The Impact of Digitalisation on Industrial Engineering Design

The ongoing digital transformation is rapidly changing the landscape, driven by the growing adoption of automation, the Internet of Things (IoT), and cloud computing. Failing to keep pace with these advancements in industrial engineering design practices can lead to missed opportunities. Engineering plays a vital role in numerous infrastructure projects, and engineers are actively seeking methods to enhance collaboration and streamline data access and sharing. As digitalisation continues to influence their decision-making and work processes, it becomes crucial to seek the expertise of an engineering design consultant to ensure the appropriate selection and utilisation of technologies that align with their specific projects.

How Digitalisation affects industrial engineering design

Engineering is a rapidly evolving sector with new technologies improving the delivery of products, data management, and transportation. By using digital technologies, engineering has become more reliant on data, so industrial engineering companies must have the right technologies to keep thriving in a competitive industry.

Cloud computing is one of the biggest influences of digitalisation on industrial engineering design. It’s not entirely new, but it is now scalable for engineers to use efficiently and effectively. For instance, you can now store and share digital designs in the cloud to improve the customer experience.

Additionally, digitalisation and big data have resulted in digital twin applications, which can benefit engineering firms. Digital twins are virtual models of physical objects to replicate real-world assets, so it’s easier to analyse and obtain data and determine their performance. Working with an engineering design consultant can help you understand how these developments can implement predictive analysis and fresher ways to innovate and collaborate.

Discover more 

Here at Elegrow Technology, we understand the impact of digitalisation on industrial engineering design, and we want to ensure you can maximise it. Our engineering design consultant will help you adopt the best technologies and innovations by conducting a feasibility study and recommending solutions that are relevant to your needs. Contact us, and we will add value to your projects with our expert guidance and technologies.

Reasons Why You Should Perform Compressed Air Leakage Detection with the Help of an Acoustic Camera

Visual inspections might save you money, but for air leaks, you need more advanced detection solutions to ensure safety—especially in heavy industrial settings. So if you suspect compressed air leakages, consider booking air and gas leakage detection services that use acoustic cameras. It’s also recommended for routine safety checks, as leaks could lead to wasting and losing 20% to 30% of compressor output, causing you to spend extra money on repairs or buying new equipment. Air and gas leakage testing will quickly identify any problems so you can resolve them sooner and avoid further issues.

Save time and money with acoustic imaging.

Fixing leaks is a step to reducing compressed air costs, but you must find them soon. It’s easier with advanced equipment, like an acoustic camera that uses ultrasonic imaging technology, a tried-and-true method for finding leaks in industrial settings.

An acoustic camera makes sense for air and gas leakage detections, especially in noisy industrial plants. Usually, these places have loud background noises that make it challenging to hear leaks by ear. Plus, compressed air could mask the sound of leaks while in use. Instead of waiting to find leaks after work hours, consider hunting for compressed air leaks with an acoustic camera.

How it works

When gas moves from one pressure to the next, the flow generates an ultrasonic frequency noise. With electronic mixing circuits, the ultrasonic noise can be reduced to a frequency range we can hear while simultaneously filtering out low-frequency industrial noise. This allows the acoustic camera to identify and analyze the sound, even in a noisy environment and from afar.

Perks of acoustic imaging 

An acoustic camera can provide a live image of the leak while using directional microphones to generate a heat map of the ultrasonic emissions with a visual display. It simplifies air and gas leakage detections by providing a visual representation of audible and visual signatures of the leaks. 

Hire a well-equipped team for compressed air leakage detection. 

Check with our team here at Elegrow Technology! We can conduct ultrasonic compressed air and gas leakage detection with an acoustic camera while considering your requirements. We’ll even provide instant reports to support timely decision-making and compliance. Contact us!

Should You Perform Relay Coordination Studies and Why?

Relay protection devices are designed to isolate fault locations in an electrical power system. These tools allow engineers to identify and monitor issues within the system, such as current changes, voltage dips, and inconsistencies with the frequency and temperature. Substation design service providers can help conduct protective device coordination to ensure the safety and reliability of your electrical systems.

The importance of relay coordination studies

Relay coordination involves surveying a facility’s electrical systems. This study analyses the impact of equipment failure, short circuits, and similar issues.

A protective device coordination study must be conducted after the initial electrical system has been designed. Moreover, it must be performed again whenever major changes and updates are made in the system.

It’s essential to conduct relay coordination studies to achieve the following:

·        Minimise equipment damage

Various electrical issues, such as loose connections, power line disturbances, and overloading, can cause equipment failure. Relay coordination helps improve the reliability of your systems, limiting damage to your equipment and minimising repair and replacement costs.

·        Reduce the risk of human injury.

Electrical hazards, such as shocks, burns, and explosions, are undoubtedly a threat to human safety. It’s important to keep your protective devices in check for better overall safety and protection against workplace injuries.

·        Guarantee continuity

System shutdowns and downtime can cost your organisation thousands. To prevent such situations from occurring, relay coordination studies must be conducted when necessary 

Effective relay coordination is critical for maintaining the safety and reliability of your electrical systems. With our substation design services, you can ensure the proper coordination and function of your protective devices, minimising the risk of personnel injury, equipment damage, and unplanned outages.

Work with us at ElegrowTechnology, a leading substation design service provider with over ten years of experience in the field. Our methods are fully NFPA compliant, and we make sure to use licensed ETAP software to provide the highest quality of services possible.