- May 07, 2014
- Vega Technology Group
- Case Study
A VEGAPULS WL61 radar level sensor is used on a coagulation tank in the Aston-Martin paint shop where the surface is turbulent, it foams readily and heavily, and build up on any form of 'contact' device quickly happens and causes problems.
May 7, 2014 - With a century of history, Aston Martin has developed into an automotive icon, a marque synonymous with luxury, heritage and authentic craftsmanship. All of their models are hand-built and bespoke, using high technology processes within a very modern environment. The quality of exterior and interior detailing has always marked out Aston Martin from its rivals. Each of their cars is painted and finished by hand, receiving up to nine applications of paint — a process that takes more than 50 man-hours.. To ensure the paint finish on these iconic sports cars is perfect from every angle, all aspects within the Paintshop Facility must be controlled, even the environmental impact of the process. All the waste water is recycled, and one of the initial treatment stages in the recycling is the ‘Coagulation Tank’, where entrained solid materials are removed. At the tank inlet, two large transfer pumps force the incoming stream downwards, heavily aerating the water to accelerate and improve the separation process. The coagulated solids settle at the bottom of the tank and the clean aerated water at the surface flows over a weir to be further treated and re-used in the Paintshop. The solids at the bottom are periodically pumped away for drying and disposal. "This part of the Paintshop process is very important, it's one of those pinch points - issues in the effluent treatment can quickly affect the paint process, then we can't paint the cars, so production is directly affected", said the Aston Martin Engineer. The ‘Coagulation Tank’ is approximately 3.5m deep, 5m wide and 8m long, with a strong effluent flow of up to 140000L/Min. Controlling the optimum level or stopping any overflow is crucial and not without difficulty, the surface is turbulent, it foams readily and heavily, build up on any form of 'contact' device quickly happens and causes problems. After initially installing a guided wave radar, and trying point level switches, they found the heavy, unpredictable high build up levels and contamination were so severe on the probes that it caused false readings and needed frequent cleaning. The poor measurement availability and high maintenance were unwelcome in such an important area. The ‘Coagulation Tank’ is very hazardous, the heavily aerated water means that anyone falling in would sink ‘like a stone’, so minimising any personnel working in the area is a safety priority. Almost 2 years ago, the units were changed for a contactless VEGAPULS WL61 radar level sensor by the Aston Martin team. Designed for water and waste water applications, it features an IP68 housing with an encapsulated antenna, ideal for the harsh operating environment in an effluent plant. This being the first occurrence in a Manufacturing scenario, the sensor is ideally suited as the liquid density and substances contained within the liquid have no bearing on measurement accuracy. Most importantly, the device can cope with all reasonable levels of foam due to the excellent signal sensitivity and the 80mm antenna, which focuses signal for optimal performance. The Engineer continued, "The readings we now get are to the mm which is extremely accurate and allows us to have a greater level of control, especially as this measurement also governs the ‘Water Make Up Valve’ which operates to re-level the Tank as water evaporates due to the process. All of the control strategy for the Water System was re-written after installation due to the greater level of accuracy and so far we have enjoyed a 100% efficiency rate to date. The safety surrounding the ‘Coagulation Tank’ has also been increased as we don't have to enter the guarded area around the tank to clean off build up. Being non-contact is ideal in this application, so if the pit is cleared out, we don't risk any sensor damage either."Learn More
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