Are you in the market for high-quality G type fin tubes? Choosing the right supplier can make all the difference in your project’s success. By comparing top factories, you can ensure you’re getting the best value and performance. Dive in to discover the leading options and make an informed choice!
G-Fins Tubes for Heat Exchanger | Be. Tube Srl
Product Details: G-Fin tubes are embedded finned tubes made by winding aluminum or copper strip into a helical groove machined on the outer surface of the tube. They are part of a range of finned tubes offered by Be.Tube Srl, including tension wound and extruded finned tubes.
Technical Parameters:
– Fin Material: SB209 – B209 Aluminium Alloy 1050 or 1060, SB75 – B75 Copper
– Tube Material: SA179 – A179 Carbon Steel, SA213 – A213 / SA249 – A249 – Stainles…
Application Scenarios:
– Heat exchangers for power plants (electric, nuclear, thermal, and geothermal pow…
– Chemical and petrochemical industry
Pros:
– High thermal efficiency due to embedded fin design
– Versatile applications across various industries
Cons:
– Potentially higher manufacturing costs compared to plain tubes
– Limited to specific temperature and pressure ratings
Embedded g Type Fin Tube Manufacturers – Yuhong Group
Product Details: The embedded type fin tube (G-type fin tube) is a specialized heat exchanger component designed for efficient heat transfer, featuring a series of finned tubes embedded into a metal base for enhanced durability.
Technical Parameters:
– Increased heat transfer efficiency due to larger surface area for heat exchange.
– Enhanced strength and durability with firmly attached fins.
Application Scenarios:
– Applications requiring high thermal efficiency.
– Compact size installations in demanding environments.
Pros:
– Improved overall performance and heat transfer.
– Reduced maintenance requirements due to better fluid flow characteristics.
Cons:
– Potentially higher initial cost compared to standard fin tubes.
– May require specific installation techniques for optimal performance.
Embedded Finned Tubes | Tex-Fin: Optimal Heat Transfer Solutions
Product Details: Embedded finned tubes, or G-tubes, are fabricated by embedding the aluminum fin into a groove in the tube, locked into place by rolls that tighten around the fin base. Suitable for high temperatures and thermal cycling.
Technical Parameters:
– Tube sizes from 9/16″ O.D. to 2″ O.D.
– Fin heights from 1/4″ to 5/8″
– Fin pitch from 5 fins/in. to 13 fins/in.
– Metal temperatures up to 750°F
Application Scenarios:
– Equipment exposed to higher temperatures
– Applications with continuous thermal cycling and tube vibration due to high velo…
Pros:
– Secure bond between fin and tube
– Versatile material options including carbon steel, stainless steel, Incoloy®, an…
Cons:
– Limited to specific tube sizes and fin heights
– Potential for higher manufacturing costs due to specialized fabrication
Finned Tube, Fin Tubes, Finned Tube Heat Exchangers, Fin Tubes Manufacturer
Product Details: Finned Tubes are tubes with small fins around the outside surface, designed for efficient heat transfer. They are manufactured using various metals and alloys, including Stainless Steel, Carbon Steel, Alloy Steel, Copper, Aluminum, and more.
Technical Parameters:
– Base Tube Material: Stainless Steel, Carbon Steel, Alloy Steel, Titanium, Copper…
– Base Tube Outside Diameter: 12.70 mm to 38.10 mm
Application Scenarios:
– Petroleum Industry
– Chemical Industry
Pros:
– Increases the outer surface area of the tube
– Maximizes heat transfer efficiency
Cons:
– Mechanical resistance varies by type
– Atmospheric corrosion resistance may be poor in some types
Product Details: SA179 G Type Embedded Aluminum Fin Tubes
Technical Parameters:
– Size of tube: 25.4×2.77*6096 mm
– Material of fins: SB-209 Al. alloy 1060/1100
Application Scenarios:
– Heat exchangers units for power plants (electric, nuclear, thermal, and geotherm…
– High corrosive systems (condensers, evaporators, sea water desalinations)
Pros:
– High quality and reasonable price
– Strong ability of temperature resistance and thermal shock
Cons:
– Setting process may be difficult if clearance is too small
– Potential for rebound affecting joint quality
G Type Embedded Finned Tube For Heat Exchangers
Product Details: G Type Embedded Finned Tube is that the fin strip is tension wound and placed in the groove cut into the tube with appr, 0.4mm groove depth, then the bottom of the fin is guided into the groove and backfilled with base tube Firmly, finally lock the fins in place by rolling the grooves enclosed in the bottom of the fins. The maximum operating temperature of G Type Embedded Finned Tube can reach 400°C.
Technical Parameters:
– Core tube material: Carbon steel, Stainless steel, Copper
– Fin material: Aluminum, Copper, Steel
Application Scenarios:
– Petroleum, chemical and petrochemical industries
– Power generation: exhaust gas from steam turbine condenses
Pros:
– High heat transfer performance and small contact thermal resistance
– Good resistance to atmospheric corrosion and stable long-term use
Cons:
– Limited to specific operating temperatures
– Potential for corrosion in certain environments
Grooved Fin Tube or ‘G’ Fin Tube (Embedded Fin Tube )
Product Details: G FIN TUBE, also known as Embedded Fin Tube, is designed for higher operating temperatures and lower corrosive atmospheres. The fins are embedded into grooves on the base tube, ensuring excellent heat transfer.
Technical Parameters:
– Base Tube Material: Stainless Steel, Carbon Steel, Alloy Steel, Titanium, Copper…
– Temperature Range: Up to Maximum 415 Deg C
Application Scenarios:
– Air Fin Coolers
– Radiators
Pros:
– Very Good Fin to Tube Bond
– Excellent Heat Transfer Efficiency
Cons:
– Moderate Corrosion Protection
– Limited to specific temperature ranges
G Fin Tube – Jetvisionengineering
Product Details: G fin tube, also known as imbedded fin tube, features a fin strip wound into a machined groove on the tube surface, securely locked in place by back filling with base tube material. It offers exceptional heat transfer efficiency at higher tube metal temperatures.
Technical Parameters:
– Maximum working temperature: 750 degrees Fahrenheit (400 degrees Celsius)
– Base pipe O.D: 15.88-165mm, Fin height: 6-50mm, Fin thickness: 0.3-0.5mm
Application Scenarios:
– Air Cooler
– Condenser
Pros:
– Exceptional heat transfer efficiency
– Versatile base tube materials available
Cons:
– Potentially higher manufacturing complexity
– Limited to specific applications
G Embedded Finned Tubes – Sunflex Metal Industries
Product Details: G Embedded Finned Tubes are designed for maximum heat transfer at high tube metal temperatures, with a fin strip securely locked into place by back filling with base tube material.
Technical Parameters:
– Maximum Working Temperature: 400°C
– Acceptable Fin Materials: Aluminium, Copper, Carbon Steel
Application Scenarios:
– Mining Industries
– Transport Industries – Rail and Road
– Construction Industries / Building Systems
– Manufacturing Industries
– Agriculture Industries
– Energy Industries
– Water Industries
– Automotive Industries
– Ship Building Industries
– Nuclear Power Plant
– Paper & Pulp Industries
– Sugar Industries
– Engineering Cement Industries
– Petro-Chemical Industries
– Food Industries
– Oil & Gas Industries
– Chemical & Pharmaceutical Industries
Pros:
– High-quality manufacturing with competitive pricing
– Timely deliveries and customer-focused approach
Cons:
– Limited information on specific performance metrics
– Potential variability in quality based on material selection
G Type Fin Tube Manufacturer| Embedded Fin Tubes| Steel G Type Fins
Product Details: G Type Fin Tubes are extended surface heat exchanger tubes with a G-shaped fin profile, enhancing heat transfer efficiency in various industrial applications.
Technical Parameters:
– Base Tube Diameter: 1/2’’ to 4” (12.7 mm to 101.6 mm)
– Fin Height: 1/2’’ to 5/8’’ (12.7 mm to 15.87 mm)
Application Scenarios:
– Air-cooled heat exchangers in power plants
– Cooling processes in refineries
Pros:
– Increased surface area for better heat transfer
– Efficient heat dissipation in high-temperature applications
Cons:
– Potential for increased manufacturing complexity
– May require specific materials for optimal performance
Related Video
Comparison Table
| Company | Product Details | Pros | Cons | Website |
|---|---|---|---|---|
| G-Fins Tubes for Heat Exchanger | Be. Tube Srl | G-Fin tubes are embedded finned tubes made by winding aluminum or copper strip into a helical groove machined on the outer surface of the tube. They a… | – High thermal efficiency due to embedded fin design – Versatile applications across various industries | – Potentially higher manufacturing costs compared to plain tubes – Limited to specific temperature and pressure ratings |
| Embedded g Type Fin Tube Manufacturers – Yuhong Group | The embedded type fin tube (G-type fin tube) is a specialized heat exchanger component designed for efficient heat transfer, featuring a series of fin… | – Improved overall performance and heat transfer. – Reduced maintenance requirements due to better fluid flow characteristics. | – Potentially higher initial cost compared to standard fin tubes. – May require specific installation techniques for optimal performance. | www.nickelalloytubes.com |
| Embedded Finned Tubes | Tex-Fin: Optimal Heat Transfer Solutions | Embedded finned tubes, or G-tubes, are fabricated by embedding the aluminum fin into a groove in the tube, locked into place by rolls that tighten aro… | – Secure bond between fin and tube – Versatile material options including carbon steel, stainless steel, Incoloy®, an… | – Limited to specific tube sizes and fin heights – Potential for higher manufacturing costs due to specialized fabrication |
| Finned Tube, Fin Tubes, Finned Tube Heat Exchangers, Fin Tubes Manufacturer | Finned Tubes are tubes with small fins around the outside surface, designed for efficient heat transfer. They are manufactured using various metals an… | – Increases the outer surface area of the tube – Maximizes heat transfer efficiency | – Mechanical resistance varies by type – Atmospheric corrosion resistance may be poor in some types | www.savoypiping.com |
| SA179 G Type Embedded Aluminum Fin Tubes | – High quality and reasonable price – Strong ability of temperature resistance and thermal shock | – Setting process may be difficult if clearance is too small – Potential for rebound affecting joint quality | www.ctstubes.com | |
| G Type Embedded Finned Tube For Heat Exchangers | G Type Embedded Finned Tube is that the fin strip is tension wound and placed in the groove cut into the tube with appr, 0.4mm groove depth, then the… | – High heat transfer performance and small contact thermal resistance – Good resistance to atmospheric corrosion and stable long-term use | – Limited to specific operating temperatures – Potential for corrosion in certain environments | www.btboilertube.com |
| Grooved Fin Tube or ‘G’ Fin Tube (Embedded Fin Tube ) | G FIN TUBE, also known as Embedded Fin Tube, is designed for higher operating temperatures and lower corrosive atmospheres. The fins are embedded into… | – Very Good Fin to Tube Bond – Excellent Heat Transfer Efficiency | – Moderate Corrosion Protection – Limited to specific temperature ranges | www.datangfintubes.com |
| G Fin Tube – Jetvisionengineering | G fin tube, also known as imbedded fin tube, features a fin strip wound into a machined groove on the tube surface, securely locked in place by back f… | – Exceptional heat transfer efficiency – Versatile base tube materials available | – Potentially higher manufacturing complexity – Limited to specific applications | www.jetvisionengineering.com |
| G Embedded Finned Tubes – Sunflex Metal Industries | G Embedded Finned Tubes are designed for maximum heat transfer at high tube metal temperatures, with a fin strip securely locked into place by back fi… | – High-quality manufacturing with competitive pricing – Timely deliveries and customer-focused approach | – Limited information on specific performance metrics – Potential variability in quality based on material selection | www.sunflexmetal.com |
| G Type Fin Tube Manufacturer | Embedded Fin Tubes | Steel G Type Fins | G Type Fin Tubes are extended surface heat exchanger tubes with a G-shaped fin profile, enhancing heat transfer efficiency in various industrial appli… | – Increased surface area for better heat transfer – Efficient heat dissipation in high-temperature applications |
Frequently Asked Questions (FAQs)
What are G type fin tubes and their main applications?
G type fin tubes are specialized heat exchangers designed to enhance heat transfer efficiency. They feature fins that increase the surface area, making them ideal for applications in power plants, chemical processing, and HVAC systems. By improving thermal performance, they help reduce energy consumption and improve system efficiency.
How do I choose the right G type fin tube supplier?
When selecting a G type fin tube supplier, consider their experience, product quality, and customer service. Look for suppliers with a proven track record, positive reviews, and certifications. It’s also essential to assess their ability to meet your specific requirements and deadlines.
What materials are commonly used for G type fin tubes?
G type fin tubes are typically made from materials like carbon steel, stainless steel, and copper alloys. The choice of material depends on the operating conditions, such as temperature, pressure, and the type of fluid being processed. Ensure you discuss your needs with the supplier to select the best material.
Can G type fin tubes be customized for specific applications?
Yes, many suppliers offer customization options for G type fin tubes. You can request specific dimensions, fin designs, and materials to meet your unique requirements. It’s a good idea to communicate your needs clearly to the supplier to ensure the final product aligns with your application.
What is the typical lead time for ordering G type fin tubes?
Lead times for G type fin tubes can vary based on factors like the supplier’s inventory, customization requests, and order size. Generally, you can expect lead times to range from a few weeks to several months. It’s best to discuss your timeline with the supplier to ensure timely delivery for your project.