Dhumal Nagar, Vasai East,

Palghar 401208

Call: 76027 13555 sales@swjal.com

Exhibition Details

SWJAL PROCESS PVT. LTD.

Hall 6 Stall No. H45

HITEX Exhibition Centre

Izzat Nagar, Hyderabad - 500 084

Telangana, India