atlantic fluidics Liquid Ring Vacuum Pumps

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Liquid ring vacuum pumps remove gases by means of an impeller rotating freely in an eccentric ... or rubbing parts, a liquid ring pump is virtually maintenance free . Sealants other ... and holding windshields, aircraft surfaces, beverage cans,.
ATLANTIC FLUIDICS

®

LIQUID RING PUMPS AND SYSTEMS

ATLANTIC FLUIDICS®

CONTENTS

Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3 Applications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 Pump Specifications . . . . . . . . . . . . . . . . . . . . . .5 Systems Overview . . . . . . . . . . . . . . . . . . . . . . . .9 Oil Sealed Systems . . . . . . . . . . . . . . . . . . . . . . .11 Environmental Remediation Systems . .12 Booster/Liquid Ring Systems . . . . . . . . . . .13 Central Vacuum Systems . . . . . . . . . . . . . . .14 Compressors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15

LIQUID RING VACUUM PUMPS – A PRIMER

Liquid ring vacuum pumps remove gases by means of an impeller rotating freely in an eccentric casing. The pumping is done by a liquid, usually water, that is fed into the pump and thrown by centrifugal force into a moving ring along the internal casing wall. When gas or vapor enters the suction port of the pump, it is trapped by the whirling impeller blades and a liquid piston that expands in the eccentric lobe of the casing. As the impeller rotates, the liquid is then pushed inward by the narrowing space between rotor and casing, compressing the trapped pocket of gas. Finally, the compressed gas is released through a discharge port as the impeller completes the revolution. The direct contact between the liquid ring and the gas makes the pump ideal for wet applications and for handling condensibles that are discharged with the gas and liquid. Unlike oil sealed rotary pumps, the operation of a liquid ring vacuum pump is nearly isothermal and without vibration. There is no oil to be changed or pollutant released into the environment. Because there are no valves or rubbing parts, a liquid ring pump is virtually maintenance free. Sealants other than water, such as oil, may be used to reduce vapor pressure for higher vacuum, or for improved compatibility with specific process gases. In some applications, distillate or another fluid is introduced directly into the suction port of the pump and used as the seal liquid. Liquid ring vacuum pumps are also commonly staged with vacuum boosters, air and steam ejectors for greater capacity and higher vacuum.

ATLANTIC FLUIDICS®

INTRODUCTION 3

THE REVOLUTIONARY ATLANTIC FLUIDICS® PUMP DESIGN

Introducing the Atlantic Fluidics Liquid Ring Vacuum Pump, featuring the proprietary Fluid-Vac® axial flow design. This rugged, compact-design pump generates the highest vacuum of any comparable liquid ring pump. A fixed port cylinder, concentric with the rotor bore, directs the gas along the shaft axis, into the suction ports of the rotor and finally back through the rotor and rear of the pump for discharge. Because the gas flow is along the motor shaft (and not at right angles), the pump can start flooded, without damage. The use of a shrouded rotor increases pumping efficiency for high vacuum and low water consumption. FLUID-VAC AXIAL FLOW ADVANTAGES:

Flat power curve over entire vacuum range prevents motor overload Reduced stress on motor shaft and bearings

AXIAL FLOW DESIGN

Increased water handling capability prevents heat build-up, extends life of mechanical seals Compact, close-coupled design eliminates need for interstage manifold or motor alignment

MECHANICAL SEALS 1. Operate at atmospheric pressure with virtually no pressure differential across seal faces for maximum life. 2. Cooled by axial water flow to reduce wear. 3. The standard seals are available in special materials for handling corrosive gas and liquid.

SHROUDED ROTOR 1. Increased pumping efficiency with lower water consumption. 2. Eliminates blade breakage. 3. Construction of hardened bronze relegates wear and scoring to the softer and inexpensive port cylinder.

CLOSE-COUPLED DESIGN 1. Quiet, vibrationless operation. 2. Compact and light weight for installation almost anywhere. 3. No motor alignment, base plate, coupling or guard are required. No interstage manifold required. 4. Front end access to all major internal parts for on-site repair. 5. Replacement motors are available, but rarely necessary. Pump casing is bolted to C-Face flange and rotor assembled directly onto shaft. (Special duty motors and specific brands are available on request.)

O-RING SEALS 1. Gas tight for zero leakage. 2. Outlast gaskets and stuffing boxes. 3. Standard sizes available in special materials to meet severe duty requirements.

REPLACEABLE PORT CYLINDER 1. Enables fast in-the-field repair. 2. No shims or special tools needed. 3. Inexpensive replacement of worn or damaged part. 4. Higher efficiency than competitive designs.

ATLANTIC FLUIDICS®

4 APPLICATIONS

Application

Function of Atlantic Fluidics® Liquid Ring Vacuum Pump

Examples of Use

Casting, Molding and Forming

Evacuation of molds, degassification of molten materials

Rubber, plastics, metals, wood products, veneers

Chucking

Vacuum pickup, handling, positioning and holding

Glass, sheet products, small parts, auto windshields, aircraft surfaces, beverage cans, sawmill operations

Cooling & Chilling

Rapid evaporation of moisture content

Fruits & vegetables, potato salad

Deaeration & Degassification

Removal of gases

Water, rubber products, oils, plastics, molten metals, beverages

Dehydration

Removal of condensable vapors

Transformers, refrigeration systems, foods, chemicals, electrical cables & conduits, grain, textiles, ink & dyes, rotary dryers

Deodorization

Removal of offensive gases

Chemicals, food products, effluent processing

Distillation

Vacuum extraction of fractions

Chemicals, petroleum, petrochemicals, pharmaceuticals, food products

Evacuation

Removal of vapors & gases

Environmental chambers, steam condensers, lasers, leak test chambers, reactors, process vessels, central vacuum systems

Evisceration

Removal of viscera

Poultry, fish, shellfish

Filling

Removal of trapped air, increasing filling speed Cooling & hydraulic systems, food & beverage containers, electrical transformers, liquid transfer systems

Filtration

Increase flow of filtrate by reducing pressure Chemicals, food products, pharmaceuticals on discharge side of filter

Freeze Drying

Removal of moisture by sublimation under vacuum

Coffee, fruits & vegetables, pharmaceuticals, food products

Impregnation

Removal of vapors & gases

Cables, metal products, wood products

Packaging & Sealing

Evacuation of film & blister packages, bottles, cans & jars

Meat, poultry, hardware, food products, canned & bottled products

Priming

Removal of trapped air

Centrifugal pumps

Soil Remediation

Removal of contaminated groundwater

Leaking underground storage tanks, chemical spills

Vacuum Cooking

Reduction of cooking or boiling temperature Food, candy, chemicals, solvent recovery by lowering pressure in vessel

Vacuum Sizing & Calibration

Vacuum holding

Plastic pipe & profile

ATLANTIC FLUIDICS®

PUMP SPECIFICATIONS 5

PRINCIPLE OF OPERATION Atlantic Fluidics® Vacuum Pumps GAS OUT consist of a shrouded motor rotatCASING ing freely within an eccentric casing. There is no metal-to-metal INLET PORT contact between the rotor and the casing. Centrifugal force acting on liquid within the pump causes the liquid to form a ring inside the casing. A fixed port cylinder concentric with the rotor directs the gas into the suction ports. Gas is trapped between the blades by the liquid pistons formed by centrifugal force as the liquid recedes from the port cylinder. It is trapped GAS SUCTION

MATERIALS OF CONSTRUCTION: Casing, Cover, Rotor, Port Cylinder

Mechanical Seals

at the point of maximum eccentricity and is then compressed by the liquid LIQUID RING ring as it is forced radially inward PORT CYLINDER toward the central port cylinder. After each revolution the comROTOR pressed gas and accompanying liquid are discharged. During the pumping cycle the gas is in intimate contact with the sealing liquid and compression is nearly isothermal. When handling saturated vapor-gas mixtures the liquid ring acts as a condenser, greatly increasing the effective capacity of the pump.

LIQUID OUT

DISCHARGE PORT

OPTIONS

MODEL SIZES

All Bronze

A5 to A130, All “T” Series Sizes

All Stainless Steel (316)

All “A “ Sizes

All Cast Iron

A200 & A300

All Ni Resist

All “A” Sizes

All Alloy 20

All “A” Sizes

All Hastelloy Cast Iron Casing & Cover, Bronze Rotor & Cylinder

All “A” Sizes A75 to A130

BUNA Seals Standard OPTIONS: Viton, Kalrez, Teflon & EPR to Suit Application. Consult Factory.

DRIVE OPTIONS: Close-coupled Motor

TEFC Motors Standard, 60 Hz or 50 Hz OPTIONS: Explosion-proof, Mill & Chem, Wash Down, High Efficiency. Consult Factory.

PEDESTAL MOUNT All Atlantic Fluidics Liquid Ring Pumps are available mounted on pedestal bodies for applications which require alternative drive styles. The pedestal frames are rugged designs, with oversized bearings in heavy-duty cast iron housings. The drive shaft can easily accommodate any standard flexible coupling or it can be belt driven to increase or decrease speeds. Pedestal pumps are also available mounted to base plates and coupled to the drive style of your choice, with any guards and piping as required. Consult the factory for design and application assistance. Pedestal Mount

ATLANTIC FLUIDICS®

6 PUMP SPECIFICATIONS

“A” SERIES SINGLE-STAGE PUMPS

Closed-coupled Designs A B INLET NPT

DISCHARGE 1" NPT

3.75

1.75 D

SEAL 3/8" NPT E

E

C

4 HOLES TAPPED 5/8"-11 INLET 2" FL.

7.0

3.63

D

SEAL 1/2" NPT

E

A DISCHARGE 2" NPT

B

C

E

4 HOLES TAPPED 5/8"-11

F

A DISCHARGE 3" FL.

B

5

FRAME INLET A 56CZ 3/4 14.0 145TCZ 1 16.6 145TCZ 1 17.0 182CZ 1 18.5

B 2.9 3.6 3.8 4.6

C 6.7 8.0 8.3 9.6

D 3.5 3.5 3.5 4.5

E 2.44 2.75 2.75 3.75

F 3.0 5.0 5.0 5.5

MOTOR HP WEIGHT lbs./kg 1 45/20 1 1/2 55/25 2 60/27 3 80/36

MODEL A75 A100 A130

FRAME INLET A 184TCZ 2 20.2 213TCZ 2 23.1 215TCZ 2 25.3

B 5.8 7.1 8.1

C 9.8 12.1 13.1

D 4.50 5.25 5.25

E 3.75 4.25 4.25

F MOTOR HP WEIGHT lbs./kg 5.5 5 180/82 7.0 7 1/2 195/89 7.0 10 250/114

MODEL FRAME INLET A A200 284TYZ 3 32.4 A300 284TYZ 3 33.7

B 8.3 9.7

C 14.2 15.6

D 7.0 7.0

E 5.50 5.50

F MOTOR HP WEIGHT lbs./kg 11.0 15 560/254 11.0 20 600/272

F

11.38

INLET 3" FL.

MODEL A5 A10 A15 A20

D

SEAL 1" NPT E

C

E

F

Pedestal Mount 1" NPT

A

B 1" NPT 7.25

3/8" NPT

3.5

1.75

Ø.875 C

1.75

3.5

2" NPT

4 HOLES Ø 7/16

MODEL

A In

B In

C In

WEIGHT lbs./kg

A10

14.52

3.52

6.20

42/19

A15

14.83

3.83

6.51

44/20

A20

15.60

4.60

7.28

48/22

MODEL

A In

B In

C In

WEIGHT lbs./kg

A75

20.57

5.75

9.44

125/57

A100

21.88

7.07

10.75

130/59

A130

22.88

8.07

11.75

145/66

MODEL

A In

B In

C In

WEIGHT lbs./kg

A200

28.81

8.31

11.88

250/114

A300

30.19

9.69

13.25

325/148

A B

2" FLG 12.19 1/2" NPT

5.25

Ø1.25

3.5

C

3.5 3" FLG

4 HOLES Ø 13/32

5.25

A B

3" FLG 18.38

1" NPT

Ø1.875

7

5.25

C 5.25

9.0

4 HOLES Ø 9/16

ATLANTIC FLUIDICS®

PUMP SPECIFICATIONS 7

“A” SERIES SINGLE-STAGE PUMPS PERFORMANCE CURVES

2850 RPM

A15 A10 A5

PERFORMANCE CURVES

A20

60 Hz

3450 RPM

A15 A10 A5

Capacity (m3/h)

A20

50 Hz

Capacity (m3/h)

PERFORMANCE CURVES

A75

Pressure (mbar) 336 167 99

505 150

A130

1725 RPM

A100

100

65

A75

50 0 15

20

25

27

200 150 100 50 0

3/Hr) Capacity Capacity(M (m3/h)

1450 RPM

Capacity (ACFM)

A130 A100

Capacity (m3/h)

Single Stage A75-A130 (60Hz)

28

A200

950 RPM

A300 A200

1160 RPM

Capacity (m3/h)

A300

Capacity (m3/h)

Vacuum (in Hg)

Performance curves are based on dry air at 68°F (20°C), 60°F (15°C) seal water, and 29.92 inches of mercury (760 torr) barometric pressure.

ATLANTIC FLUIDICS®

8 PUMP SPECIFICATIONS

“T” SERIES MULTI-STAGE PUMPS

Atlantic Fluidics® “T” Series Multi-stage Liquid Ring Vacuum Pumps utilize the same axial flow design as the “A” Series Single-stage pumps, but with an additional stage to provide deeper vacuum levels. This patented pump style is designed for high wet vacuum applications where they can operate with the lowest partial gas pressure without cavitation. Ideally suited for evaporators, deaerators, autoclaves, dryers and other applications requiring vacuum higher than 27 In. Hg. When packaged in oil sealed systems, “T” Series pumps can operate in dry gas applications with vacuum as low as 4 Torr. Available in close-coupled motor configuration. A

DISCHARGE 1" NPT

B

MODEL T0505 T1505 T2010

INLET (H) F

SEAL (G)

A 17.3 18.8 21.0

B 4.13 4.75 5.75

C 8.5 9.7 10.7

D 5.0 5.5 5.5

E 2.75 3.75 3.75

F 3.50 4.50 4.50

G 1/4 3/8 3/8

H 3/4 1 1

MOTOR WEIGHT HP lbs./kg 2 65/29 3 80/36 5 100/45

E C

E

D

MODEL

A

B

C

MOTOR HP

WEIGHT lbs./kg

T7530 T10030

23.1 25.6

7.0 8.3

12.1 13.4

7 1/2 10

200/91 230/105

A DISCHARGE 2" NPT

B

INLET 2" FLG

SEAL 1/2"

5.25

7.00

PERFORMANCE CURVES

50 Hz

2840 RPM

T0505

Capacity (m3/h)

T1505

100 80 67 47 40 33 31 27 24 20

T7530

1450 RPM

T2010

3450 RPM

T1505 T0505

100 80 67 47 40 33 31 27 24 20

Capacity (m3/h)

T10030

60 Hz

100 80 67 47 40 33 31 27 24 20

100 80 67 47 40 33 31 27 24 20 T2010

PERFORMANCE CURVES

Capacity (m3/h)

C

4.25

T10030 T7530

1725 RPM

Capacity (m3/h)

4.25

ATLANTIC FLUIDICS®

SYSTEMS OVERVIEW 9

An important consideration in planning a liquid ring vacuum pump installation is the design of the sealant system and its effect on the performance of the pump. TVS recommends early consideration be given to sealant system design because there are several elements of pump sizing, selection and system design that will be affected by the choice of the sealant system. Operating pressure is affected by sealant temperature, flow rate, specific heat, density and viscosity The gas load may influence the selection of the sealant and the sealant system The economic priorities may indicate a system where process recovery can be accomplished or where water conservation can be achieved The operating costs, in terms of horsepower and water costs, will almost always have an influence on design decisions Although there are variations, there are three basic types of sealant systems from which to choose: a. Once-through Systems

b. Partial-sealant Systems

c. Full-sealant Systems

The Once-through System takes water directly from the water main and discharges it to drain without re-circulation. This arrangement is most common on small pumps or in installations where water conservation or contamination is not a factor.

Once-through seal water (minimum pressure 10 PSIG).

ATLANTIC FLUIDICS®

10 SYSTEMS OVERVIEW

The Partial-sealant Recovery System discharges water and gas into a gas/liquid separator tank. The gas vents from the top of the tank, while the water is retained. Approximately half of the water is disposed through an overflow; the remainder re-circulates back through the pump. Fresh water is added to maintain proper sealing water temperature. In order to keep the amount of make-up water to a minimum, the system may be fitted with a temperature modulation valve.

A100 AIR COOLED FULL-SEALANT RECOVERY

The Full-sealant Recovery System (pictured) is a closed-loop system. The sealant is re-circulated through a heat exchanger and cooled by air or a separate cooling water source. Since there is no contact between the sealant and the cooling water, there is no contaminated water to go into the waste system.

CUSTOM ENGINEERED VACUUM SYSTEMS

Tuthill Vacuum Systems can size, design and build custom vacuum pump systems to meet specific customer application requirements. The Atlantic Fluidics® Liquid Ring Pump can be configured in engineered systems which include a wide range of components and accessories including full electrical control panels. All custom systems are subjected to rigorous testing and supported by a global network of sales and service personnel. Consult the TVS factory in Norwalk, Connecticut, your local TVS sales representative or one of the TVS sales offices listed on the back of this brochure.

A20 LIQUID COOLED FULL-SEALANT RECOVERY

ATLANTIC FLUIDICS®

OIL SEALED SYSTEMS 11

A20 OIL SEALED SYSTEM

Atlantic Fluidics® Series OSR Oil Sealed Liquid Ring Vacuum Pump Systems come completely assembled in a compact design, mounted on a steel base plate. All systems are rigorously tested and painted prior to shipment. FEATURES:

Higher vacuum than with water sealed systems Compact design Completely self-contained Easy to install and maintain Designed for long life Fully assembled and tested Series OSR Systems feature the close-coupled Atlantic Fluidics Liquid Ring Vacuum Pump with TEFC motor and the following components: • Air cooled heat exchanger • Oil reservoir/separator tank w/built-in baffles • Coalescing and mesh filters for efficient oil separation and low emissions. Incudes oil return line • Oil level gauge • Low level switch* • Pressure gauge* • Three-way thermostatic valve* • Temperature gauge • Solenoid valve* • Inlet check valve • Vacuum gauge

OPTIONAL ACCESSORIES:

• Electrical control panel • Explosion-proof motor • Inlet filter • Adjustable vacuum relief valve

*Available only on models OSR75, OSR100, OSR130, OSR7530, OSR10030

OSR SPECIFICATIONS MODEL Free Air Displacement (cfm) Motor (HP) Rotational Speed (RPM)

OSR 10

OSR 15

OSR 20

OSR 75

OSR 100

OSR 130

OSR 200

OSR 300

15

22

30

75

100

150

200

300

1.5

2

3

7.5

10

15

15

20

3450

3450

3450

1725

1725

1725

1160

1160

Inlet/Outlet Connection (NPT)

1

1

1

2

2

2

3

3

Length (in)

33

33

33

48

48

53

65

65

Width (in)

18

18

18

28

28

28

35

35

Height (in)

29

29

29

54

60

60

78

78

Ultimate Vacuum (torr)

10

10

10

10

10

10

10

10

ATLANTIC FLUIDICS®

12 ENVIRONMENTAL REMEDIATION SYSTEMS

Since 1981, Atlantic Fluidics® Vacuum Pump Systems have been used in demanding environmental remediation applications around the world. In 1988, the Series EWP Fluid-Vac® Environmental Remediation System was developed to address the logistical challenges of engineering and installing a liquid ring system on-site in the field. This pioneering design effort has made Tuthill Vacuum Systems a leader in the use of liquid ring vacuum pump technology in environmental restoration applications. Today, Tuthill Vacuum Systems offers two styles of Fluid-Vac Environmental Remediation Systems, oil sealed and water sealed. Oil Sealed System (EOP)

The Fluid-Vac Oil Sealed Remediation System consists of the Series OSR System described on page 9, with the following additional features:

EOPX-100 OIL SEALED SYSTEM

• Vacuum rated knock-out tank • Full length site tube • 4 level float switches • Transfer pump • Vacuum line to pump with water trap separator • Particulate filter • All piping, and mounted to a steel base plate Optional Accessories:

• Electrical controller • Explosion-proof configuration

Water Sealed System (EWP)

The Fluid-Vac Water Sealed Remediation System features the Atlantic Fluidics closecoupled liquid ring pump, with TEFC motor, mounted on a steel base plate with a stainless steel separator/reservoir tank. The tank includes clean out access and mist condenser pad on the air discharge and a full-length sight tube with level switches. Other features: • • • • • •

Transfer pump Re-circulation line with isolation valve Flow control valve & strainer Copper discharge piping Inlet strainer Vacuum gauge Optional Accessories:

• • • •

Electrical controller Explosion-proof configuration Vacuum rated knock-out tank Heat exchanger

EWPX-75 WATER SEALED SYSTEM

ATLANTIC FLUIDICS®

BOOSTER/LIQUID RING SYSTEMS 13

Atlantic Fluidics® Liquid Ring Pumps may be staged with lobe-type mechanical boosters to deliver higher pumping speeds at deeper vacuum. These standard package configurations with single motor drives are more cost effective than jet steam or air ejectors, high horsepower multi-stage liquid ring pumps or higher maintenance oil sealed piston or vane pumps. PRINCIPLE OF OPERATION

The mechanical booster, as first stage, features high volumetric efficiency when displacing light density gas or vapors over a low-pressure differential. Backed by the condensing power of the Atlantic Fluidics Liquid Ring Pump, its throughput is increased by the compression of gas at ratios of up to ten to one. Gas or air entering the inlet (A) of the booster is trapped by counter-rotating lobes which discharge through a port on the underside of the booster. The tight clearances of the mating parts maintain the high volumetric efficiency.

A

The gas enters the suction port of the liquid ring pump via the interstage piping (B) and is trapped by the rotating impeller blades and the ring of sealant water that is fed into the pump through a separate inlet (C). As the impeller rotates inside the lobe of the casing, the water acts as a liquid piston, compressing the pocket of gas (D) until both water and gas are discharged together. The contact between water and gas acts as a direct condenser, making the booster/pump operation nearly isothermal.

D

B C

PERFORMANCE SPECIFICATIONS 500

MODEL

A150T

A200T

A300T

A400T

3500

1750

1750

1750

1750

5

7.5

10

15

20

Water (gpm)

2-4

3-5

3-6

4-8

5-10

Weight (lb)

400

500

520

680

900

Length (in)

28

33

33

40

44

Width (in)

26

31

31

30

34

Height (in)

28

30

30

34

37

RPM

400 CAPACITY IN CFM

A100T

HP 300

200

100

0 5

10 50 INLET PRESSURE IN TORR (mm Hg. Abs.)

100

Referred to 760mm Hg barometer; 15°C (60°F) sealing water.

ATLANTIC FLUIDICS®

14 CENTRAL VACUUM SYSTEMS

Atlantic Fluidics® Series CVP Central Vacuum Systems provide a remote supply of plant vacuum which can be located away from the production area or vacuum outlets, thus reducing noise and heat in the work area. The systems feature the “A” Series single-stage liquid ring pumps in either a simplex (one pump) or duplex (two pumps) design. The energy-efficient systems are designed to operate automatically, with the pump(s) starting when the plant vacuum demand increases and stopping when the demand is met. Vacuum is maintained by means of pressure switches which cycle the pump(s). The Atlantic Fluidics Central Vacuum Systems require only water and electric power connections. A solenoid valve on the seal water line provides water whenever the pump(s) cycle. APPLICATIONS:

• • • •

Medical & Dental – surgical suction, extraction of fluids Laboratories – vacuum dryers, gas transfer, evacuation of vapors, autoclaves Metal Fabrication – chucking of parts, vacuum packing, impregnation of castings Food Processing – packing, blending, rotary chambers, conveyor feed, evisceration

STANDARD FEATURES:

• Bronze construction Atlantic Fluidics Liquid Ring Pump(s), TEFC motor(s) • ASME coded 100 psig receiver tank, galvanized steel • Air discharge water separator/silencer(s) • Solenoid & flow control valves, vacuum gauge, “y” strainer • Control Panel – starters, fuses, relays, main disconnect, thermal & overcurrent protection, Hand-Off-Auto switch(es), adjustable pressure switch(es), running lights, NEMA 4 enclosure • Sight tube and all interconnecting piping between the tank and the pump(s) DIMENSIONS:

MODEL

CFM at vacuum in Hg 15 20 25 28

CVP-A10S CVP-A15S CVP-A20S CVP-A75S CVP-A100S CVP-A130S CVP-A10D CVP-A15D CVP-A20D CVP-A75D CVP-A100D CVP-A130D

15 20 32 72 105 125 30 40 64 144 210 250

15 20 32 72 105 125 30 40 64 144 210 250

14 20 32 72 102 118 28 40 64 144 204 236

10 13 17 45 60 65 20 26 34 90 120 130

Simplex or Duplex

HP

Motor RPM

S S S S S S D D D D D D

1 1/2 2 3 5 7 1/2 10 2 x 1 1/2 2x2 2x3 2x5 2 x 7 1/2 2 x 10

3550 3550 3550 1750 1750 1750 3550 3550 3550 1750 1750 1750

Tank Cap-Gals 80 80 80 120 120 120 80 80 120 120 200 200

Dimensions - Inches A B C 63 63 63 69 69 69 63 63 69 69 72 72

30 30 30 33 33 33 30 30 33 33 36 36

58 58 58 62 62 62 58 58 62 62 68 68

Wt. lbs./kg 335/152 345/157 350/159 550/250 590/268 620/282 410/186 430/195 570/259 710/323 1000/454 1060/482

ATLANTIC FLUIDICS®

COMPRESSORS 15

The Atlantic Fluidics® Liquid Ring Compressor is a reliable, cost-effective alternative to oil sealed and dry screw compressors in applications where the required discharge pressure is 20 psig or less. Ideal for waste treatment applications, such as sparging, filter flushing, aeration and sewage ejection. Atlantic Fluidics Compressors are available in complete package designs including the compressor, gas/liquid separator, silencer, control panel, valves and piping, and base plate. FEATURES: PERFORMANCE CURVES 300 250 200 Capacity (SCFM)

• Cool Gas Discharge – seal water absorbs the heat of compression. No aftercoolers required • Environmentally Friendly – no carryover of oil vapors, carbon or other compounds in discharge air • Low Maintenance – compressors have no valves, vanes or other parts in rubbing contact • Handles Corrosive Gases – standard bronze or stainless steel construction

150 100 50 35 25 15

SPECIFICATIONS

5

A B

INLET NPT

Discharge Pressure (PSIG)

DISCHARGE 1" NPT

3.75

1.75 D

SEAL 3/8" NPT E

3450 RPM

E

C

4 HOLES TAPPED 5/8"-11

7.0

3.63

D

SEAL 1/2" NPT

E

AC10 AC15 AC20

145TCZ 182CZ 184CZ

2 3 5

C

F A DISCHARGE 3" FL.

B

E

F

3.5 4.5 4.5

2.75 3.75 3.75

5.0 5.5 5.5

E

F

B

C

D

AC75 213TCZ 7.5 AC100 215TCZ 10 AC130 254TCZ 15

21.9 24.3 26.5

5.8 7.1 8.1

10.8 12.1 13.4

5.25 5.25 6.25

AC200 AC300

SEAL 1" NPT E

D

8.0 8.8 9.6

4.25 7.0 4.25 7.5 5.00 8.25

1160 RPM

D

E

C

3.6 3.8 4.6

A

MODEL FRAME HP 5

B

16.6 17.6 19.8

MODEL FRAME HP

11.38

INLET 3" FL.

A

1725 RPM

E

4 HOLES TAPPED 5/8"-11

F A DISCHARGE 2" NPT

B

INLET 2" FL.

MODEL FRAME HP

C

284TYZ 20 324TCZ 25

A

B

C

D

32.4 35.8

8.3 9.7

14.2 16.1

7.0 8.0

E

F

5.50 11.0 6.25 12.0

F

All dimensions are in inches. Dimensions are based on 3-phase TEFC BALDOR motors.

LOCATIONS WORLDWIDE Manufacturing & Service Americas

Europe/Middle East/Africa

Tuthill Vacuum & Blower Systems Atlantic Fluidics® Products

Tuthill Vacuum & Blower Systems/Europe Pennine Business Park, Pilsworth Road Heywood, Lancashire, 0L10 2TL, England Tel (44) 01706 362 400 Fax (44) 01706 362 444

21 South Street Norwalk, Connecticut USA 06854-2602 Tel (203) 853-7315 (800) 825-6937 Fax (203) 866-8218 http://vacuum.tuthill.com/fluidvac

Asia/Pacific

Tuthill Vacuum & Blower Systems 4840 West Kearney Street Springfield, Missouri USA 65803-8702 Tel (417) 865-8715 (800) 825-6937 Fax (417) 865-2950 http://vacuum.tuthill.com

Shanghai Kinney Vacuum Equipment Co. Ltd. 3516 Wai Qing Song Highway Shanghai, China 201709 Tel 86-21-5974 5418 Fax 86-21-5974 4905 www.skvec.com

International Sales Offices Tuthill Europe

Tuthill Asia Pacific

Parc Industriel Wavre Nord Avenue Vésale, 30 – 1300 Wavre – Belgium Phone: 32 10 22 83 34 Fax: 32 10 22 83 38 Email: [email protected]

19-21 Milton Park, 128 Canterbury Road Box 71, Kilsyth, Victoria 3137 Australia Phone: 61.3.9720.6533 Fax: 61.9.9720.6880 Email: [email protected]

Tuthill Latin America 1320 South Dixie Highway, Suite 761 Coral Gables, Florida 33146 USA Phone: 305-740-3381 Fax: 305-740-9328 Email: [email protected]

Tuthill China Room 1507 – Harbour Ring Plaza No. 18 Xizang Zhong Road Shanghai 200001 China Phone: 86.21.5385.3369 Fax: 86.21.5385.3365 Email: [email protected]

Tuthill Vacuum & Blower Systems (TVBS) is a pioneer in the development of vacuum pump technology. Introduced in 1926, the Kinney® rotary piston vacuum principle still sets the industry standard for high performance, ROTARY PISTON VACUUM PUMPS AND SYSTEMS

reliability, low maintenance and quiet operation in a mechanical vacuum pump design. These same performance features are demonstrated in all the TVBS vacuum pump product lines: liquid ring pumps, dry pumps, vane pumps and our main line of rotary piston pumps. In addition, all pump designs can be incorporated in complete TVBS-engineered vacuum systems. For information and specifications on Kinney Dry Pumps, Liquid Ring Pumps, Vacuum Boosters and Rotary Piston Vacuum Pumps, contact us to request a copy of our brochures.

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