ATEX Peristaltic Pump for Dielectric Solvent Slurry Adhesive Coating
Adhesives are available in various forms often utilising either Solvent or Water as a component to aid curing. Whilst water-based adhesives can be handled with a wide variety of materials, solvent based glues require handling differently.
Solvent based glues are a mixture of polymer-based ingredients mixed with solvent. Once the glue is applied and the solvent is exposed to air, it begins to evaporate until cured when the bond is at its strongest.
The bond is more of an industrial bond and once applied is difficult to break unless a chemical such as acetone is used. These types of glues are very unforgiving, flammable and more harmful to both personnel and the environment and so care must be taken during handling.
A customer contacted us who was experiencing issues with their vane pump handling a new blend of adhesive consisting of 3 parts - Solvent, Resin and Ceramic. They were experiencing high levels of wear with their vane pump with the mechanical seal repeatedly failing, allowing air ingress into the pump, hazardous flammable liquid would leak from the casing, and the end product would fail to meet quality standards.
At each breakdown not only did wearing parts have to be replaced, but the casing and any small parts would require a full clean using hazardous chemicals to remove any product set. When the seal leaked, product would ingress into the bearings, quickly rendering them useless. Maintenance required at least two people, and the downtime that the factory was experiencing was annualised at over £200,000 of lost product output per year.
The Vane pump was feeding a batching line which would batch fill containers on an assembly line before bottles were packaged and dispatched for delivery. Having to repeatedly disassemble the vane pump, change the seal, bearings and vanes meant repeated stoppages which the plant could no longer accept.
The capacity of the existing unit was between 5-15L/min with a discharge pressure of 4 bar. The glue had a viscosity similar to Ketchup (1000cps) but Various pump technologies were studied before finalising our specification for an ATEX (UKCA EX) roller Peristaltic pump controllable via Variable Frequency Drive. This design of pump which contains a single wearing part – a hose eliminating any chance of mechanical seal failure, and more importantly air ingress contaminating product.
Our Low Maintenance Solution
Hose pumps are of non-clog design meaning there was no chance of blockages forming within the pump. They are of positive displacement design meaning the pressure will be constant, and flow rate proportionate to speed. This meant that the speed of dispensing and bottling could be altered according to line speed.
As solvent can attack cast iron the unit was coated in Halar. Halar is a type of plastic coating highly resistant to temperature fluctuations, chemicals, and corrosion, protecting the pump in case of spillage or liquid escapement should the hose fail.
The ATEX (UKCA EX) Peristaltic pump was supplied with a motor suitable for operation via external variable frequency drive. The customer had existing 1¼ inch NPT fittings which we had fitted to the pump to enable plug and play operation.
The main difference in output flow from the Peristaltic to the vane pump is that vane pumps do not have a pulsating flow. To ensure accuracy within their liquid filling packaging machinery we supplied the pump complete with an inline pulsation dampener which eliminates up to 98% of pulsations during operation, meaning the customer receives a smooth linear flow important for flowmeter accuracy during dispensing, and that containers are not over or underfilled as an unintended consequence.
Process Improvements, Payback Period, & Outcome
The customer received the pump within 3 weeks of order and is set to save over £200,000 in lost output with a payback period of less than 1 month.
Maintenance is far simpler requiring only one person with the pump kept in situ. As there is only one wearing part – the hose, when this approaches the end of its useful life, it is removed from service, sent for disposal, and replaced without any cleaning of parts using hazardous chemicals and added risk to personnel.
Furthermore, as the plant had experienced some restructuring with team members who had expertise in pump overhaul and maintenance leaving the business, having such a simple to maintain solution accelerated training and meant outside expertise was not required.