O r i g i n a l S E R I E S S i m p l i f y y o u r p r o c e s s

Original S E R I E S S i m p l i f y y o u r p r o c e s s

Original S E R I E S Your Needs Simplicity of design Increased On/Off reliability Low procurement costs Versatility of application Widest range of materials & sizes Our Solution Quick disassembly designs Proven air distribution systems Extensive elastomer selection Seven model sizes available The Original TM solution The Result Lower operation costs & downtime Durability and portability Longer MTBF (Mean Time Between Failure) Application versatility Your success

Original R E S U L T S Application Tested 0 years of proven application success Self-priming, positive head or submerged Various accessories to enhance performance Ease of maintenance & assembly Installation Flexibility NPT or BSP threads available Tri-Clamp connections available Flaretek fittings available Split manifold configurations available Solid Performer Move large solids without pump damage Strong suction lift capability Screened base models available Externally accessible liquid paths available Multiple Product Lines Available Ultrapure TM models available BioPharm TM models available Advanced TM models available Unitec TM models available Saniflo TM food & beverage pumps Accu-Pulse TM metering pumps

Knowledge We understand your needs and challenges We must save you time and money We value proven techniques as well as creative ideas We combine technical wisdom with common sense We take pride in our work Product Designed to maximize your yield Engineered for general and specialized applications Excels in difficult applications where other pumps fail Easy to specify, operate, and maintain Put our products to the test Quality ISO 900 Registration since 99 Equipment, procedures, and pride ensure product conformity Every pump is performance tested Quality is not a program; it is our culture

Distribution Local service - Worldwide Full-stocking, full-service distributors Formally educated in specifying and maintaining your system Product is available immediately Local training of your staff Response Committed to servicing you with our entire staff Service is hours a day / days a week Minimize your downtime while increasing your yield Spare parts when you need them From face time to e-commerce Results Wilden tradition of service, quality, and integrity We do more than sell products; we solve problems We attack the root cause of the problem, not the symptom Challenge Us

Original S O L U T I O N S Ceramics Unique Characteristics Variable Flow and Pressure Intrinsically Safe by Design Shear Sensitive Large Solids Passage Chemical Self-priming Dry Running Without Damage Deadhead Capable Portable & Submersible Dry Powder UL, CE Mark, FDA, USDA, 3A, ATEX Ease of Operation and Maintenance Unique Characteristics Solvents Mining Acids Caustics High Viscosity Low Viscosity Oil & Gas Large Solids & Abrasive Media Hazardous Liquids Cleanroom Fluids Pressures to. bar (0 psig) Paint & Inks Plating & Finishing Pulp & Paper Sanitary Semiconductor Waste Treatment 3

Installation V E R S A T I L I T Y Self-Priming Capable of pulling high vacuum Pump can run dry No heat generation Capability dependent upon pump size & application Positive Suction Head Pump can draw from the bottom of vessel Liquid inlet pressure should be limited to 0. bar (0 psig) to maximize parts life Preferred installation for viscous fluids Submerged Many pumps can be completely submerged Materials of construction need to be compatible with fluid Air exhaust must be plumbed to atmosphere Some pumps have screened liquid inlet connections

The Wilden M O T I O N Type: Positive Displacement, Reciprocating, Air-Operated, Double-Diaphragm Pump Major Components: Wetted Components Parts that come into contact with liquid Air Distribution System Air chambers, center block & air valve Elastomers Diaphragms, check valves, valve seats & o-rings Dynamic Components: Two diaphragms are connected to a common shaft and act as a separation membrane between the compressed air and the liquid Two inlet and two discharge check valves open and then close to direct liquid flow The Air Distribution System alternately supplies air to the right and then the left side of the pump A B Figure. Figure.. Air supply is directed to the left air chamber behind diaphragm A. Diaphragm A is driven by compressed air away from the center section and toward the liquid chamber 3. The opposite diaphragm (diaphragm B) is pulled in by the common shaft. Diaphragm B is now on its suction stroke while diaphragm A is on its discharge stroke. The movement of diaphragm B toward the center block opens the bottom right check valve and closes the upper right check valve 6. This movement creates a vacuum within liquid chamber B. Atmospheric pressure forces fluid into the inlet manifold, past the lower right inlet check valve and into liquid chamber B. When the pressurized diaphragm A reaches its full stroke, the air distribution system redirects the air supply to the back side of diaphragm B A Figure. B Figure.. The pressurized air forces diaphragm B away from the center block and the common shaft pulls diaphragm A toward the center section. The air chamber on side A exhausts its air to atmosphere 3. Diaphragm B is now beginning its discharge stroke while diaphragm A is beginning its suction stroke. Diaphragm B creates hydraulic force that begins to close the lower right check valve and opens the upper right check valve. Diaphragm A creates a vacuum that begins to open the inlet check valve (lower left) and closes the discharge check valve (upper left) Figure 3.. As the pump continues to stroke toward the right (toward diaphragm B), side A fills with fluid as side B discharges fluid. When side B reaches its complete stroke, the air distribution system redirects the air supply back to side A 3. When the pump completes two strokes (one on each side) a complete pumping cycle is achieved A B Figure 3.

Air Distribution S Y S T E M S P r o - F l o V Features All metal air system Non-stalling unbalanced spool Few replaceable parts Fully recaptured pilot spool vent option Availability 3 mm, mm & 6 mm pumps (-/", ", & 3" pumps) P r o - F l o Features Plastic C-block and A.V. Non-stalling unbalanced spool Few replaceable parts Availability 6 mm, 3 mm, mm, 3 mm, mm, & 6 mm pumps (/", /", ", -/", ", & 3" pumps) W i l - F l o Features Metal C-block and A.V. Pressure relief valves Quick air exhaust Dbl. muffler configuration Availability 3 mm, mm & 6 mm pumps (-/", ", & 3" pumps) A c c u - F l o Features Externally controlled Various voltage and currents Nema, Nema, or Cenelec Simple installation Wilden accessory interface Availability 6 mm, 3 mm, mm, 3 mm, mm & 6 mm pumps (/", /", ", -/", ", & 3" pumps) T u r b o - F l o Features Metal air systems Durable Low initial cost Ease of maintenance Largest installed base Availability 6 mm, 3 mm, mm, 3 mm, mm, 6 mm, & 0 mm pumps (/", ", -/", ", 3, & " pumps) 6

Progressive Diaphragm T E C H N O L O G Y Diaphragm Considerations Flex Life Chemical Resistance Temperature Limitations Abrasion Resistance Initial Cost Traditional Rubber Diaphragms Rubber diaphragms are designed to maximize life, abrasion resistance and chemical compatibility A nylon fabric mesh is positioned within rubber diaphragms during the molding process to strengthen the diaphragm while distributing stress Ultra-Flex Diaphragm Technology Guaranteed longer life - If longer life is not experienced, Wilden will send you a new set of Ultra-Flex diaphragms free of charge. See product flyer for details Convolute shape, altered fabric placement, and unique hardware work together to decrease the unit loading on the diaphragm and distribute stress Thermoplastic Elastomer (TPE) Thermoplastic diaphragms are manufactured by molding proprietary compounds into finished parts Thermoplastic diaphragms are molded without fabric reinforcement due to their inherent tensile strength Thermoplastic diaphragms exhibit excellent abrasion resistance Teflon (PTFE) Teflon is the most chemically inert compound Wilden patented our Teflon diaphragms with concentric ribs to control the flex pattern of the diaphragm to maximize life A back-up diaphragm is used to provide support and lengthen the Teflon diaphragm life Tetra-Flex Technology Gylon PTFE Laminate (one-piece diaphragm) Guaranteed longest-lasting PTFE laminate diaphragm on the market (see product flyer for details) Improves the sealing characteristics of the pump Handles high fluid inlet pressure applications Please verify the chemical resistance capabilities and temperature limitations of elastomers and all other pump components prior to pump installation. Wilden Chemical Resistance Guide (E), located at www.wildenpump.com, should be consulted for specifics.

Performance D A T A Maximum Flow Rate Determined by pumping water into tanks The flow rate was calculated based on time and weight of water pumped Viscosity and specific gravity of process fluid will affect flow rates Maximum Diameter Solids Maximum solids diameter figure was determined by pumping solids through pump The solids were non-compressible and round in size Geometry of solids and compressibility will affect passage Suction Lift Capability Calibrated for pumps operating at 30 m (000 ft) above sea level The figures listed in this brochure are the maximum lift capable for each specific pump Suction lift capability is affected by many variables including viscosity & specific gravity Consult the Engineering, Operation & Maintenance Manual for complete data Performance Curves Pumps should be specified so that daily operation parameters will fall in the middle of the curve Many curves exist for each pump depending upon elastomeric configuration Consult the Engineering, Operation & Maintenance Manuals for complete data How to Read Performance Curves Determine the flow rate you require and determine your discharge head Plot the intersection of the discharge head on the vertical axis to the flow rate on the horizontal axis (see dot) Locate the blue curve closest to this intersection and follow it to the vertical axis to the left This is the air supply pressure needed to provide the flow rate at the given head Locate the gray curve closest to the intersection and follow it up to where the numbers are provided This number is the air supply volume needed to provide the flow rate you require at the given head Discharge Head BAR FEET PSIG 0 0 00 6 00 0 3 00 0 0 Water Flow Rates GPM [LPM] (0) [] 0 [3] (0) [3] (30) [] () [6] (0) [] () [0] 0 [6] 30 [] [] 0 AIR INLET 00 PRESSURE (psig) 0 0 [9] [] 0 [6] [303] 90 [3] Example: To pump 63 lpm ( gpm) against a discharge pressure head of. bar ( psig) requires. bar ( psig) and 3 Nm 3 /h (0 scfm) air consumption (see dot on chart). Temperature Range Temperature limitations are based upon mechanical stress only Specific chemicals will significantly reduce the maximum safe operating temperature Consult the Wilden Chemical Resistance Guide (E) for information on specific fluids

Original P L A S T I C

Original P L A S T I C P.0 ORIGINAL PLASTIC PUMP Height: 63 mm (6.") Width: mm (.") Depth: mm (.") Air Inlet: 3 mm (/" FNPT) Liquid Inlet: 6 mm (/") Liquid Outlet: 6 mm (/") Polypropylene. kg (3 lbs) PVDF. kg (3 lbs) Carbon-filled Acetal. kg (3 lbs) Buna-N Teflon PTFE Wil-Flex Max. Flow: Rubber/TPE. lpm (. gpm) Teflon. lpm (. gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage: 0. mm (/6") Max. Suction Lift (wet): Rubber/TPE 9. m (3.0') Teflon. m (9.0') (dry): Rubber/TPE 3.m (0.0') Teflon. m (.0') P ORIGINAL PLASTIC PUMP 0 Height: mm (.6") Width: 0 mm (.") Depth: 03 mm (.0") Air Inlet: 6 mm (/" FNPT) Liquid Inlet: 3 mm (/") Liquid Outlet: 3 mm (/") Polypropylene kg (9 lbs) PVDF kg ( lbs) Carbon-filled Acetal kg (0 lbs) Teflon PFA 6 kg ( lbs) Buna-N Teflon PTFE Viton Wil-Flex Saniflex Polyurethane Max. Flow: Rubber/TPE 6. lpm (.0 gpm) Teflon 3. lpm (. gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage:.6 mm (/6") Max. Suction Lift (wet): Rubber/TPE 9. m (3.0') Teflon 9. m (3.0') (dry): Rubber/TPE 6. m (0.0') Teflon. m (.0')

Original P L A S T I C T ORIGINAL PLASTIC PUMP Height: mm (.6") Width: 0 mm (.") Depth: mm (.0") Air Inlet: 6 mm (/" FNPT) Liquid Inlet: 3 mm (/") Liquid Outlet: 3 mm (/") Polypropylene kg (9 lbs) PVDF kg (0 lbs) Carbon-filled Acetal kg (0 lbs) Teflon PFA 6 kg ( lbs) Buna-N Teflon PTFE Viton Wil-Flex Saniflex Polyurethane Max. Flow: Rubber/TPE 3. lpm (. gpm) Teflon 3. lpm (. gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage:.6 mm (/6") Max. Suction Lift (wet): Rubber/TPE 9. m (30.0') Teflon 9. m (3.0') (dry): Rubber/TPE 3.9 m (3.0') Teflon 3.0 m (0.0') P ORIGINAL PLASTIC PUMP Height: 36 mm (.0") Width: 96 mm (.6") Depth: 3 mm (9.") Air Inlet: 6 mm (/" FNPT) Liquid Inlet: mm (") Liquid Outlet: mm (") Polypropylene kg ( lbs) PVDF 0 kg (3 lbs) Neoprene Teflon PTFE Nordel Wil-Flex Buna-N Saniflex Viton Polyurethane Max. Flow: Rubber/TPE lpm (3 gpm) Teflon 33 lpm (3 gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage: 3. mm (/") Max. Suction Lift (wet): Rubber/TPE. m (9.0') Teflon. m (9.0') (dry): Rubber/TPE. m (.0') Teflon 3. m (.0')

Original P L A S T I C T ORIGINAL PLASTIC PUMP Height: 33 mm (3.0") Width: 96 mm (.6") Depth: 3 mm (9.") Air Inlet: 6 mm (/" FNPT) Liquid Inlet: mm (") Liquid Outlet: mm (") Polypropylene kg ( lbs) PVDF 0 kg (3 lbs) Neoprene Teflon PTFE Nordel Wil-Flex Buna-N Saniflex Viton Polyurethane Max. Flow: Rubber/TPE lpm (30 gpm) Teflon 0 lpm ( gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage: 3. mm (/") Max. Suction Lift (wet): Rubber/TPE 9. m (3.0') Teflon 9. m (3.0') (dry): Rubber/TPE. m (.0') Teflon. m (6.0') P ORIGINAL PLASTIC PUMP Height: 6 mm (0.") Width: 39 mm (.") Depth: mm (.") Air Inlet: 3 mm (/" FNPT) Liquid Inlet: 3 mm (-/") Liquid Outlet: 3 mm (-/") Polypropylene kg (3 lbs) PVDF kg ( lbs) Teflon PFA kg (9 lbs) Neoprene Teflon PTFE Nordel Wil-Flex Buna-N Saniflex Viton Polyurethane Max. Flow: Rubber/TPE 3 lpm (93 gpm) Teflon 69 lpm ( gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage:. mm (3/6") Max. Suction Lift (wet): Rubber/TPE. m (9.0') Teflon.9 m (6.0') (dry): Rubber/TPE. m (.0') Teflon 3.0 m (0.0')

Original P L A S T I C W ORIGINAL PLASTIC PUMP Height: 6 mm (0.") Width: 39 mm (.") Depth: 9 mm (.6") Air Inlet: 3 mm (/" FNPT) Liquid Inlet: 3 mm (-/") Liquid Outlet: 3 mm (-/") Polypropylene kg (3 lbs) PVDF kg ( lbs) Teflon PFA kg (9 lbs) Neoprene Teflon PTFE Nordel Wil-Flex Buna-N Saniflex Viton Polyurethane Max. Flow: Rubber/TPE 3 lpm (99 gpm) Teflon lpm ( gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage:. mm (3/6") Max. Suction Lift (wet): Rubber/TPE 9. m (30.0') Teflon. m (9.0') (dry): Rubber/TPE.9 m (6.0') Teflon 3.9 m (3.0') T ORIGINAL PLASTIC PUMP Height: 6 mm (0.") Width: 39 mm (.") Depth: mm (.") Air Inlet: 3 mm (/" FNPT) Liquid Inlet: 3 mm (-/") Liquid Outlet: 3 mm (-/") Polypropylene kg (3 lbs) PVDF 3 kg (9 lbs) Teflon PFA kg ( lbs) Neoprene Teflon PTFE Nordel Wil-Flex Buna-N Saniflex Viton Polyurethane Max. Flow: Rubber/TPE 36 lpm (6 gpm) Teflon 0 lpm ( gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage:. mm (3/6") Max. Suction Lift (wet): Rubber/TPE. m (.0') Teflon. m (.0') (dry): Rubber/TPE.9 m (6.0') Teflon. m (9.0') 3

Original P L A S T I C P ORIGINAL PLASTIC PUMP Height: 0 mm (30.3") Width: 9 mm (9.3") Depth: 333 mm (3.") Air Inlet: 3 mm (/" FNPT) Liquid Inlet: mm (") Liquid Outlet: mm (") Polypropylene 3 kg ( lbs) PVDF 3 kg (9 lbs) Neoprene Teflon PTFE Nordel Wil-Flex Buna-N Saniflex Viton Polyurethane Max. Flow: Rubber/TPE lpm ( gpm) Teflon lpm ( gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage: 6. mm (/") Max. Suction Lift (wet): Rubber/TPE 9. m (3.0') Teflon 9. m (3.0') (dry): Rubber/TPE.0 m (3.0') Teflon.3 m (.0') W ORIGINAL PLASTIC PUMP Height: 0 mm (30.3") Width: 9 mm (9.3") Depth: 3 mm (.6") Air Inlet: 9 mm (3/" FNPT) Liquid Inlet: mm (") Liquid Outlet: mm (") Polypropylene 3 kg ( lbs) PVDF kg (9 lbs) Neoprene Teflon PTFE Nordel Wil-Flex Buna-N Saniflex Viton Polyurethane Max. Flow: Rubber/TPE 69 lpm ( gpm) Teflon 6 lpm (66 gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage: 6. mm (/") Max. Suction Lift (wet): Rubber/TPE 9. m (3.0') Teflon 9. m (3.0') (dry): Rubber/TPE. m (.0') Teflon 3.9 m (3.0')

Original P L A S T I C T ORIGINAL PLASTIC PUMP Height: 0 mm (30.3") Width: 9 mm (9.3") Depth: 333 mm (3.") Air Inlet: 9 mm (3/" FNPT) Liquid Inlet: mm (") Liquid Outlet: mm (") Polypropylene 3 kg ( lbs) PVDF kg (9 lbs) Neoprene Teflon PTFE Nordel Wil-Flex Buna-N Saniflex Viton Polyurethane Max. Flow: Rubber/TPE 9 lpm (6 gpm) Teflon lpm ( gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage: 6. mm (/") Max. Suction Lift (wet): Rubber/TPE 9. m (3.0') Teflon 9. m (3.0') (dry): Rubber/TPE. m (9.0') Teflon 3.0 m (0.0')

Original Plastic C U R V E S 6 3 0 00 0 00 0 0 00 0 Rubber-Fitted () [.] () [3.] (3) [.] () [6.] () [.] 3 [] [] [] [] [9] P.0 0 () [.] 0 00 6 00 0 3 00 0 0 Teflon -Fitted () [3.] (3) [.] () [6.] () [.] 3 [] [] [] [] [9] 0 0 00 6 00 0 3 00 0 0 () [6.] () [3.6] () [0.] (6) [.] 6 0 [] [] [3] [30] [3] [] [3] P () [6.] 0 0 00 6 00 0 3 00 0 0 () [3.6] () [0.] 6 0 [] [] [3] [30] [3] [] [3] () [6.] 0 0 00 6 00 0 3 00 0 0 () [3.6] () [0.] (6) [.] 6 0 [] [] [3] [30] [3] [] [3] T 0 0 00 6 00 0 3 00 0 0 () [6.] () [3.6] () [0.] (6) [.] 6 0 [] [] [3] [30] [3] [] [3] 0 0 00 6 00 0 3 00 0 0 (0) [] (0) [3] (30) [] () [6] 0 0 30 3 [9] [3] [] [6] [9] [] [33] [] P 0 (0) [] (0) [3] 6 0 (30) [] () [6] 00 00 3 0 00 0 0 0 0 30 3 [9] [3] [] [6] [9] [] [33] [] 6 6

Original Plastic C U R V E S 6 3 0 00 0 00 0 0 00 0 Rubber-Fitted () [.] (0) [] () [.] (0) [3] () [.] 0 0 30 3 [9] [3] [] [6] [9] [] [33] T 0 0 00 6 00 0 3 00 0 0 Teflon -Fitted () [.] (0) [] () [.] (0) [3] () [.] (30) [] 0 0 30 3 [9] [3] [] [6] [9] [] [33] (0) [] 0 (0) [3] (30) [] () [6] 0 (0) [] 00 () [0] 6 3 00 0 00 0 0 0 0 30 0 0 90 [3] [6] [] [] [9] [] [6] [303] [3] P (0) [] 0 (0) [3] (30) [] 0 00 6 00 0 3 00 0 0 () [6] (0) [] () [0] 0 0 30 0 0 90 [3] [6] [] [] [9] [] [6] [303] [3] 0 0 00 6 00 0 3 00 0 0 (0) [] (0) [3] (30) [] () [6] (0) [] () [0] 0 0 30 0 0 90 00 [3] [6] [] [] [9] [] [6] [303] [3] [3] W 0 0 00 6 00 0 3 00 0 0 (0) [] (0) [3] (30) [] () [6] (0) [] () [0] 0 0 30 0 0 90 00 [3] [6] [] [] [9] [] [6] [303] [3] [3] (0) [] 0 (0) [3] 0 (30) [] 00 () [6] 6 00 (0) [] 0 3 00 0 0 () [0] 0 0 30 0 0 90 [3] [6] [] [] [9] [] [6] [303] [3] T 0 0 00 6 00 0 3 00 0 0 (0) [] (0) [3] (30) [] () [6] (0) [] () [0] 0 0 30 0 0 90 [3] [6] [] [] [9] [] [6] [303] [3]

Original Plastic C U R V E S 6 3 0 00 0 00 0 0 00 0 Rubber-Fitted (0) [3] () [6] () [0] () [36] (00) [0] (0) [0] 0 00 0 [6] [] [] [303] [3] [] [30] [6] P Teflon -Fitted 6 0 00 0 00 (0) [3] () [6] () [0] () [36] (00) [0] 0 (0) [0] 3 00 0 0 0 00 0 [6] [] [] [303] [3] [] [30] [6] 0 (0) [3] 0 00 6 00 0 3 00 0 0 () [6] () [0] () [36] (00) [0] 0 00 0 [6] [] [] [303] [3] [] [30] [6] [6] W 0 0 00 6 00 0 3 00 0 0 (0) [3] () [6] () [0] () [36] (00) [0] 0 00 0 [6] [] [] [303] [3] [] [30] [6] [6] (0) [3] 0 0 () [6] 00 () [0] 6 00 () [36] 0 (00) [0] 3 00 0 0 0 00 0 [6] [] [] [303] [3] [] [30] [6] T 0 0 00 6 00 0 3 00 0 0 (0) [3] () [6] () [0] () [36] (00) [0] 0 00 0 [6] [] [] [303] [3] [] [30] [6]

Original M E T A L

Original M E T A L P.0 ORIGINAL METAL PUMP Height: mm (.") Width: 6 mm (6.") Depth: mm (.") Air Inlet: 3 mm (/" FNPT) Liquid Inlet: 6 mm (/") Liquid Outlet: 6 mm (/") Aluminum. kg ( lbs) Stainless Steel.0 kg (9 lbs) Alloy C.3 kg (0 lbs) Buna-N Teflon PTFE Wil-Flex Max. Flow: Rubber/TPE.9 lpm (.0 gpm) Teflon.9 lpm (.0 gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage: 0. mm (/6") Max. Suction Lift (wet): Rubber/TPE 9. m (3.0') Teflon 9. m (3.0') (dry): Rubber/TPE.3 m (.0') Teflon 3.9 m (3.0') P ORIGINAL METAL PUMP Height: mm (.") Width: 0 mm (.") Depth: 0 mm (.") Air Inlet: 6 mm (/" FNPT) Liquid Inlet: 3 mm (/") Liquid Outlet: 3 mm (/") Aluminum 6 kg (3 lbs) Stainless Steel 9 kg (0 lbs) Alloy C 0 kg ( lbs) Buna-N Teflon PTFE Viton Wil-Flex Saniflex Polyurethane Max. Flow: Rubber/TPE. lpm (. gpm) Teflon. lpm (. gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage:.6 mm (/6") Max. Suction Lift (wet): Rubber/TPE 9. m (3.0') Teflon 9. m (3.0') (dry): Rubber/TPE. m (9.0') Teflon.9 m (6.0') 0

Original M E T A L T ORIGINAL METAL PUMP Height: mm (.") Width: 0 mm (.") Depth: mm (6.9") Air Inlet: 6 mm (/" FNPT) Liquid Inlet: 3 mm (/") Liquid Outlet: 3 mm (/") Aluminum 6 kg (3 lbs) Stainless Steel 9 kg (0 lbs) Alloy C 0 kg ( lbs) Buna-N Teflon PTFE Viton Wil-Flex Saniflex Polyurethane Max. Flow: Rubber/TPE.9 lpm (. gpm) Teflon 3.0 lpm (.0 gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage:.6 mm (/6") Max. Suction Lift (wet): Rubber/TPE 9. m (3.0') Teflon 9. m (30.0') (dry): Rubber/TPE. m (.0') Teflon 0.3 m (.0') P ORIGINAL METAL PUMP Height: 6 mm (.0") Width: 6 mm (0.") Depth: 0 mm (.9") Air Inlet: 6 mm (/" FNPT) Liquid Inlet: mm (") Liquid Outlet: 9 mm (3/") Aluminum kg (6 lbs) Stainless Steel 6 kg (36 lbs) Alloy C kg ( lbs) Neoprene Teflon PTFE Nordel Wil-Flex Buna-N Saniflex Viton Polyurethane Max. Flow: Rubber/TPE 0 lpm ( gpm) Teflon 63 lpm (3 gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage: 3. mm (/") Max. Suction Lift (wet): Rubber/TPE. m (.0') Teflon. m (.0') (dry): Rubber/TPE. m (9.0') Teflon 3.0 m (0.0')

Original M E T A L T ORIGINAL METAL PUMP Height: 9 mm (.0") Width: 6 mm (0.") Depth: mm (.3") Air Inlet: 6 mm (/" FNPT) Liquid Inlet: mm (") Liquid Outlet: 9 mm (3/") Aluminum kg (6 lbs) Stainless Steel 6 kg (36 lbs) Alloy C kg ( lbs) Neoprene Teflon PTFE Nordel Wil-Flex Buna-N Saniflex Viton Polyurethane Max. Flow: Rubber/TPE 33 lpm (3 gpm) Teflon 9 lpm ( gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage: 3. mm (/") Max. Suction Lift (wet): Rubber/TPE 9. m (3.0') Teflon 9. m (3.0') (dry): Rubber/TPE. m (.0') Teflon. m (6.0') P ORIGINAL METAL PUMP Height: 9 mm (6.9") Width: 36 mm (.") Depth: 30 mm (.") Air Inlet: 3 mm (/" FNPT) Liquid Inlet: 3 mm (-/") Liquid Outlet: 3 mm (-/") Aluminum 3 kg (9 lbs) Cast Iron kg (9 lbs) Stainless Steel 0 kg ( lbs) Alloy C 3 kg ( lbs) Neoprene Teflon PTFE Nordel Wil-Flex Buna-N Saniflex Viton Polyurethane Max. Flow: Rubber/TPE 30 lpm ( gpm) Teflon 9 lpm ( gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage:. mm (3/6") Max. Suction Lift (wet): Rubber/TPE. m (9.0') Teflon. m (.0') (dry): Rubber/TPE. m (9.0') Teflon 3. m (.0')

Original M E T A L PV ORIGINAL METAL PUMP Height: 9 mm (6.9") Width: 36 mm (.") Depth: 30 mm (.6") Air Inlet: 9 mm (3/" FNPT) Liquid Inlet: 3 mm (-/") Liquid Outlet: 3 mm (-/") Aluminum kg (6 lbs) Cast Iron 30 kg (66 lbs) Stainless Steel kg (6 lbs) Alloy C 3 kg (6 lbs) Neoprene Teflon PTFE Nordel Wil-Flex Buna-N Saniflex Viton Polyurethane Max. Flow: Rubber/TPE 33 lpm (9 gpm) Teflon 99 lpm (9 gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage:. mm (3/6") Max. Suction Lift (wet): Rubber/TPE 9. m (3.') Teflon 9. m (3.') (dry): Rubber/TPE.3 m (3.') Teflon. m (.3') W ORIGINAL METAL PUMP Height: 9 mm (6.9") Width: 36 mm (.") Depth: 9 mm (.") Air Inlet: 3 mm (/" FNPT) Liquid Inlet: 3 mm (-/") Liquid Outlet: 3 mm (-/") Aluminum 0 kg (3 lbs) Cast Iron 3 kg ( lbs) Stainless Steel kg ( lbs) Alloy C kg (3 lbs) Neoprene Teflon PTFE Nordel Wil-Flex Buna-N Saniflex Viton Polyurethane Max. Flow: Rubber/TPE 36 lpm (9 gpm) Teflon 3 lpm (3 gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage:. mm (3/6") Max. Suction Lift (wet): Rubber/TPE 9. m (3.0') Teflon 9. m (3.0') (dry): Rubber/TPE. m (.0') Teflon.3 m (.0') 3

Original M E T A L T ORIGINAL METAL PUMP Height: 9 mm (6.9") Width: 36 mm (.") Depth: mm (.3") Air Inlet: 3 mm (/" FNPT) Liquid Inlet: 3 mm (-/") Liquid Outlet: 3 mm (-/") Aluminum kg (3 lbs) Cast Iron 6 kg ( lbs) Stainless Steel 6 kg ( lbs) Alloy C 6 kg ( lbs) Neoprene Teflon PTFE Nordel Wil-Flex Buna-N Saniflex Viton Polyurethane Max. Flow: Rubber/TPE 30 lpm ( gpm) Teflon 3 lpm (6 gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage:. mm (3/6") Max. Suction Lift (wet): Rubber/TPE. m (.0') Teflon. m (.0') (dry): Rubber/TPE. m (.0') Teflon. m (9.0') P ORIGINAL METAL PUMP Height: 66 mm (6.3") Width: mm (.9") Depth: 33 mm (3.") Air Inlet: 3 mm (/" FNPT) Liquid Inlet: mm (") Liquid Outlet: mm (") Aluminum 3 kg (0 lbs) Cast Iron kg (0 lbs) Stainless Steel kg ( lbs) Alloy C kg ( lbs) Neoprene Teflon PTFE Nordel Wil-Flex Buna-N Saniflex Viton Polyurethane Max. Flow: Rubber/TPE 9 lpm (6 gpm) Teflon 96 lpm (3 gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage: 6. mm (/") Max. Suction Lift (wet): Rubber/TPE 9. m (3.0') Teflon 9. m (3.0') (dry): Rubber/TPE.3 m (.0') Teflon.6 m (.0')

Original M E T A L PV ORIGINAL METAL PUMP Height: 66 mm (6.3") Width: mm (.9") Depth: 3 mm (3.") Air Inlet: 9 mm (3/" FNPT) Liquid Inlet: mm (") Liquid Outlet: mm (") Aluminum 3 kg ( lbs) Cast Iron kg ( lbs) Stainless Steel 3 kg ( lbs) Alloy C kg (9 lbs) Neoprene Teflon PTFE Nordel Wil-Flex Buna-N Saniflex Viton Polyurethane Max. Flow: Rubber/TPE 6 lpm ( gpm) Teflon lpm ( gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage: 6. mm (/") Max. Suction Lift (wet): Rubber/TPE 9. m (3.') Teflon 9. m (3.') (dry): Rubber/TPE.3 m (3.') Teflon. m (.6') W ORIGINAL METAL PUMP Height: 66 mm (6.3") Width: mm (.9") Depth: 33 mm (3.") Air Inlet: 9 mm (3/" FNPT) Liquid Inlet: mm (") Liquid Outlet: mm (") Aluminum 33 kg ( lbs) Cast Iron kg (06 lbs) Stainless Steel kg ( lbs) Alloy C 3 kg (6 lbs) Neoprene Teflon PTFE Nordel Wil-Flex Buna-N Saniflex Viton Polyurethane Max. Flow: Rubber/TPE lpm (06 gpm) Teflon 693 lpm (3 gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage: 6. mm (/") Max. Suction Lift (wet): Rubber/TPE 9. m (3.0') Teflon 9. m (3.0') (dry): Rubber/TPE.0 m (3.0') Teflon 3.9 m (3.0')

Original M E T A L T ORIGINAL METAL PUMP Height: 66 mm (6.3") Width: mm (.9") Depth: 33 mm (3.") Air Inlet: 9 mm (3/" FNPT) Liquid Inlet: mm (") Liquid Outlet: mm (") Aluminum 33 kg ( lbs) Cast Iron kg ( lbs) Stainless Steel 9 kg (06 lbs) Alloy C 3 kg (6 lbs) Neoprene Teflon PTFE Nordel Wil-Flex Buna-N Saniflex Viton Polyurethane Max. Flow: Rubber/TPE 6 lpm (63 gpm) Teflon 3 lpm ( gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage: 6. mm (/") Max. Suction Lift (wet): Rubber/TPE 9. m (3.0') Teflon 9. m (3.0') (dry): Rubber/TPE 6. m (.0') Teflon 3. m (.0') P ORIGINAL METAL PUMP 6 Height: 3 mm (3.") Width: 0 mm (9.9") Depth: 3 mm (0.6") Air Inlet: 9 mm (3/" FNPT) Liquid Inlet: 6 mm (3") Liquid Outlet: 6 mm (3") Aluminum kg (3 lbs) Cast Iron 9 kg (6 lbs) Stainless Steel 90 kg (9 lbs) Alloy C kg (6 lbs) Neoprene Teflon PTFE Nordel Wil-Flex Buna-N Saniflex Viton Polyurethane Max. Flow: Rubber/TPE 90 lpm (3 gpm) Teflon 0 lpm ( gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage: 9. mm (3/") Max. Suction Lift (wet): Rubber/TPE 9. m (3.0') Teflon 9. m (30.0') (dry): Rubber/TPE.9 m (6.0') Teflon.9 m (6.0')

Original M E T A L PV ORIGINAL METAL PUMP Height: 3 mm (3.") Width: 0 mm (9.9") Depth: mm (6.") Air Inlet: 9 mm (3/" FNPT) Liquid Inlet: 6 mm (3") Liquid Outlet: 6 mm (3") Aluminum kg ( lbs) Cast Iron 93 kg (0 lbs) Stainless Steel kg ( lbs) Alloy C 0 kg (3 lbs) Neoprene Teflon PTFE Nordel Wil-Flex Buna-N Saniflex Viton Polyurethane Max. Flow: Rubber/TPE 909 lpm ( gpm) Teflon 0 lpm (6 gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage: 9. mm (3/") Max. Suction Lift (wet): Rubber/TPE 9. m (3.') Teflon 9. m (3.') (dry): Rubber/TPE.6 m (.0') Teflon.0 m (6.') W ORIGINAL METAL PUMP Height: 3 mm (3.") Width: 0 mm (9.9") Depth: mm (6.") Air Inlet: 9 mm (3/" FNPT) Liquid Inlet: 6 mm (3") Liquid Outlet: 6 mm (3") Aluminum kg ( lbs) Cast Iron 9 kg (0 lbs) Stainless Steel kg ( lbs) Alloy C 00 kg (0 lbs) Neoprene Teflon PTFE Nordel Wil-Flex Buna-N Saniflex Viton Polyurethane Max. Flow: Rubber/TPE,06 lpm ( gpm) Teflon lpm (06 gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage: 9. mm (3/") Max. Suction Lift (wet): Rubber/TPE 9. m (30.0') Teflon. m (9.0') (dry): Rubber/TPE. m (.0') Teflon 3.9 m (3.0')

Original M E T A L T ORIGINAL METAL PUMP Height: 3 mm (3.") Width: 0 mm (9.9") Depth: mm (6.") Air Inlet: 9 mm (3/" FNPT) Liquid Inlet: 6 mm (3") Liquid Outlet: 6 mm (3") Aluminum 3 kg (6 lbs) Cast Iron 9 kg (00 lbs) Stainless Steel kg ( lbs) Alloy C 0 kg ( lbs) Neoprene Teflon PTFE Nordel Wil-Flex Buna-N Saniflex Viton Polyurethane Max. Flow: Rubber/TPE lpm (3 gpm) Teflon 0 lpm (6 gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage: 9. mm (3/") Max. Suction Lift (wet): Rubber/TPE 9. m (3.0') Teflon. m (.0') (dry): Rubber/TPE. m (9.0') Teflon 3.9 m (3.0') T0 ORIGINAL METAL PUMP Height: 6 mm (3.") Width: 9 mm (3.") Depth: mm (6.") Air Inlet: 9 mm (3/" FNPT) Liquid Inlet: 0 mm (") Liquid Outlet: 0 mm (") Cast Iron 3 kg (0 lbs) Nordel Wil-Flex Buna-N Saniflex Viton Polyurethane Max. Flow: Rubber/TPE,0 lpm ( gpm) Max. Pressure:.6 bar ( psig) Max. Solids Passage: 3 mm (-3/") Max. Suction Lift (wet): Rubber/TPE 9. m (30.0') (dry): Rubber/TPE 3. m (.0')

Original Metal C U R V E S Rubber-Fitted Teflon -Fitted 0 0 00 6 00 0 3 00 0 0 () [.] () [3.] (3) [.] () [6.] () [.] 3 [3.] [.6] [.3] [.] [.9] P.0 0 0 00 6 00 0 3 00 0 0 () [.] () [3.] (3) [.] () [6.] () [.] 3 [3.] [.6] [.3] [.] [.9] 0 0 6 3 00 0 00 00 0 0 ()[6.] () [3.6] () [0.] 6 0 6 [] [] [3] [30] [3] [] [3] [6] P 0 0 00 6 00 0 3 00 0 0 ()[6.] () [3.6] () [0.] (6) [.] 6 0 6 [] [] [3] [30] [3] [] [3] [6] () [6.] 0 0 00 6 00 0 3 00 0 0 () [3.6] () [0.] (6) [.] 6 0 [] [] [3] [30] [3] [] [3] T 0 () [6.] 0 00 6 00 0 3 00 0 0 () [3.6] () [0.] (6) [.] 6 0 [] [] [3] [30] [3] [] [3] (0)[] 0 0 00 6 00 0 3 00 0 0 (0) [3] (30) [] () [6] 0 0 30 3 0 [9] [3] [] [6] [9] [] [33] [] [0] [9] P 0 0 00 6 00 0 3 00 0 0 (0)[] (0) [3] (30) [] () [6] 0 0 30 3 0 [9] [3] [] [6] [9] [] [33] [] [0] [9] 9

Original Metal C U R V E S 6 3 0 00 0 00 0 0 00 0 () [.] Rubber-Fitted (0) [] () [.] (0) [3] () [.] 0 0 30 3 [9] [3] [] [6] [9] [] [33] T 0 0 00 6 00 0 3 00 0 0 Teflon -Fitted () [.] (0) [] () [.] (0) [3] () [.] 0 0 30 3 [9] [3] [] [6] [9] [] [33] (0)[] 0 0 (0) [3] (30) [] () [6] 00 6 00 0 3 00 0 0 (0) [] () [0] 0 0 30 0 0 90 [3] [6] [] [] [9] [] [6] [303] [3] P 0 0 00 6 00 0 3 00 0 0 (0)[] (0) [3] (30) [] () [6] (0) [] () [0] 0 0 30 0 0 90 [3] [6] [] [] [9] [] [6] [303] [3] PV 0 0 00 6 00 0 3 00 0 0 (0) [] (0) [3] (30) [] () [6] (0) [] () [0] 0 0 30 0 0 90 [3] [6] [] [] [9] [] [6] [303] [3] W (0) [] 0 (0) [3] (30) [] 0 () [6] () [0] 00 (0) [] 6 3 00 0 00 0 0 0 0 30 0 0 90 [3] [6] [] [] [9] [] [6] [303] [3] 30

Original Metal C U R V E S 6 3 0 00 0 00 0 0 00 0 (0) [] Rubber-Fitted (0) [3] (30) [] () [6] (0) [] () [0] 0 0 30 0 0 90 [3] [6] [] [] [9] [] [6] [303] [3] T 0 0 00 6 00 0 3 00 0 0 Teflon -Fitted (0) [] (0) [3] (30) [] () [6] (0) [] () [0] 0 0 30 0 0 90 [3] [6] [] [] [9] [] [6] [303] [3] 0 (0) [3] 0 00 () [6] () [0] 6 00 () [36] 0 (00) [0] 3 00 0 0 0 00 0 [6] [] [] [303] [3] [] [30] [6] P 0 (0) [3] 0 () [6] 6 00 00 () [36] (00) [0] () [0] 0 (0) [0] 3 00 0 0 0 00 0 [6] [] [] [303] [3] [] [30] [6] PV 0 0 00 6 00 0 3 00 0 0 (0) [3] () [6] () [0] () [36] (00) [0] 0 00 [] [303] [] [6] [] W 6 3 0 00 0 00 0 (0) [3] 0 () [6] () [0] 00 () [36] 0 (00) [0] 0 00 [] [303] [] [6] [] 3

Original Metal C U R V E S Rubber-Fitted Teflon -Fitted 0 0 00 6 00 0 3 00 0 0 (0) [3] () [6] () [0] () [36] (00) [0] 0 00 0 [6] [] [] [303] [3] [] [30] [6] T 0 (0) [3] () [6] 0 () [0] 00 () [36] 6 00 (00) [0] 0 3 00 0 0 0 00 0 [6] [] [] [303] [3] [] [30] [6] 0 0 00 6 00 0 3 00 0 0 () [3] (0) [] () [] (00) [0] () [3] 0 00 [] [303] [] [6] [] [90] P 0 0 00 6 00 0 3 00 0 0 () [3] (0) [] () [] (00) [0] () [3] 0 00 [] [303] [] [6] [] [90] PV 6 3 0 00 0 00 0 0 00 0 (0) [3] (0) [] () [] (00) [0] () [3] 0 00 [] [303] [] [6] [] [90] [09] W () [3] 0 (0) [] 0 00 () [] (00) [0] 6 00 0 3 00 0 0 () [3] 0 00 [] [303] [] [6] [] [90] [09] 3

Original Metal C U R V E S Rubber-Fitted Teflon -Fitted 6 3 0 00 0 00 0 0 00 0 () [3] (0) [] () [] (00) [0] (SCFM)[Nm 3 /h] () [3] 0 00 [] [303] [] [6] [] [90] T 0 0 00 6 00 0 3 00 0 0 () [3] (0) [] () [] (00) [0] () [3] (SCFM)[Nm 3 /h] 0 00 [] [303] [] [6] [] [90] () [3] 0 (0) [] () [] 0 00 (00) [0] 6 00 () [3] 3 0 00 0 0 (SCFM)[Nm 3 /h] 0 00 [] [303] [] [6] [] [90] [0] T0 33

Original S P E C I A L T Y

Advanced Accu-Flo ST EE RC IHE NS O L O G Y Automate Your Process Batching, metering, and dispensing applications Pump interfaces directly with electronic devices Electronically control pump speed and operation The Technology Compressed air is the driving force to displace diaphragms and fluid Electrical signals dictate pump speed When the solenoid is unpowered, one air chamber is pressurized with compressed air, while the opposite air chamber is exhausted When the solenoid is powered, the pressurized air chamber is exhausted while the opposite chamber is pressurized By alternately applying and removing power to the solenoid, the pump operates similar to an air-operated Wilden pump T-Series Valve There are no changes to the wetted path or the hydraulic principals Benefits Various AC or DC voltages On/Off reliable Displacement repeatability No lubrication needed Models Available: A.0 (/ ) A (/ ) P-Series Valve A ( ) A (-/ ) A ( ) A (3 ) Configuration Options T-Series: An aluminum solenoid valve is attached directly to a Turbo-Flo center section P-Series: The Pro-Flo air system is augmented to include an electronic interface spacer Block-Series: An Adapter Block is used in place of an air valve. A user supplied, -way pneumatic valve must be used in conjunction with this configuration Block Valve Solenoid Coil Options NEMA UL CSA Approved Part Number Voltage ±0% Current (A) Power(W) Resistivity AC AC DC ±0% DC () Hz 0 Hz Inrush Holding 00-0-99-0..0.0.0 00-0-99-.... 3 00-0-99-0 0..0.0.06 Nema UL CSA Approved 00-0-99-3...3 9 00-0-99-.30.30. 00-0-99-6 0 0..3.06 International Explosion Proof / Cenelec / PTB file# EX-9.C.0 00-0-99- V DC 3.3.3.3 3

Stallion Performance T E C H N O DL AO TG AY The Technology Submersible air-operated pumps for slurries and solids laden fluids Units can be dropped into holes or sumps without the need for a suction line No external electrical power required, units will run on even low quality compressed air Displaces large solids up to mm (") without damage to the pump Handles provide an easy way to relocate these portable pumps anywhere on site Benefits Durable construction for harsh applications Move large solids up to mm (") Self-contained air system oilers Submersible design Compressed air driven, no electricity Applications Mine dewatering systems Construction rainwater or seepage evacuation Highly abrasive fluids Fluids with large solids Explosion hazard areas Submersible applications T T T Max. flow rate 6 lpm ( gpm) lpm ( gpm) 693 lpm (3 gpm) Max. air pressure.6 Bar ( psig).6 Bar ( psig).6 Bar ( psig) Max. size solids 3 mm (/") 9 mm (3/") mm (") Max. suction sift.3 m (.0') 3. m (.0').0 m (3.0') Displacement per stroke 0.6 L (0. gal).6 L (0. gal).9 L (0.66 gal) Weight 0 kg ( lbs) 33 kg ( lbs) kg ( lbs) Liquid inlet size 3 mm (-/") FNPT or BSP mm (") FNPT or BSP 6 mm (3") FNPT or BSP Liquid discharge size 3 mm (-/") FNPT or BSP mm (") FNPT or BSP 6 mm (3") FNPT or BSP 36

Original S P E C I A L T Y The Technology Conductive plastic liquid path components Dissipates static build-up safely Grounding strap provided with pump Single piece manifolds to improve containment Applications Solvents where plastic pump is required Explosion hazard environments Various flammable fluids Carbon-Filled Acetal Pumps The Technology Meets tough UL9 standards for flammable fluid transfers Buna-N and Teflon elastomer options available Four sizes available (0 - sizes) 0 psig maximum operating pressure Applications Petroleum product dispensing Tanker and truck off loading General fuel and oil transfer Lubrication systems Underwriters Laboratories Pumps 3 3

ACCU-PULSE T E C H N O L O G Y Peristaltic dosing pump Precise dosing and metering Chemical injection Ability to pump two chemicals with one pump The Technology Peristalsis occurs when the rotation of the rollers around the inside diameter of the tube housing compresses and dilates that pumping tube. Its motor turns its shaft at a constant RPM (6 or ). The feed rate controller establishes the rotation of the pump roller assembly The feed rate is set manually via the dial ring. The motor rotates the pump roller assembly, which compresses the tube to the pump housing. Fluid is captured in the tube between rollers and is displaced as the rollers rotate. Benefits Accurate within % of listed outputs Pressure to bar (00 psig) Variable flow to 63 lpd (0 gpd) Self-priming, can run dry No lubrication required Ease of maintenance Applications ph adjusting Paint & Ink colorant Boiler treatment Cooling tower treatment Dosing pesticides and fertilizer Solvent cutting Specifications UL 96FO, CSA NRTL /C, CE, ETL listed 0V, 0V, 30V, or 0V AC motors Polycarbonate construction with Wil-Flex tubing Various pump configurations available -0 ma interface available 3 3

Original A C C E S S O R I E S

Clamped E Q U A L I Z E R S The Technology Flow-through design Automatic adjustment to flow and pressure changes Interchangeable components with many Wilden pumps Clamped design for ease of service 3 mm (/"), mm (") & mm (") sizes available Applications Protection of downstream equipment More accurate metering of chemicals Laminar flow for more accurate gauge readings The Technology Stand-pipe design Three control options available 6mm (/") through 6 mm (3") sizes available Applications Pulsation dampening for metering and system protection Water hammer reduction from quick closing valves Inlet stabilizers to extend pump diaphragm life

Original Advanced A C SC EE RS I SE OS R I E S LC Series (Level Controllers) TGS Series (Tank Controllers) OSC Series (Overspeed Controllers) Designed for unsupervised ON/OFF operation of Wilden pumps It simply turns the pump ON and OFF when the fluid level reaches preset points Pneumatic and float-less deign enables the LC series to operate effectively in applications where turbulence, foaming, sludge, or solids are present Inherently explosion resistant due to pneumatic operation High level shut-off for waste oil tanks employing a Wilden pump as the feed pump Mounted to the mm (") NPT bung of a waste oil tank When the oil in the tank reaches a set level, a red pre-warning indicator becomes visible At the "filled level," the air supply to the pump is shut off and the air whistle alarm sounds The unit resets itself automatically when oil level drops The OSC is designed to prevent Wilden pumps from running dry Save compressed are when pump is not actually pumping fluid Increase parts life Prevent air from being pumped into your process The OSC controller shuts off the air supply to the pump when the pump breaks suction Optional air whistle serves as an alarm to alert operator Universal kit for both 6 mm (/") and 3mm (/") pumps Fits mm (") NPT bungholes Tube length can be cut to length Variety of materials are available

Original Performance A C C E S S OD RA ITEAS Designed to complement and expand the application range for Accu-Flo pumps Automate your process Control flow rate remotely Interface with external inputs Preventative maintenance indicator Power Requirement: 0-0V AC @ 0/ Hz., 0-V AC @ 0 Hz. Pump Output Voltage & Amps: V DC at no greater than 0. amps. External Input Activation: Dry contact less than ma Microprocessor controlled batching computer designed to control the operation of Accu-Flo pumps Automate your batching process Set up your application parameters via manual entry screens where text and numbers are displayed -0 ma signals can be used to control the pump speed Preventative maintenance indicator Power Requirement: 0-0V AC @ 0/ Hz., 0-30V AC @ 0/Hz Pump Output Voltage & Amps: V DC at no greater than 0. amps. External Input Activation: Dry contact less than ma Detects diaphragm failure at the source: The Teflon primary diaphragm Sensors are located between the primary and back-up (containment) diaphragms When the sensors detect a conductive liquid, an audible alarm, LED, and an internal latching relay are activated Increase containment, reduce fugitive emissions, and reduce down time with -hour pump surveillance Power Requirement: 0V AC, 0V AC, or 9V DC battery operation Internal Latching Relay: Max. Amps @ 0 V Conductivity Sensitivity:. Micro-Siemens

Original P L A S T I C Your Authorized Distributor: 069 Van Buren Street, Grand Terrace, CA 933- Telephone 909--30 Fax 909-3-3 wilden@wildenpump.com Copyright 00 Wilden Pump & Engineering, LLC TT30 S-0 ORG 0/0 Replaces S-0 ORG 0/0 Wil-Flex, Saniflex, FCSII, Wil-Gard, Saniflo, Turbo-Flo, Ultra-Flex, Ultra-Pure, Accu-Flo, Wil-Flo, Accu-Pulse, and Air-Tech are trademarks of Wilden Pump and Engineering, LLC. Wilden, Pro-Flo, Stallion, Equalizer and Hytec are registered trademarks of Wilden Pump and Engineering, LLC. Nordel, Viton, Hytrel and Teflon are registered trademarks of DuPont Dow Elastomers. Hostaflon is a registered trademark of Hoechst. Santoprene is a registered trademark of Monsanto Company, licensed to Advanced Elastomer Systems, L.P. Chemraz is a registered trademark of Green, Tweed & Co. Tri-Clover is a registered trademark of Tri-Clover, Inc.