1. Accessories Fluid Handling Training

2. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 2 Click to edit Master subtitle style Accessories- Material Filters When using an extrusion gun (e.g. dispensing a bead) it is typically not necessary to filter the product if application tip diameters are large enough.

3. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 3 Click to edit Master subtitle style Airless spraying is based on the application of pressure to a fluid with a high-pressure pump.The high-pressure fluid is directed trough a small orifice. As the material exists the orifice and goes to ambient pressure, the material rapidly expands and breaks into fine particles, a process commonly referred to as “atomization”. The size of the spray orifice determines the amount of fluid filtration required. Impurities, dried particles and other particles that are larger than the orifice will plug its opening. Therefore most spray systems require some degree of fluid filtration. Accessories- Material Filters Airless Spraying Make sure to select a filter with an orifice smaller than the diameter of the tip orifice. Select a large filtering surface if flow rate is important this will reduce cleaning frequency.

4. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 4 Click to edit Master subtitle style Accessories- Material Filters Choosing the right Filter It is necessary to balance the appropriate size spray tip with the proper meshed fluid filter: To avoid lost production due to clogging and cleaning of spray tips. To avoid damaging or changing the material and its characteristics by having too fine of filtration. To minimize material pressure drop over the filter(finer filter has more pressure loss than a more coarse filter element). To reduce the plugging of the filter(the finer the screen the more quickly it plug). High pressure can cause a plugged filter screen to collapse or break in some instance. To reduce the required frequency of filter cleaning or replacement. When filtering a material the filter must be continuously maintained to be effective

5. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 5 Click to edit Master subtitle style Accessories- Material Filters Typical Installation Where is the Material Filter!

6. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 6 Click to edit Master subtitle style Accessories- Material Filters ARO Filters Range See Page 68 Piston Pumps

7. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 7 Click to edit Master subtitle style Accessories- Follower Plates The follower plates are used with the single or two post ram, is designed to provide positive priming pressure for pumping high viscosity materials. It also isolates the material in the drum from air while the drum is emptied, simultaneously protecting the material from outside contaminants.As the material is evacuated from the drum, the plate cleans the sides of the drum and minimises any material waste at the bottom of the drum. As material viscosity increases the amount of flow from a pump decreases. Single & Two post rams with follower plates are recommended when viscosities are higher than 3000 cPs. Follower Plates should be considered with any material that does not easily seek its own level in a drum. Usually we use follower plates with flat wiper seals with viscosities up to 25,000cPs. Over these viscosities we advise the use of double flat wipers or double “Tube type” wipers

8. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 8 Click to edit Master subtitle style Accessories- Follower Plates Our Range for 20-30 liters Wiper Material Nitrile Polyurethane EPR Polyethylene/Urethane Material Carbon Steel Stainless Steel A-B-C-D Carefully when Selecting! Mounting Footprint Mounting footprint is strictly a reference letter used to simplify the matching of pumps to follower plates and related accessories. Follower Plate Adapter for “A” Mounting

9. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 9 Click to edit Master subtitle style Accessories- Follower Plates Our Range for 200 liters Wiper Material Nitrile Polyurethane EPR Polyethylene/Urethane Viton Material Carbon Steel Aluminium Teflon/Coated A-B- Be careful when Selecting! Mounting Footprint Mounting footprint is strictly a reference letter used to simplify the matching of pumps to follower plates and related accessories.

10. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 10 Click to edit Master subtitle style Accessories- Lifts & Rams Selection IR/ARO single and two post rams are designed to make easy and quick replacement of pails and drums by the lifting of the pump. The use of rams with follower plates improves pumping results by exerting a continuous and modulating pressure on the surface of the pumped material. Single rams will have a maximum thrust of 240 daN Two post Rams standard 480 daN Two post rams Extra Heavy-Duty 700 daN daN= decaNewton To pump 3000 to 25 000cPs material To pump 3000 to 300 000cPs material To pump 3000 to 1 000 000cPs material

11. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 11 Click to edit Master subtitle style Material Conditioning Containers Dimensions

12. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 12 Click to edit Master subtitle style Material Conditioning Containers Dimensions

13. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 13 Click to edit Master subtitle style Material Conditioning Containers Dimensions

14. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 14 Click to edit Master subtitle style Material Conditioning Containers Dimensions

15. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 15 Click to edit Master subtitle style Accessories- Fluid Regulators IDL= Improved Design Line Fluid Pressure Inlet Non Regulated Fluid Pressure outlet Regulated ARO Downstream

16. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 16 Click to edit Master subtitle style Accessories- Fluid Regulators ARO Downstream Fluid Pressure Regulators are used to reduce the fluid pressure delivered from a pump. Regulators are designed to deliver constant fluid pressure based upon the inputs or setting of the regulator. Fluid regulators should be placed as close as possible to the point of application. Fluid filtration placed before the fluid regulator will protect it from contamination. Fluid regulators can be controlled remotely through a pneumatic signal or manually. The ARO I.D.L. Fluid Regulator features smooth consistent pressure regulation with easy-turn adjustment. Patented easy-access seat plug permits immediate service access to the regulator’s ball and seat. Patented “floating” ball and seat design maintains proper regulation, even during significant fluctuations in line pressure.

17. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 17 Click to edit Master subtitle style Accessories- Fluid Regulators How does it work! ARO Downstream The fluid regulator closes and stops fluid flow when the pressure in the hose downstream of the regulator is greater than the set regulator pressure (in free flow situation with no back pressure the regulator will not work. The input fluid pressure should be approximately 40% higher than the regulated pressure. For good control in a pneumatic regulated system a stable air supply is required. Fluid supply pulsation should be minimised to help assure good regulator function.

18. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 18 Click to edit Master subtitle style The understand on how to use all these accessories and why these for each particular application.

19. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 19 Click to edit Master subtitle style Accessories- Pulsation Dampeners Are used to control and minimise the pulsation that result from a pressurised system’s stroking action. They increase system efficiency, performance, and pump life; decrease maintenance costs and down-time; and protect pipes, meters, valves and instrumentation from pulsation, vibration, and hydraulic shock. Most pulsation dampeners use a bladder or bellows to separate the process fluid from a compressible gas. During the pump’s discharge stroke, fluid pressure displaces the bladder or bellows and compresses the trapped gas. During the following cycle, the momentary interruption of fluid flow causes the compressed gas to expand, forcing the bladder or bellows to push the accumulated fluid back into the discharge line.

20. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 20 Click to edit Master subtitle style Accessories- Pulsation Dampeners ARO Range- 1”-2”-3”

21. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 21 Click to edit Master subtitle style Accessories- Pulsation Dampeners

22. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 22 Click to edit Master subtitle style Accessories- Pulsation Dampeners Caution! Importante!

23. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 23 Click to edit Master subtitle style Accessories- Pulsation Dampeners Caution! The Most Important! Results! When not respecting the warning! Air must be supplied to the Air tamer before applying any Fluid Pressure

24. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 24 Click to edit Master subtitle style Accessories- Over-Run Controls “Arostop”

25. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 25 Click to edit Master subtitle style Accessories- Over-Run Controls “Arostop”

26. Fluid Handling 300 Level © 2006 Ingersoll Rand Company 26 Click to edit Master subtitle style Accessories- Air Control Needle Valves A Small Economical device that controls, over-runs of Diaphragm pumps, Piston Pumps, allows you to calibrate the pump speed and air consumption.