Inspections across industries have one main goal: to identify and locate defects in critical assets. While traditional manual inspections allow inspectors to directly observe and note the location of a defect, modern remote visual inspection tools like the Elios 2 introduce new challenges when it comes to accurately pinpointing where exactly a defect is located.
When using an indoor drone for inspections, such as the Elios 2, there's no GPS to guide you. This makes it difficult to determine the exact location of a defect from video footage alone. Without clear positioning data, even experienced inspectors may struggle to map out where a problem actually lies within an asset.
For instance, some inspectors use a combination of barometric readings, blueprints, maps, and visual reference points to estimate the location of a defect. But even with all these tools, getting precise coordinates can still be a challenge. That’s why accurate data localization is becoming more important than ever.
DATA LOCALIZATION = COST SAVINGS
Knowing the exact location of a defect can save time, money, and resources. If you have to cut into an asset or dig through soil to access a problem area, you don’t want to waste valuable time and effort entering the wrong spot. Inaccurate localization can lead to delays, increased downtime, and lost revenue.
Moreover, precise data localization helps companies reduce costs associated with scaffolding and other temporary structures. By placing them exactly where needed, businesses avoid unnecessary expenses and streamline the repair process.
DATA LOCALIZATION IMPROVES CUSTOMER SATISFACTION
Customers often expect detailed reports showing the exact location of each defect found during an inspection. When they don’t get this information, it can lead to frustration and a lack of trust in the service provided.
Data localization also enhances communication among different teams involved in maintenance operations. From inspectors and technicians to managers and operators, having a clear visual representation of the asset and its issues ensures everyone is on the same page.
For example, scaffolders who are unfamiliar with the site can use a 3D map to determine where to place their equipment. Operators can point to specific areas on the map to direct repair crews. This level of clarity improves efficiency and reduces misunderstandings.
HOW INSPECTOR 3.0 SOLVES THE DATA LOCALIZATION CHALLENGE
That’s where Inspector 3.0 comes in. This new software from Flyability offers a powerful solution for localizing inspection data, making it easier than ever to track and visualize defects inside complex industrial assets.
Inspector 3.0 is designed specifically for users of the Elios 2, allowing them to create a 3D map of the inspected asset right after the flight. This map clearly shows where defects were found, helping to streamline the entire inspection and repair process.
Key features include:
- Easy marking of Points of Interest (POIs) during the flight.
- Quick generation of a sparse 3D model post-flight.
- Accurate visualization of defect locations for better decision-making.
One user shared, “Inspector 3.0 solves the problem of not knowing exactly where the damage is. Now we can show clients the issue right where it is.â€
With processing times ranging from 20 to 50 minutes, Inspector 3.0 allows inspectors to deliver results on the same day as the inspection, providing real-time insights that make a big difference in customer satisfaction and operational efficiency.
If you're looking to improve your inspection workflow and enhance data accuracy, Inspector 3.0 is a game-changer. Learn more today and take your inspections to the next level.
Brazed heat exchangers corrugated plates create multiple flow channels, maximizing the heat transfer surface area within a small footprint. This makes them ideal for applications where space is limited.
Brazed heat exchanger (BPHE) is a type of compact heat exchanger that consists of corrugated metal plates that are brazed together to form a single unit. The brazing process involves melting a filler material, tipically copper-based alloy (
Stainless or Nickle are available) between the plates to create a strong and leak-proof joint.
The main advantages of brazed heat exchangers include their high heat transfer efficiency, compact size, and reliability.The basic flow principle in a brazed plate heat exchanger is parallel to achieve the most efficient heat transfer process.In a single pass design, all connections are located on one side of the heat exchanger, making installation very easy.
The flow principle of a brazed heat exchanger is based on the counter-current flow configuration, where the two fluids involved in the heat transfer process flow in opposite directions. e.g the picture A and B
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