When auditing an installation, we look for solutions or alternatives to help our clients with 3 different aspects: Safety - Efficiency - Performance.
In the case of Menuiseries Belisle, our advice and changes were mainly focused on the performance aspect.
Since 1971, Menuiseries Belisle specializes in the manufacture of architectural wood doors and windows, manufactured to the highest quality standards.
“When we first got into business, we installed a compressed air system without knowing much about it or the best practices and solutions available. Our air system consisted of flexible hoses suspended from the ceiling. Through the years and the expansions, our system started resembling an octopus.
Since we specialize in high-end products, the quality of the finish of our products is crucial. With more and more efficient equipment and machinery that requires constant airflow like our new CNC machine, our compressed air system was no longer able to serve our needs. The tools and equipment located furthest from the compressor were not getting enough air to operate properly.
We were faced with a high rejection rate due to non-compliance issues when applying paint and varnish. The lack of air made the application of the paint uneven requiring costly additional production steps (e.g.:sandblasting and refinish).
When a machine required maintenance, we had to depressurize the entire network and stop 80% of production to service the equipment.
We listed Topring’s expertise to evaluate the efficiency of our compressed air system. Following a full system audit, they quickly identified issues and proposed solutions to optimize our compressed air system. Time was of the essence to maintain a proper management of our operations.”
Jean-Pierre Belisle
Director of Production and Co-Owner, Menuiseries Belisle
A high percentage of pressure loss is due to the inappropriate diameter of the piping components. The ideal diameter of the pipes should be calculated according to the total volume of air circulating and the total distance to be traveled between the compressor and the point of use. A closed-loop network is the most efficient type of network. Octopus type of networks has multiple flow and pressure problems.
The advantage of a closed-loop network is that the air produced by the compressor can travel through several lines at a time, providing balanced pressure and airflow throughout the entire network. The drops are powered by two air sources. This enables to install pipes of smaller diameter thus reducing the initial cost of the system and improving operating efficiency.
Octopus network
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Closed-loop network
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“Our original octopus network consisted of 3/4” (20 mm) flexible hoses attached to the ceiling totaling 800 linear feet. Topring explained to us that the hoses were collecting water which constricts the pipe and reduces the available airflow. So we designed a closed-loop air network to provide the right amount of air to each machine.” - J.-P. Belisle
To ensure that compressed air is clean and dry and that it does not damage tools and equipment by the presence of water and rust, it is important to choose materials that will not corrode. When compared to a steel piping or assembled flexible hoses, an aluminum network offers many performance advantages.
Aluminum pipes | Steel pipes |
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Topring pipes resist to corrosion and do not deteriorate | Traditional pipes will rust and accumulate contaminants |
Topring aluminum pipes allow air to circulate freely without friction | Rust causes friction and air turbulence |
“We chose a 32 mm Topring aluminum network. By having a larger diameter network (originally 20 mm), we have increased the available airflow to allow us to run all of our equipment efficiently and will even allow us future expansions without worrying about adding compressors.” - J.-P. Belisle
Ball valves installed on a closed-loop network allow isolating sections of the network for periodic maintenance, repairs or even expansion. For safety reasons, we recommend using lockout ball valves to ensure that the system cannot be supplied by mistake during these kinds of operations which, could cause serious injuries.
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“The addition of ball valves is an ideal solution for the maintenance of equipment without depressurizing the system. We have installed them in several places so that any machine requiring maintenance can be isolated. This allows us to continue running the other machines and equipment while maintenance is being performed. It is now easier to plan our production with fewer unforeseen events.” - J.-P. Belisle |
For paint applications, it is recommended to install a desiccant air dryer as it provides clean, dry, and high-quality air. It removes oil, aerosols, water vapors, and impurities from the compressed air system. This provides the ultimate protection when applying high-tech finishing products. This dryer can be installed directly into the network.
A desiccant air dryer needs to be protected from oil by using a coalescent filter, which needs to be protected by a standard filter. This type of desiccant air dryer is a 3-stage system.
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Step 1: FILTRATION
Step 3: DEHYDRATION
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“We added desiccant air dryers to ensure proper air during paint and varnish applications.” - J.-P. Belisle
“I am very satisfied with Topring’s expertise. With the proposed solutions and modifications, we noticed a difference in the performance of each of our machines. They are now operating at their full potential. I am delighted with the Topring aluminum networks; I recommend them to everyone! Now we do not need to stop production and we can be more productive.” - J.-P. Belisle
Practical Guide to Planning a Compressed Air Piping System
3-Step Maintenance Control for Compressed Air Piping Systems
5 Reasons to Choose an Aluminum Compressed Air Pipe
5 Solutions to Remove and Treat Condensates