>
Design and Engineering
Customized Solutions Every industry has its unique compressed air requirements, and our team of experienced engineers works closely with clients to understand their specific needs. We use advanced software like PV Elite and simulation tools to design air receivers that meet the specific requirements of our clients, ensuring that every receiver is optimized for performance, efficiency, and safety.
Our design capabilities include :
Receiver sizing and layout
Material selection and specification
Materials Selection : Durability and Corrosion Resistance The selection of materials is critical in air receiver manufacturing, as it directly impacts the performance, safety, and longevity of the receiver. We use high-quality materials, including carbon steel, stainless steel, duplex, super duplex, Inconel, hastelloy, Alloy steel, titanium, aluminium, and exotic alloys, that are certified to meet the relevant industry standards. Our materials are sourced from reputable suppliers and undergo rigorous testing and inspection to ensure their integrity.
Precision and Attention to Detail Our state-of-the-art manufacturing facility is equipped with advanced machinery and equipment, including machining centers, welding machines, and inspection tools. Our skilled technicians and welders work together to cut, shape, and assemble the receiver components, ensuring that every weld and joint meets the highest standards of quality. We employ a range of fabrication techniques, including rolling, forming, and machining, to produce receivers that meet the required specifications.
Quality control is an integral part of our manufacturing process, and we employ a range of testing and inspection methods to ensure that our Air Receiver meet the highest standards of quality and safety. These include:
Visual inspection : Our experienced inspectors visually examine the vessel for any defects or imperfections.
Non-destructive testing (NDT) : We use techniques such as penetrant test, radiography, ultrasonic testing, and magnetic particle testing to detect any defects or flaws in the Air Receiver.
Hydrostatic testing : The Air Receiver is subjected to a hydrostatic pressure test to ensure that it can withstand the intended pressure.
Material testing : We conduct material testing, including tensile testing, impact testing, and corrosion testing, to ensure that the materials meet the required specifications.
Certification and Compliance :Our Air Receiver are designed and manufactured to meet the relevant industry standards and regulations, including ASME U Stamp, Pressure Equipment Directive (PED) (2014/68/EU), TRCU Certification. We work closely with third-party inspection agencies to ensure that our pressure meet the required certification and compliance requirements.
Volume (Gallon) | Volume (ltrs) | MOC | Operating Pressure | Operating Temperature |
---|---|---|---|---|
8 | 30.24 | SA 516 Gr 70 | 14 bar | 100 deg cel |
12 | 45.36 | SA 516 Gr 70 | 14 bar | 100 deg cel |
19 | 71.82 | SA 516 Gr 70 | 14 bar | 100 deg cel |
30 | 113.4 | SA 516 Gr 70 | 14 bar | 100 deg cel |
60 | 226.8 | SA 516 Gr 70 | 14 bar | 100 deg cel |
90 | 340.2 | SA 516 Gr 70 | 14 bar | 100 deg cel |
120 | 453.6 | SA 516 Gr 70 | 14 bar | 100 deg cel |
240 | 907.2 | SA 516 Gr 70 | 14 bar | 100 deg cel |
At FABRI-TEK ENGINEERS, we are committed to providing high-quality process skid packaging solutions that meet the specific requirements of our clients. Our expertise in process skid packaging, manufacturing, and testing ensures that our products provide efficient and reliable solutions for various industrial applications. Contact us today to learn more about our process skid packaging solutions and how they can benefit your business.