WHITE KNIGHT PSA140 PTFE and PFA Pumps Capable of 100°C Owner’s Manual
- June 16, 2024
- WHITE KNIGHT
Table of Contents
187 E. 670 S., Kamas, UT 84036
435.783.6040 888.796.2476
https://wkfluidhandling.com
PSA140 Owner’s Manual
PSA140 PTFE and PFA Pumps Capable of 100°C
Dear valued customer,
Thank you for purchasing a White Knight PSA140 pump.
Our dedicated team designs products to meet your exacting specifications with
a demonstrated commitment to quality that goes beyond mere words and fancy
slogans.
Our patented designs offer a variety of size and material options to meet
stringent requirements of high-pressure chemical delivery systems,
hightemperature re-circulation processes, chemical reclaim and bulk transport
applications, slurry systems, and more. Our safe, reliable products offer
superior performance, optimized efficiency, and simplified maintenance.
White Knight is able to provide the highest quality fluid handling products
through controlled, consistent in-house engineering and manufacturing. Through
continued significant investments in engineering and manufacturing, we lead
the industry with new technologies and products.
White Knight has received numerous awards for innovation and manufacturing
programs. We rigorously manage our quality assurance processes to ensure
consistency and reliability. Our quality controls include strict cleanliness
procedures and consistent manufacturing processes. For example, high-purity
product assembly, testing, and packaging is performed in a Class 100
cleanroom.
Please peruse this manual before installing your White Knight product. It
details installation requirements and setup instructions, and provides
additional information and accessories for enhanced functionality.
Our team has gone to great lengths to ensure our products serve your needs and
meet your requirements.
Further, we provide the highest quality products at the best value, and we
back them up with excellent warranties and world class support.
Thank you for your confidence and trust in White Knight products.
Sincerely,
White Knight Fluid Handling
Product Information
1.1 Specifications & Performance
Model | PSA140 |
---|---|
**Max Flow Rate*** | 123 lpm |
(32.5 gpm)
Displacement Per Cycle| 0.5 liters
(0.132 gal)
Cycles per min| 273 max
Air Connection| 3/8 in
Weight| 16.6 kg (36.6 lb)
Suction Lift| 3 m (10 ft)
Sound| Pressure**| 81.98 dB(a) at 100 psi 50 CPM
91.6 dB(a) at 100 psi max CPM
Power**| 76.37 dB(a) at 100 psi 50 CPM
83.16 dB(a) at 100 psi max CPM
- May vary by configuration or system. Suction lift diminishes over time. Recommended installation level less than 3 ft above source. To calculate displacement, divide flow rate by CPM.
** Sound measured in accordance with ISO9614-2:1997.
Max Fluid Temperature | 100°C (212°F) |
---|---|
Environmental Temperature | min: 0°C (32°F) max: 50°C (122°F) |
Max Supply Air Pressure | 7 Bar (100 psi) |
Min Startup Air Pressure | 1.4 bar (20 psi) |
Fluid Path Materials | PTFE, PFA |
Non-Fluid Path Materials | PTFE, PFA, PP, Ceramic |
Max Fluid Temperature | 100°C (212°F) |
--- | --- |
Environmental Temperature | min: 0°C (32°F) max: 50°C (122°F) |
Max Supply Air Pressure | 7 Bar (100 psi) |
Min Startup Air Pressure | 1.4 bar (20 psi) |
Fluid Path Materials | PTFE, PFA |
Non-Fluid Path Materials | PTFE, PFA, PP, Ceramic |
PSA140 Performance How to Read Charts
Draw a horizontal line at your discharge pressure and vertical line at desired
flow rate. At line intersect, estimate required air pressure, resultant cycle
rate and air consumption.
Example
At 2 Bar (30 psi) discharge pressure and 80 psi air pressure, PSA140 pumps
provide 88 lpm (23.2 gpm) flow rate, cycle at ~200 CPM and exhaust 28 SCFM of
air.
*Graph is for reference only. Performance was measured utilizing 1/2 in (3/8 in ID) air line and 1-1/4 in (1-1/8 in ID) liquid lines with 1 ft flooded suction. Performance may vary in your system.
1.2 Temperature Limits 1.3 Dimensions
Dimensions in [mm] in![WHITE KNIGHT PSA140 PTFE and PFA Pumps Capable of 100°C
- parts2](https://manuals.plus/wp-content/uploads/2024/01/WHITE-KNIGHT-PSA140 -PTFE-and-PFA-Pumps-Capable-of-100°C-parts2.jpg) 1.4 Bill of Materials
Leak Detect
Part| Description
14600-XX-0009| LF0| 15 ft fiber optic cable with no amplifier
14600-XX-0010| LF1| 15 ft fiber optic cable with D10 amplifier
14600-XX-0011| LF2| 25 ft fiber optic cable with no amplifier
14600-XX-0012| LF3| 25 ft fiber optic cable with D10 amplifier
14600-XX-0031| LC0| 15 ft conductivity cable
14600-XX-0040| LC1| 25 ft conductivity cable
Stroke Detect with Fiber Optics
Part| Description
14700-XX-0013| SF0| 15 ft fiber optic cable with no amplifier
14700-XX-0014| SF1| 15 ft fiber optic cable with D10 amplifier
14700-XX-0015| SF2| 25 ft fiber optic cable with no amplifier
14700-XX-0016| SF3| 25 ft fiber optic cable with D10 amplifier
Stroke Detect with Pressure Switch
14900-NP-0004| SP1| Single NPN Switch
14900-NP-0003| SP2| Dual NPN Switches
14900-NP-0001| SP4| Single PNP Switch
14900-NP-0002| SP5| Dual PNP Switches
Fittings (Type, Size, Option)| Assemblies| Body Inlet Only
(Nut not included)
---|---|---
| 1/2 in.| F08| 14510-PF-0011| 7200-PF-0015
3/4 in.| F12| 14510-PF-0008| 7200-PF-0009
1 in.| F16| 14510-PF-0009| 7200-PF-0010
1-1/4 in.| F20| 14510-PF-0010| 7200-PF-0011
| 3/4 in.| T12| 7120-PF-0007
1 in.| T16| 7120-PF-0008
1-1/4 in.| T20| 7120-PF-0009
1-1/2 in.| T24| 7120-PF-0010
| 3/4 in.| W12| 7300-PF-0005
1 in.| W16| 7300-PF-0006
| 1/2 in.| P08| 14530-PF-0011| 7400-TE-0019
3/4 in.| P12| 14530-PF-0006| 7400-TE-0006
1 in.| P16| 14530-PF-0007| 7400-TE-0007
1-1/4 in.| P20| 14530-PF-0008| 7400-TE-0008
1-1/2 in.| P24| 14530-PF-0026| 7400-TE-0035
| 3/4 in.| N12| 7100-TE-0009
1 in.| N16| 7100-TE-0005
1-1/4 in.| N20| 7100-TE-0010
| 3/4 in.| S12| 14520-TE-0008| 7010-TE-0007
1 in.| S16| 14520-TE-0007| 7010-TE-0009
PrimeLock| 3/4 in.| L12| 14570-PF-0006| 7800-TE-0006
1 in.| L16| 14570-PF-0007| 7800-TE-0007
1-1/4 in.| L20| 14570-PF-0008| 7800-TE-0008
Plugged| B00| 7130-TE-0005
PSA140 BILL OF MATERIALS
Item| Part| Description| Qnty
1| 1125-TE-0018| Pump Body| 1
2| 2127-EP-0016| Head, Right| 1
3| 2127-EP-0017| Head, Left| 1
4| 14300-MP-0028| Bellows Assembly| 2
5| 5144-PF-0022| Shaft| 1
6| 5143-MP-0011| Shaft Seal| 2
7| 6030-NP-0002| Gripper Elbow, 1/4″ NPT x 1/4″| 2
8| 6020-NP-0004| 3/8″ NPT x 1/2″ Elbow| 2
9| 10010-NP-0006| Shuttle Mount Screw| 2
10| 14200-NP-0007| Base Plate Assembly| 1
11| 4135-MP-0004| Bottom Check Seat, Hi-flow| 2
12| 4142-MP-0003| Top Check Cage, Hi-flow| 2
13| 4100-MP-0003| 1-1/8″ Check Ball| 4
14| 4140-TE-0004| Check Plug| 2
15| 10040-TE-0003| 1/4″ NPT Plug| 4
16| 10071-PF-0011| 1/2″ Tubing| 2
17| 10071-PF-0008| 1/4″ Tubing, Thick Wall| 2
18| 6070-NP-0003| 1/2″ Female Gripper Nut| 2
19| 6070-NP-0001| 1/4″ Female Gripper Nut| 2
20| 6080-KF-0003| Gripper, 1/2″| 4
21| 6080-TE-0003| Ferrule, 1/2″| 4
22| 6080-TE-0001| Ferrule, 1/4″| 4
23| 6080-KF-0001| Gripper, 1/4″| 4
24| 14400-NP-0005| Body, Shuttle with Sleeve| 1
25| 7200-PF-0010| 1″ Flaretek® Body| 2
26| 7210-PF-0005| 1″ Flaretek® Nut| 2
27| 6560-CE-0003| Spool| 1
28| 10040-TE-0002| 1/8″ NPT Plug| 3
29| 6530-TE-0003| Shuttle End Cap| 2
30| 6070-NP-0004| 1/4″ Male Gripper Nut| 2
31| 6070-NP-0007| 1/2″ Male Gripper Nut| 2
32| 10020-NP-0003| Shuttle Alignment Pin| 2
33| 6140-FP-0004| Baffle| 6
34| 6150-NP-0006| Muffler Cap| 2
35| 6140-PP-0002| Baffle Spacer| 6
36| 10040-TE-0016| 1/8″ NPT Vent Plug| 2
Installation
2.1 Precautions
Handling
Do NOT lift pump by shuttle valve assembly nor air tubing.
Installation Orientation
PSA140 pumps must be installed in an upright position. The check valves are
actuated by gravity and/or flow, and they will not seat if the pump is not
upright.
Timer Mode
PSA140 pumps require an end of stroke detection mechanism (pressure switch) to
prevent over stroking in timer mode.
Operating a PSA140 in timer mode without stroke detection will void the pump
warranty.
Required Air Flow (Shuttle Valve)
PSA140 pumps require 3/8 in minimum orifice with unrestricted air flow.
Required Air Flow (Solenoid Valve)
PSA140 pumps require a 3 Cv solenoid. Using a reduced Cv will reduce flow
rates. Using a valve with more than 20% greater Cv will change operating
parameters, reduce pump life and void the warranty.
Under Supply of Air
PSA140 pumps operate erratically or stall when air supply is insufficient.
Ensure use of air supply pressures higher than averaged air consumption lines
in performance charts. Air supply lines and fittings must meet minimal inner
diameter requirements shown in the installation instructions.
Air Supply Pressure
Operating PSA140 pumps ~35% below max air pressure may significantly extend
pump life. PSA140 pumps require 20 psi minimum air pressure. Operation above 7
Bar (100 psi) may damage the pump and void the warranty.
Suction Lift
PSA140 pumps have an initial suction lift capacity of 3 ft. For best
results minimize suction lift.
Liquid Inlet/Outlet Connections
PSA140 liquid ports are not NPT nor any other standard. Use of connectors
other than those supplied by White Knight will damage the pump and void the
warranty.
Liquid Line Restriction
PSA140 pumps may be controlled by closing liquid outlet lines. However,
restricting liquid supply lines increases wear and should be avoided. Do NOT
pump against a closed liquid inlet. It will damage the pump and void the
warranty.
Running Dry
PSA140 pumps use the pumped liquid to lubricate their shafts. The pumps will
cycle faster and wear more than normal when run dry, which may cause damage
and loss of self-prime abilities. PSA140 pumps should not run dry after start-
up and are not warrantied under dry run conditions.
Pulse Dampener with Shuttle Valve
Air supply pressure to PSA140 pumps should be at least ten psi higher than the
liquid line pressure when using a pulsation dampener. Failure to do so may
cause erratic operation.
Cross Contamination
PSA140 pumps use porous material that may retain chemicals. Take precautions
to avoid cross contamination.
2.2 Warnings
Pressurized Material
Pumps in use contain pressurized materials. Eliminate liquid and air
pressure via shut off valves before pump is serviced or removed from the
system.
High Temperature
Heat may transfer to exterior surfaces when pumps operate with high
temperature fluids. Avoid direct contact with the pump when high temperature
fluids are present.
Hazardous Chemical
Use appropriate personal protective equipment when handling pump. Reference
Material Safety Data Sheet (MSDS) for information specific to your chemicals.
Loud Noise
Pump exhaust air contributes to work area noise levels. Only operate pumps
with approved muffler media, and use ear protection in noisy conditions.
2.3 Advantages
Head Pressure / Dead-Head
PSA140 pumps can be controlled by adjusting their liquid outlet pressures and
can be installed with head pressures up to dead-head (e.g. equal liquid and
air pressures) with no damage to the pump.
Thermal Cycling
PSA140 pumps require no maintenance when operated within their performance
range, even in thermal cycling applications.
2.4 Environment & System
Oversized Inlet Line
Pumps operate optimally with liquid inlet lines larger than the liquid outlet
lines. This reduces strain on the bellows and may reduce pulsation in the pump
outlet.
Clean Supply Air (CDA)
PSA140 pumps require use of Class 2 air for particles and moisture per ISO
8573-1. Use 10 micron filter; maintain -40°C dew point. A point-of-use filter
is recommended during first six months of operation in new fabs/systems due to
high risks of debris that can damage pumps and void warranty.
Flammable Solvents
PSA140 pumps are not constructed from conductive materials. System that pump
flammable solvents should be properly grounded to avoid ignition by static
charge. A River’s Edge test of isolative pumps with flammable liquids
indicated that liquids must be grounded and other procedures should be
followed. Copy of test available.
Pumping Liquids Near Boiling Point
Minimizing suction lift reduces pulsation and the potential for boiling or
outgassing of liquid in the inlet of the pump. Although reciprocating pumps
can pull suction lift, pump performance and life increase when suction lift is
minimized or eliminated.
Abrasive Slurry
Pumping abrasive slurry may accelerate wear of components. PSA140 pumps are
warrantied when used with slurry. However, normal wear is not covered by
warranty.
Environmental Temperature
PSA140 pumps are rated for 0°C (32°F) – 50°C (122°F) environmental
temperatures. Do not freeze fluid in pump. Operation below 0°C may accelerate
wear. Normal wear is not covered by warranty.
2.5 Installation Instructions
-
Move lever to up position.
-
Slide base plate forward or pump body backward.
-
Lift pump off of base plate.
-
Screw base plate to surface with 3/8 in or 10 mm socket head cap screws into predrilled holes.
Pull-back dismount is standard. See steps 4.1-4.3 for forward dismount. -
Set pump on base knobs; slide it forward. Set lever to down position.
-
Attach fittings to pump. Tighten to 80 inch-lbs.
-
Attach tubes and fittings per manufacturer instructions. Use backer wrench to hold fitting in place at pump.
-
Affix supply air via 3/8 in FNPT port on shuttle valve. Air line must be 3/8 in minimum orifice.
Liquid Inlet/Outlet
Liquid ports are not NPT nor any other standard. Use of connectors other
than those supplied by White Knight will damage the pump.
2.6 Shuttle Service Instructions
Follow instructions below to inspect or service White Knight shuttle valves.
If a pump has stopped, ensure all recommendations in this manual are followed
and that there are no air supply issues (i.e. closed air valve, damaged
regulator, oil in air line, etc.).
Do not lubricate or oil any of the shuttle components. White Knight shuttle
valves do not require any lubrication.
-
Remove nuts on each air fitting on each pump head.
-
Unscrew both shuttle mounting bolts, and pull the shuttle from the pump.
-
Remove the airlines from both sides of the shuttle valve by unscrewing the air fittings.
-
Unscrew top shuttle end cap using the shuttle end cap tool.
Part: 12100-PV-0083 -
Carefully remove ceramic spool from shuttle valve; it may break if dropped.
If the ceramic spool in your pump has a flat feature, it is critical that it is oriented towards the bottom of the pump when the shuttle valve is reassembled. -
Unscrew bottom end cap using the shuttle end cap tool.
-
Unscrew both 1/8 in NPT plugs that have an orifice in the center.
-
Remove muffler cap from left side using the muffler cap tool. Remove muffler media and note the order of the pieces. Repeat this step for muffler cap and muffler media on the right side.
-
Blow out shuttle valve with CDA or N2. Ensure no residue or debris is in any areas indicated above. Debris or residue in these areas may hinder pump performance.
-
Clean the ceramic spool with IPA, and dry it using CDA or N2.
-
Reassemble shuttle and reattach it to the pump by following the above steps in reverse.
If the spool in your pump has the flat feature, ensure it is oriented towards the bottom of the pump when the shuttle valve is reassembled.
Control & Monitoring
Programmable Control
White Knight CPT-1 controllers monitor and adjust run mode, flow rate, leak
detection and other pump operations. Single
Sensor Design
PSA140 pumps can use only a single fiber optic sensor at a time. The probe may
be installed in the “F” port on either side of the pump. White Knight offers
PFA, PFH, and PFU pumps for dual fiber optic use.
D10 Amplifier Electrical Hookups & Dimensions
White Knight recommends Expert™ D10 amplifier for use with fiber optic stroke
and leak detection assemblies. 3.1 Fiber
Optic Stroke Detection Installation
-
Remove stroke detect probe from fiber optic assembly.
-
Replace NPT plug in “F” port with stroke detect probe. Hand-tighten.
-
Insert the fiber optic cable until it seats at the bottom of the probe.
-
Lower ferrule and gripper until snug against probe and hand tighten female gripper nut. Fiber Optic Sensors
Fiber optic sensors melt if used at >130°C (266°F), resulting in leak or end of stroke detection failure. -
Open the top and slide the front face of the D10 up. Press the fiber optic ends into the holes on its front. Slide the face down to lock cables in place.
3.2 Calibrating D10 Amplifier for Stroke Detection
When calibrating the D10 Amplifier for stroke detection, the pump should be in
the same operating conditions it will be in during normal operation (i.e.
supply air pressure, back pressure, etc.). The Fiber Optic must be installed
as per the instructions in section 3.1.
Calibration:
| Push Button| Remote Line| Result
---|---|---|---
Access Dynamic TEACH Mode| Press and hold dynamic push button >2
seconds.| Hold Remote line low (to ground) >2 Seconds.| • Power LED: OFF
• Output LED: OFF
• Bar graph: LO & DO Alternately Flashing
TEACH Sensing Conditions| • Hold push button.
• Operate pump normally for 15 seconds.| • Hold remote line low (to ground).
• Operate pump normally for 15
seconds.| • Power LED: OFF
• Output LED: OFF
• Bar graph: LO & DO Alternately Flashing
Return to Run Mode| Release button| Release remote line/switch| Teach Accepted
Power LED: ON
Bar graph: One LED flashes to
show relative contrast (successful setup requires minimum value of 4). Sensor
returns to Run Mode with new settings.
Teach Unaccepted
Power LED: OFF
Bar graph: #1, 3, 5, 7 alternately flash to show failure to sense. Sensor
returns to Run mode without changing settings. Set up again if value shows <4.
Upon completion of a successful learning cycle, the D10 Amplifier will
continuously learn and self-teach to maintain the same cycle rate count
readings.
3.3 Single Pressure Switch Stroke Detection Installation
- Remove plug from “F” port.
- Attach NPT gripper to “F” port.
- Attach elbow assembly to pressure switch. Loosen female gripper nuts, and insert air tube between them. Hand tighten gripper nuts.
After your device is connected, you must set the switch point. If operating
above 60 psi air supply, the set point is 43 psi (0.296 MPa), otherwise it is
18 psi (0.124 MPa). Each system is unique so values may need to be adjusted to
your specific application. As the exhaust system loads, it may be necessary to
adjust the set point.
3.4 Dual Pressure Switch Stroke Detection Installation
Perform all instructions to both sides of the pump.
- Attach T fittings to the “S” ports.
- Attach mufflers to the T fittings.
- Attach elbow assemblies to pressure switches.
- Loosen female gripper nuts on elbow assemblies and T fittings. Insert tubing and hand-tighten gripper nuts.
- Affix supply air via 1/4 in FNPT QEV ports on both sides. Air supply must be 1/4 in minimum orifice to source.
After your device is connected, you must set the switch point. If operating
above 60 psi air supply, the set point is 43 psi (0.296 MPa), otherwise it is
18 psi (0.124 MPa). Each system is unique so values may need to be adjusted to
your specific application. As the exhaust system loads, it may be necessary to
adjust the set point.
3.5 Pressure Switch Stroke Detection Electrical Hookups 3.6 Conductivity Leak Detection Installation
Leaks are identified if conductive fluid contacts a sensor. Sensor provides a
Sink (NPN) or Source (PNP) signal, depending on the wire setup. See the wiring
diagrams below.
Conductive leak detection does not qualify for use in explosion-proof
environments. Conductive fluid required.
See below for elbow out configuration.
- Remove leak adapter from assembly.
- Replace NPT plug in “L” port with probe. Hand Tighten. Attach cable to signal translator (e.g. PLC).
3.7 Fiber Optic Leak Detection Installation
D10 amplifier must be calibrated before attaching fiber optic probes to the
pump.
Fiber optic sensors can melt if used at >130°C (266°F), causing leak detect
failure.
See below for elbow out configuration.
- Remove leak adapter and leak detect probe from fiber optic assembly.
- For straight out configuration replace NPT plug in “L” port with the probe. Hand-tighten.
- Insert the fiber optic cable until it contacts the bottom of the probe.
- Lower ferrule and gripper until snug against the probe. Hand tighten female gripper nut.
- Open the top and slide the front face of the D10 up. Press the fiber optic ends into the holes on its front. Slide the face down to lock cables in place.
3.8 Calibrating D10 Amplifier for Leak Detection
Step 1: Power On D10 Amplifier & Set “Dark Operate” Mode:
| Push Button
0.04 s ≤ “Click” ≤ 0.8 s| Remote Line
0.04 s ≤ T ≤ 0.8 s| Result
---|---|---|---
Access Setup Mode| Press and hold both buttons > 2 seconds.| Double-pulse
remote line| • Green Power LED turns OFF.
• Output LED remains active.
• Icons continue to display current setup.
• Bargraph turns OFF.
Select Settings| Press either button until LEDs show desired settings.| Pulse
the remote line until LEDs show
desired settings.
Note: Doublepulsing remote line causes
setting to “back up” one step.| Sensor toggles through these setting
combinations:
LO – Normal Speed – No Delay (default)
DO – Normal Speed – No Delay
LO – High Speed – No Delay
DO – High Speed – No Delay
LO – Normal Speed – Delay
DO – Normal Speed – Delay
LO – High Speed – Delay
DO – High Speed – Delay
Return to Run Mode| | Hold remote line low > 2 seconds. > 2 seconds| • Green
Power LED turns ON.
• Sensor returns to Run mode with new settings.
Step 2: Access “Single-Point Dark Set” Mode
| Push Button
0.04 s ≤ “Click” ≤ 0.8 s| Remote Line
0.04 s ≤ T ≤ 0.8 s| Result
---|---|---|---
Access Set Mode| Press and hold static button > 2 seconds.| Single-pulse
remote line| • Power LED: OFF.
• Output LED: ON (push button)
OFF (remote line)
• Static LEDs: LO & DO
alternately flashing
Step 3: Set Sensing Condition
Set condition to “leak detection” sensing while probe tip is submerged in
liquid.
Then, remove the leak probe from liquid and reinserted into the “L” port.
Amplifier will now signal when moisture if detected on the probe tip.
| Push Button
0.04 s ≤ “Click” ≤ 0.8 s| Remote Line
0.04 s ≤ T ≤ 0.8 s| Result
---|---|---|---
Set Sensing Condition| • Present sensing condition
• Five-click static buttonc| Present sensing
condition
• Five-pulse remote lne| • Power LED: ON.
• Output LED: ON (push button) OFF (remote line)
• Bargraph: 4 indicators flash.
Sensor returns to Run mode with new settings
• Power LED: ON.
• Output LED: ON (push button) OFF (remote line)
• Bargraph: #1, 3, 5, 7 flash for failure.
Sensor returns to Set sensing condition.
Ordering Instructions
Options 1-3 are required.
Leave Additional Options blank if not desired. Only add Outlet if different
than Inlet.
Default options are highlighted
1. Pump Model
Standard| PSA140
2. Check Ball Material
PTFE check balls| blank
PFA check balls| F
3. Inlet Fitting
Front straight only
| 1/2 in.| F08
3/4 in.| F12
1 in.| F16
1-1/4 in.| F20
| 3/4 in.| T12
1 in.| T16
1-1/4 in.| T20
1-1/2 in.| T24
| 3/4 in.| W12
1 in.| W16
| 1/2 in.| P08
3/4 in.| P12
1 in.| P16
1-1/4 in.| P20
1-1/2 in.| P24
| 3/4 in.| N12
1 in.| N16
1-1/4 in.| N20
| 1/2 in.| S08
3/4 in.| S12
1 in.| S16
| 3/4 in.| L12
1 in.| L16
1-1/4 in.| L20
4. Leak Detection
No leak detection| blank
15 ft fiber optic cable with no amplifier| LF0
15 ft fiber optic cable with D10 amplifier| LF1
25 ft fiber optic cable with no amplifier| LF2
25 ft fiber optic cable with D10 amplifier| LF3
15 ft conductivity cable| LC0
25 ft conductivity cable| LC1
5. Stroke Detection
No stroke detection| blank
15 ft fiber optic cable with no amplifier| SF0
15 ft fiber optic cable with D10 amplifier| SF1
25 ft fiber optic cable with no amplifier| SF2
25 ft fiber optic cable with D10 amplifier| SF3
Single NPN pressure switch| SP1
Dual NPN pressure switches (Includes two DP2 pressure switches)| SP2
Single PNP pressure switch| SP4
Dual PNP pressure switches (Includes two DP2 pressure switches)| SP5
6. Outlet Fitting Straight only. Select Top or Front.| Front| Top
---|---|---
Same as Inlet| blank| n/a
| 1/2 in.| FF08| TF08
3/4 in.| FF12| TF12
1 in.| FF16| TF16
1-1/4 in.| FF20| TF20
| 3/4 in.| FT12| TT12
1 in.| FT16| TT16
1-1/4 in.| FT20| TT20
1-1/2 in.| FT24| TT24
| 3/4 in.| FW12| TW12
1 in.| FW16| TW16
| 1/2 in.| FP08| TP08
3/4 in.| FP12| TP12
1 in.| FP16| TP16
1-1/4 in.| FP20| TP20
1-1/2 in.| FP24| TP24
| 3/4 in.| FN12| TN12
1 in.| FN16| TN16
1-1/4 in.| FN20| TN20
| 1/2 in.| FS08| TS08
3/4 in.| FS12| TS12
1 in.| FS16| TS16
| 3/4 in.| FL12| TL12
1 in.| FL16| TL16
1-1/4 in.| FL20| TL20
7. Shuttle
Gravity reset with standard exhaust| blank
No shuttle, standard ports *
(No pressure switches included)
Sensors are required for operation.| VX0
Gravity reset with remote exhaust| VG1
Mag detent with standard exhaust| VM0
Mag detent with remote exhaust| VM1
- White Knight shuttle valve not included.
Timer mode operation requires end-of-stroke detection. Use of timer mode without stroke detection voids the warranty.
Revision
No revision| blank
Contact support for revision level or copy exact code activation details.
Configured part numbers are not Copy Exact Part Numbers.
support@wkfluidhandling.com
Pump Service
Pumps fully rebuilt by White Knight, certified rebuilders, or technicians
certified by White Knight receive full warranty renewal. Details below.
White Knight Rebuilds
Request factory rebuilds by web form at:
https://wkfluidhandling.com/support/rma/.
An RMA# will be provided after processing.
*Customers must follow decontamination instructions in Section 4.4 when returning a pump to White Knight.
Certified Rebuilders
White Knight’s global network of certified rebuilders expedite rebuild turn-
around time and minimize shipping costs. Find certified rebuilders at:
https://wkfluidhandling.com/rebuilders/
Rebuild Pump as Certified Technician
White Knight offers trainings to certify technicians to rebuild pumps.
Technicians who pass the training are issued a two-year certification. During
the two years, parts in pumps rebuilt by the technician receive a full
warranty. See: https://wkfluidhandling.com/virtual-rebuilds/
5.1 Rebuild Kits & Parts
Rebuild kit for PSA140 is RBPSA140-1. To request rebuilds by White Knight,
use RBPSA140-5 (labor included). Pump rebuilds require tool kit: 12200-XX-0021
(Legacy# PSA140-170).![WHITE KNIGHT PSA140 PTFE and PFA Pumps Capable of 100°C
- icon41](https://manuals.plus/wp-content/uploads/2024/01/WHITE-KNIGHT-PSA140 -PTFE-and-PFA-Pumps-Capable-of-100°C-icon41.jpg) RBPSA140-1
ITEM NO. | PART NUMBER | DESCRIPTION | QTY. |
---|---|---|---|
1 | 5143-MP-0011 | SEAL, SHAFT, 140L | 2 |
2 | 5144-PF-0022 | SHAFT, SOLID, PFA, 140L | 1 |
3 | 6140-FP-0004 | BAFFLE POROUS POLY 60L | 6 |
4 | 14300-MP-0028 | BELLOWS, ASSEMBLY | 2 |
5 | 4100-MP-0003 | CHECK BALL- 1-1/8″ | 4 |
6 | 4135-MP-0004 | BOTTOM CHECK SEAT-120/140L HIGH FLOW | 2 |
7 | 4142-MP-0003 | TOP CHECK SEAT-30GPM HIGH FLOW | 2 |
8 | 6530-TE-0003 | 30GPM SHUTTLE END CAP | 2 |
5.2 Return Pump for Service
Follow decontamination instructions when returning a pump for service.
DO NOT REMOVE PAGE FROM MANUAL.
Copy page from manual or download at
https://wkfluidhandling.com/support/rma/.
Decontamination Instructions
PRINT COMPLETED DECONTAMINATION CERTIFICATION. IT MUST BE INCLUDED IN YOUR RMA
SHIPMENT.
White Knight products are designed for use with caustic and otherwise
dangerous liquids. Handle every product as if it contains dangerous chemicals
whether or not it actually does.
- Only those with adequate safety training should attempt to handle used pumps.
- Wear adequate safety gear appropriate for chemicals that have been in the pump.
- Review relevant Material Safety Data Sheets (MSDS) before handling the pump.
- Review emergency numbers for use in event of an accident.
- Prepare Ph papers, showers, antidotes, clean-up equipment, neutralizers, and other safety devices used to detect, neutralize or minimize effects of chemicals described in appropriate MSDS documents.
Rinse with DI Water
Circulate DI water through pump for twenty minutes before disassembly and/or
double bagging for shipment.
If pump is nonfunctional, force DI water from inlet through outlet for 40
minutes before shipment preparations.
Remove Pump from Station:
-
Disconnect liquid tubing connectors from front of pump (opposite shuttle valve).
-
Plug NPT fittings with PTFE plug, Flare fittings with flare nose cover and cap,
or other plug or cap as recommended by connector supplier. -
Disconnect air supply tubing from face of shuttle valve.
-
Loosen mount screw from base plate. (Note: do not remove screw from base plate).
-
Remove base plate using proper tool for the fastening devices (e.g. Allen wrench or screw driver).
Note: Base plate may stay if needed for replacement pump to be used. -
Return all removed parts to the pump.
Return Pump to White Knight:
- Rinse pump with DI water as described above after removing it from its station.
- Drain remaining DI water from the pump inlet and outlet liquid tubing connectors.
- Plug liquid outlets as described in the Remove Pump from Station section above.
- Dry the pump, double bag it, and seal it in thick polyethylene bags.
- Return the pump to its original packaging.
- Include MSDS for the chemical that the pump was handling in the box with the pump.
- Obtain RMA number from White Knight and write it on the outside of the box.
- Ship to White Knight following all rules, regulations and laws regarding shipment of dangerous materials. Ship freight pre-paid. No collect shipments will be accepted. Unauthorized use of White Knight shipping accounts will result in the adding of freight to the bill in addition to a service charge.
Include All Pump Components:
Pumps returned to White Knight for evaluation, service or repair must be
complete with all components, including but not limited to base plate, mount
screws, tubing connectors, tubing connector caps, flare noses, shuttle valves,
mufflers, and tubing. Missing parts will be added to the pump and charged to
the customer.
DO NOT REMOVE PAGE FROM MANUAL.
Copy page from manual or download at
https://wkfluidhandling.com/support/rma/.
Decontamination Certification
COMPLETE AND PRINT THIS FORM. IT MUST BE INCLUDED IN YOUR RMA SHIPMENT.
I, the undersigned employee of ———————-, certify that all decontamination and
safety procedures described in Decontamination Instructions section have been
followed for return of product below.
RMA#: ——————————-
(We cannot process returns without an RMA number.)
Serial# : ——————————-
(We cannot process returns without a product serial number.)
Metal Exposure: —————————
(Check all that apply. Write in other metals if necessary.)
Product was used in a Metal Process. Yes No
Product was used in a Copper Metal Process. Yes No
Product was used with:
Aluminum Cobalt Gold Lead Nickel Platinum Silver Tin Titanium
Tungsten Zinc Other: ………………………………………………………………………………………
Chemical Exposure:
(Check all that apply. Write in other chemicals if necessary.)
Product was NOT used in chemicals (DI Water only).
Product was used in chemicals.
Ammonia Ammonium Hydroxide Hydrochloric Acid Hydrofluoric Acid
Hydrogen Peroxide IPA
Nitric Acid Phosphoric Acid Sulfuric Acid Other:
………………………………………………………………………………………
Shipping Information:
Please indicate metal processes to which the product has been exposed by
clearly and conspicuously labeling the outside of the return package with the
metal.
Products exposed to Metal Processes must be sent to the following
address:
White Knight Fluid Handling
187 East 670 South, Suite B
Kamas, UT 84036
Products NOT exposed to Metal Processes must be sent to the following
address:
White Knight Fluid Handling
187 East 670 South, Suite C
Kamas, UT 84036
Print Name: ………………………………………………………………………………………
Signature: ………………………………………………………………………………………
Date: …………………………………………………………
Warranty
White Knight follows strict manufacturing, assembly and testing procedures to
ensure consistency and reliability.
White Knight warrants PSA140 pumps and components are free from defects in
materials and workmanship for two years from our shipment date or your
installation date if provided within 90 days of shipment from our facility.
Failures due to normal wear, misuse, abuse or unauthorized disassembly nullify
this warranty.
White Knight does not guarantee the suitability of products for specific
applications. White Knight is not liable for any damage or expense resulting
from use or misuse of its products in any application. Responsibility is
limited solely to repair or replacement of defective products or components.
Prior written, faxed or emailed approval must be obtained from White Knight
before returning any product or component for warranty consideration. All
determinations regarding cause of failure are made by White Knight, and all
decisions regarding warranty fulfillment or nullification are made by White
Knight.
THE FOREGOING WARRANTY IS EXCLUSIVE AND IN LIEU OF ALL OTHER WARRANTIES
EXPRESSED OR IMPLIED, INCLUDING ANY GUARANTEE OF SUITABILITY FOR ANY PURPOSE.
NO VARIATIONS OF THIS WARRANTY SHALL BE HONORED NOR CONSIDERED LEGALLY
BINDING, EXCEPT WRITTEN AGREEMENTS SIGNED BY THE CEO OF WHITE KNIGHT FLUID
HANDLING.
CERTIFICATE & DECLARATION OF
CONFORMITY FOR CE MARKING
Company contact details:
White Knight Fluid Handling Inc.
187 E. 670 S., Kamas, Utah, 84036, USA
White Knight Fluid Handling Inc. declares that their:
Bellows Pump Line
PSA0N30, PSANG60, PSA140, PSHO30, PSHO60. PSH140, PSU030, PSU060, PSU140.
PSA015, PSRO50, PSRO25, PFA030, PFAOQ60, PFA140, PFHO30, PFHO60, PFH140,
PFU030, PFUO60, PFU140, PXA030, PXA0D60, PXA140, PXHO030, PXHO060,
PXH140, PXU030, PXU060, PXU140. PFA015, LHA015, LHA030, LHA0N70
Diaphragm Pump Line (Non Conductive)
PSDO4TE, PSDOGTE, PSDO8TE. PSD16TE, PSD24TE, PSDO04UH, PSDO6UH, PSDO8UH,
PSD16UH, PSD24UH, PSB100
Diaphragm Pump Line (Conductive)
PSDO4TC, PSDOS6TC, PSDO8TC, PSDIE6TC, PSD24TC, PSDO4UC, PSDO6UC, PSDO8UC,
PSD16UC, PSD24UC
Legacy Pump Line
PLS30, PLS60, PLS120, PLX30, PLX60, PLX120. PX30, PX60. PX120. PLF30. PLF60,
PLF120
Metering Pumps
PPM100, PEM100, PEM050
Plastic Pumps
PHC40-2, PPMC300. PPMA
TPAQ7 Pressure Transducer
are classified within the following EU Directives as applicable:
Machinery Directive 2006/42/EC
Low Voltage Directive 2014/35/EU
Electromagnetic Compatibility Directive 2014/30/EU
ROHS 2 Directive 2011/65/EU
and further conform with the following EU Harmonized Standards as applicable:
EN 809:1998+A1:2009 EN 60204-1:2006 + A1:2009 EN 61000-6-2:2005 EN
61000-6-4:2007+A1:2011
Dated: 16 January 2017
Position of signatory: Product Manager Name of Signatory: Cory Anmon Simmons
Signed below: on behalf of White Knight Fluid Handling Inc.
Pump Solutions and Accessories
Ultra-Pure Closed-Loop
Systems
Automatically maintain laminar flow or steady pressure with metal-free closed-
loop pump systems offering stable temperatures, deadhead and suction lift.
Control your high purity chemical processes and delivery systems. Simplify
process automation to save time, resources and reduce costs.
https://wkfluidhandling.com/closed-loop/
- ≤ 140 lpm (36 gpm) flow rates
- ≤ 7 Bar (100 psi) pressures
- ≤ 210°C (410°F) temperatures
- Maintain stable temperatures
- No metals, no corrosion
- No elastomer O-rings, no leaks
- No electric motors, no heat rise
Pulse Dampeners
In-line and pump-mounted pulse dampeners reduce pulsation in fluid systems to
improve flow control, increase batch yields, protect components, and minimize
maintenance and downtime for repairs. DBA030 dampeners fit 30 and 60 lpm
pumps. DBA060 dampeners fit 30, 60 and 140 lpm pumps. DBA140 dampeners fit 60
and 140 lpm pumps.
https://wkfluidhandling.com/dampeners/ Pressure Regulators
White Knight pressure regulators offer remote piloting capability to maintain
system pressure for high-purity chemical circulation loops and systems with
multiple tool drops or dispense points. They feature fully-swept PTFE/PFA flow
paths. A single back-pressure regulator equalizes upstream fluid pressure
across multiple discharge outlets. Forward-pressure regulators control
downstream pressure.
https://wkfluidhandling.com/pressure-regulators/A single back-pressure regulator equalizes upstream
fluid pressure for discharge outlets. Each forward-pressure regulator controls
fluid pressure for a single discharge outlet.
Filter Housings
Two-chamber and four-chamber filter housings provide parallel or series (in-
line) operation. Their compact, non-metallic PTFE/PFA designs offer superior
containment and high-flow performance within a smaller footprint than
traditional housings. They fit many filter types, and enable filters to be
changed without disconnecting liquid lines.
https://wkfluidhandling.com/filter-housings/ Cycle-Rate Translator
The CPT enables pump replacements in existing tools. It operates a White
Knight pump at its optimal cycle rate and scales the operational cycle rate to
that expected by the tool.
https://wkfluidhandling.com/cpt/
Catcher™ Pre-Filters
White Knight Catcher™ pre-filters protect pumps from wafer shards and other
harmful solids. They can be cleaned without disconnecting liquid lines.
https://wkfluidhandling.com/catchers/
White Knight Support
187 E. 670 S.
Kamas, UT 84036
Phone: 435.783.6040
Toll Free: 888.796.2476
Fax: 435.783.6128
support@wkfluidhandling.com
https://wkfluidhandling.com/support/
Copyright © 2023 White Knight Fluid Handling
A Graco company
P: 435.783.6040
support@wkfluidhandling.com
https://wkfluidhandling.com
Part No. 18200-LM-0004
Version 2.2.2 | 5 Dec 2023
Subject to change without notice ****
References
- White Knight Fluid Handling | High Purity Chemical Solutions
- Closed-Loop Systems - White Knight Fluid Handling
- Cycle Rate Translators - White Knight Fluid Handling
- Filter Housings - White Knight Fluid Handling
- Pressure Regulators - White Knight Fluid Handling
- Certified Service Providers - White Knight Fluid Handling
- Support RMA - White Knight Fluid Handling
- Virtual Rebuilds - White Knight Fluid Handling
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