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8/19/2019 Test Stand Technical Manual
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GROTH® CORPORATION
Smart Relief…. Safe Solutions!
ENAP Test Stands Technical Manual
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Groth® Corporation
Groth® Corporation13650 N. Promenade Blvd
Stafford, Texas 77477
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E N A P T E S T S T A N D S T E C H N I C A L M A N U A L
Introduction
Since 1960, the Groth® name has been synonymous with therepair, manufacturing valve test equipment. Simple in design, easyto use; inexpensive to maintain
he project consisted to provide 2 test stands, 1 high pressure multipurposeSafety relief valve Test System model 110-2-2-3 [RV600-AW], 1 low pressurepressure/vacuum relief valves model 210-3-3-O and a high pressure Aircompressor model 140-6-6000-Z
High Pressure Test Stand Model 110-2-2-3 [RV600-
AW]
DUAL CHANNEL DIGITAL READ OUT INSTRUMENT with peak hold. Thisinstrument is designed to measure the pop and reseat pressure and store the test datafor recall until the next test is performed. The digital instrument has a check calibrationfeature, which allows instant verification of instrument accuracy and is accurate to ¼ of1% full scale. Low channel reads from 5~500 psig and the high channel from 300 to5000 psig.
GAUGE CALIBRATION PORT. This outlet will allow the user to install peripheralequipment such as strip chart recorders, read out instruments of test gauges to checkpanel gauges for accuracy
MANUAL CLAMP TABLE: With 4” nominal bore test vessel. Table clearance is 18”flange O.D.X3” flange thickness.
T
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E N A P T E S T S T A N D S T E C H N I C A L M A N U A L
High Pressure Air Compressor Model 140-6-6000-Z
5000 Psig with a 5 horsepower motor fitted with two [2] D.O.T. accumulator bottles[1.5 cubic feet each]
Low Pressure Test Stand Model 210-3-3-O
TEST STAND for breather valves [pressure/vacuum Relief] dual dial/digital gauges,Hydraulic Clamping Table
Valve Size: 2ӯ~24ӯ
Test Pressure: -12 Psig to +15 Psig
UTILITIES:
Nominal Voltage: 380 Volt AC 3Φ 50 Hz.
Low voltage: 110V/1Φ/50 H.Z
ENAP ORDER #: 4550001601 [10-08-03]
GROTH SALES ORDER: 607610
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Installation, Operation and Maintenance
PRESSURE/VACUUM
RELIEF VALVE
TEST STAND
MODEL 220
©
CORPORATION
IOM 220.1
1997
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TABLE OF CONTENTS
Description Page
Installation, Operation & Maintenance:
Before You Start 1
System Description 1
Installation 2
Operation 2
Product Limited Warranty 3
Tables:
[I] Maintenance schedule 4
Drawings:
P/V Test Stand C-91512 5
Flow Schematic A-91641 6
Component manuals:
Vacuum pump
Utility requirements:
Compressed air 80-150 PSIG
1/2” nominal line size
Electrical power 115 VAC, 1 Ph, 60 Hz
Test system specifications:
Valve size range 2” - 24”
MAWP 30 PSIG
Test pressure 0-15 PSIG
Control Console:
Pressure gages 0-20 PSI Dial
0-24” WC Manometer
Vacuum gages 0-30” Hg Dial
0-24” WC Manometer
Flowmeters 0.1-1.0 SCFH
1.0 10 SCFH
10-100 SCFH
Serial numbers:
Test stand ACE 4014-1
This manual is intended to describe the features
and capabilities of the test equipment.
Pressure/vacuum relief valve tests must be
conducted in compliance with your test
procedures and the code requirements of the
jurisdiction in which the valve is installed. The
Groth Model 220 test stand meets the
requirements of API Standard 2000. For
information not contained in this manual,
contact:
Groth Corporation
Groth Products Division
P. O. Box 15293
Houston, TX 77220
713-675-6151
713-675-6379 (Fax)
Warnings:
• AIR SUPPLY TO THIS TEST STAND
MUST NOT EXCEED 150 PSIG.
• PRESSURE [VACUUM] SUPPLIED TO
THE TEST FLANGE MUST NOT
EXCEED THE RANGE OF THE TEST
GAGES OR MANOMETERS.
• ALWAYS USE AT LEAST THREE
CLAMPS OR BOLTS TO SECURE A
VALVE TO THE TEST FLANGE.
• DO NOT MODIFY OR ALTER THIS
EQUIPMENT IN ANY WAY WITHOUT
PRIOR APPROVAL FROM GROTHCORPORATION.
Warning:
Bleed all pressure or vacuum from the vessel
before releasing the clamps.
SYSTEM DESCRIPTION
The Groth Model 220 test stand will perform
three basic low pressure and vacuum relief valve
tests:
1) Pressure Set Test2) Vacuum Set Test3) Pressure Leak Test
It consists of a test flange with an accumulator
and control panel integrally mounted on a
common structure.
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The test flange is designed to test valves from 2”
through 24”. Adapters, gaskets and clamps are
provided for mounting these valves.
The control console is located to the side of the
test flange and includes the necessary valves and
gauges to accurately perform the tests.
Air flow, to or from the valves being tested, can
be smoothly varied to provide an accurate
verification of pressure or vacuum setting. The
valve leakage rate can be tested under pressure
condition with the use of three parallel flow
meters isolated by block valves.
A volume pressure vessel inside the table serves
as an accumulator to dampen pressure pulsation.
Pressure or vacuum can be smoothly regulated
to ensure an accurate test of set pressure or valve
leakage.
An electrically driven vacuum pump provides
vacuum to the test flange. It is isolated from
positive test pressure by a flow regulating valve.
The vacuum pump On/OFF switch is located on
the front of the console.
INSTALLATION
Connect plant air and water to the control
console and pipe the drain/vent port to a suitable
location.
Connect the 115 VAC, 1 phase, 60 HZ power
supply to the terminal strip in the control
console. This provides power for the optional Digital Gauge and the vacuum pump.
PROCEDURES
Low pressure or vacuum relief valves should be
tested according to API Standard 2000, or the
applicable standard for the jurisdiction in which
the valve is installed.
The Groth Model 220 Test stand meets the
requirements of API 2000.
OPERATION
This section describes the location and function
of the individual components of the test stand.
Please refer to the assembly drawing C-91512
and the piping schematic A-91641.
1) The control panel is a heavy gage, weather-
proof enclosure with hinged back door.
2) This gage continuously displays pressure or
vacuum at the test flange. There is no
isolation valve, but a pressure limiting valve,
set at 20 PSIG, prevents damage to the gage.
3) A manometer is used for low pressure or
vacuum measurement. The fluid supplied
has a specific gravity of 1.00. As a
substitute, water may be used, with orwithout an appropriate dye.
4) Three flowmeters are used to accurately
measure flow to the test stand throughout
the range of 0 to 100 SCFH. Each
flowmeters includes a SS needle valve for
precise flow control. The flow that is
necessary to maintain constant pressure is
the leakage rate of the valve at that pressure.
Note: To determine leakage, all test stand piping
connections must be bubble tight.
5) The switch is used to start and stop the
vacuum pump for vacuum testing. The
pump may be running for the duration of the
test even when flow is shut off with the test
valve.
6) Block valves [2] are used to isolate the
pressure and vacuum manometer ports. Only
one valve should be open at any time and
both must be closed if pressure or vacuum
exceeds 24” WC.
Note: Exceeding the range of the manometer
may cause damage or loss of fluid.
7) The vacuum pump is located inside the
stand and provides vacuum to the test
flange. Pump On/Off function and flow are
regulated from the control panel. See the
attached manufacture’s manual for
maintenance and operation of the pump.
8) This gage displays the pressure of the
compressed air supplied to the test stand.
9) This optional digital gage continuously
displays pressure at the test flange. It willnot display vacuum. It can be set to retain
the maximum pressure attained during a test.
A pressure limiting valve also protests this
gage. See the attached manufacturer’s
manual for operation and calibration of this
gage.
10) Nameplates indicate function as follows:
“Test Gage” Displays test
pressure/vacuum
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“Air supply” Displays plant air supply
pressure
“Flow” Displays leakage flow rate
“Pressure” Select pressure port of
manometer
“Vacuum” Select vacuum port of
manometer
“Vacuum Pump” Vacuum pump switch
“Vent” Vents tank to atmosphere
“Pressure Test” Pressure test flow
regulating valve
“Vacuum Test” Vacuum test flow
regulating valve
11) Test valves [one each for pressure and
vacuum] are used to slowly flow air into or
out of the accumulator. These regulating
needle valves provide precision control of
test pressure.
The vent valve exhausts the accumulator to
the atmosphere, or allows atmospheric
pressure to replace vacuum in the
accumulator. The vent valve must always be
open when mounting or removing a valve
from the test flange.
12) The test flange is used for mounting all
valves from 2” through 24” for testing.
Valves from 2” through 12” are mounted on
an appropriate spacer with a soft rubber
gasket on either side, and secured with “U”
clamps. Heel blocks are provided for the
clamps.
Typical Pressure/Vacuum valve mounting
Valves from 16” through 24” are mounted
directly to the test flange on an appropriate
soft rubber gasket. They are secured with
swing clamps or bolted directly to the
flange.
Typical Emergency valve mounting
13) The test stand is heavy steel construction
with an aluminum control mounting panel.
14) The accumulator vessel is located under the
test flange and provides sufficient air
volume to provide smoothly regulated
pressure or vacuum to the flange.
Warning:
Always vent the accumulator completely
before releasing the clamps on the test
flange..
Mounting adapters & gaskets
Description Adapter
P/N
Gasket P/N
2” thru 4” adapter 85891001 TST91112001
6” - 8_ adapter 85891101 TST
91112002
10” - 12” adapter 85891201 TST
91112003
16” gasket N/A TST
91112004
20” gasket N/A TST
91112005
24” gasket N/A 91112006
Table II - MAINTENANCE SCHEDULE
Component Inspection Interval Maintenance action required
Vacuum pump Monthly Consult manufacturer’s manual
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Console Valves Monthly Visually inspect
Check for leaks
Console Gauges 3-Months Verify Accuracy
PRODUCT LIMITED WARRANTY
A. Seller warrants that products which are manufactured by Seller, are manufactured in accordance with published
specifications and free from defects in materials and/or workmanship for a period of (12) twelve months.
Seller, at its option, will repair or replace any products returned intact to the factory, transportation charges
prepaid, which Seller, upon inspection, shall determine to be defective in material and/or workmanship. The
foregoing shall constitute the sole remedy for any breach of Seller's warranty.
B. THERE ARE NO UNDERSTANDINGS, AGREEMENTS, REPRESENTATIONS, OR WARRANTIES,
EXPRESS OR IMPLIED, (INCLUDING MERCHANTABILITY OR FITNESS FOR A PARTICULAR
PURPOSE REGARDING PRODUCTS) UNLESS SPECIFIED IN THE SALES CONTRACT. THIS
CONTRACT STATES THE ENTIRE OBLIGATION OF SELLER.
Seller makes no warranties, either express or implied, except as provided herein, including without limitation
thereof, warranties as to marketability, merchantability, for a particular purpose or use, or against infringement
of any patent of products. In no event shall Seller be liable for any direct, incidental or consequential damages
of any nature, or losses or expenses resulting from any defective new product or the use of any such product,
including any damages for loss of time, inconvenience, or loss of use of any such product.
C. The original Manufacturer shall be solely responsible for the design, development, supply, production, and
performance of its products hereunder, and the protection of its trade name or names, if any. It assumes no
responsibility, for products modified or changed in any way by its agent or customer. Any such modifications
or changes to products sold by Seller hereunder shall make the product limited warranty null and void.
D. The Manufacturer shall be under no obligation to manufacture, sell, or supply, or to continue to manufacture,
sell or supply any of the Products
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Installation, Operation and Maintenance Manual(Rev.1)
Model RV600-AW Relief Valve Tester System Includes Operation Instructions for Optional Hydrostatic Test Pump, and POV
Circuit
Calder Testers Inc.9000 Monroe
Houston, Texas 77061Phone (713) 333-0226Fax: (281) 333-0252
Email: [email protected]
December 16, 2003
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TABLE OF CONTENTS
WARRANTY POLICY .................................................................................................................................. 3
DISCLAIMER............................................................................................................................................... 3
WARNING .................................................................................................................................................... 3
INSTALLATION, OPERATION AND MAINTENANCE MANUAL....................................................... 4
INSTALLATION.....................................................................................................................................................4
GENERAL INSTRUCTIONS................................................................................................................................................ 4SPECIFIC INSTRUCTIONS.................................................................................................................................................. 4
DESCRIPTION AND CAPABILITIES ................................................................................................................4
MAIN TABLE OPERATING INSTRUCTIONS .................................................................................................5CLAMPING A FLANGED VALVE ON THE HYDRAULIC TABLE ................................................................................ 5CLAMPING A THREADED END VALVE ON THE HYDRAULIC TABLE .................................................................... 6
REMOVING A VALVE FROM THE HYDRAULIC TABLE .............................................................................................6
TEST VESSEL SET UP......................................................................................................................................................... 6
SET UP FOR WATER TESTS........................................................................................................................................... 6SET UP FOR AIR TESTS.................................................................................................................................................. 7
REGULATED SEAT TIGHTNESS AND LOW VOLUME SET PRESSURE TESTS WITH AIR..................................... 7
HIGH VOLUME AIR SET PRESSURE TESTS................................................................................................................... 8
REGULATED SEAT TIGHTNESS AND LOW VOLUME SET PRESSURETESTS WITH WATER .............................. 9HIGH VOLUME WATER SET PRESSURE TESTS.......................................................................................................... 10
BLOW DOWN TESTS ........................................................................................................................................................ 11
SHELL TESTING NON-RELIEF VALVES WITH THE HYDRO-STATIC TEST PUMP AND DUAL TEST SYSTEM.............................................................................................................................................................................................. 11
SEAT TESTING NON-RELIEF VALVES WITH THE HYDRO-STATIC TEST PUMP AND DUAL TEST SYSTEM 12
REGULATED AIR SEAT TEST .........................................................................................................................................13
OPTIONAL POV CIRCUIT................................................................................................................................................. 14
TROUBLE SHOOTING GUIDE ............................................................................................................... 14 HYDRAULIC SYSTEM...................................................................................................................................................... 14
AIR/NITROGEN TEST SYSTEM....................................................................................................................................... 15
OIL/HYDRO TEST SYSTEM ............................................................................................................................................. 15
HYDRAULIC PRESSURE CHARTS........................................................................................................ 16 SYSTEM SCHEMATIC ............................................................................................................................. 17
DIGITAL INDICATOR INFO................................................................................................................... 18
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WARRANTY POLICY
CALDER TESTES INC., warrants all parts and equipment to be free from defects in workmanship and/or material under
normal use and service. All such parts and equipment supplied subject to this warranty, and the company's obligationthereunder, is limited to repairing or replacing at its factory, any part thereof which shall be returned, transportation charges
prepaid, within NINETY DAYS FROM THE DATE OF SHIPMENT, including any implied warranty of merchantability, or
fitness for any particular purpose, and which our examination shall disclose to our satisfaction to have been thus defective.This warranty is expressly in lieu of all other warranties expressed or implied, and of all obligations or liabilities on its parts for
damages following its use or misuse of the articles supplied. Any unauthorized disassembly or attempt to repair shall void this
warranty. No agent is authorized to assume for it any liability except as set forth above.
DISCLAIMER
No representations or warranties are made with respect to the contents of this INSTALLATION, OPERATION AND
MAINTENANCE MANUAL. Furthermore, CALDER TESTES INC. reserves the right, in keeping with its policy of
continued product improvement, to change this manual and to make changes, from time to time, in the contents thereof withoutobligation to notify any person, or agency, of such revision.
WARNING
Pressurized vessels and associated equipment are potentially dangerous. Only personnel trained in procedures that will assure
safety to themselves, to others and to the equipment should operate the apparatus described in this manual.
GROTH CORPORATION
GROTH CORPORATION
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INSTALLATION, OPERATION AND MAINTENANCE MANUAL
WARNING, The MODEL RV600-AW must not be operated until the system has been properly
commissioned and the operator(s) has been thoroughly trained in its operation as set out in this manual.
INSTALLATION
GENERAL INSTRUCTIONS
It is recommended that the RV600-AW should be placed close to its shop air supply, shop water supply
and its H.P. compressor.
An overhead hoist is recommended for installing and removing large valves on the Valve Tester.
The hydraulic system is sealed and fully charged at the factory.
SPECIFIC INSTRUCTIONS
1. CLOSE or turn OFF all valves, BACK OFF all regulators. (Counter clockwise)
2. Connect the shop air supply to the Air Supply Inlet. Connect the water supply to Water Supply Inlet.
Shop air pressure should be from 80 psi to 120 psi for proper operation of the Valve Tester. Shop water
pressure should be from 20 psi to 50 psi.
3. Connect the high-pressure test medium storage vessel manifold to the HP Storage Inlet.
4. Connect the outlet of the HP Compressor to the Compressor Inlet port on the back of the tester andstart the Compressor per the Manufacturers Manual.
DESCRIPTION AND CAPABILITIES
The Model RV600-AW is designed to perform these tests on the Main Table:
1. Regulated Seat Tightness and Low Volume Set Pressure tests with air.
2. High Volume Air Set Pressure Tests through the test vessel(s) up to 3500 psi.
3. Regulated Seat Tightness and Low Volume Set Pressure Tests with water through the test vessel(s)utilizing HP air over water up to 3500 psi.
4. High Volume Water Set Pressure tests through the test vessel(s) utilizing HP air over water up to 3500
psi.
5. Air and Water "Blow Down" Tests through the test vessel(s) up to the flow capacity of the HP test
medium source.
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MAIN TABLE OPERATING INSTRUCTIONS
CLAMPING A FLANGED VALVE ON THE HYDRAULIC TABLE
1. Clean the O-Ring Seal Plate and flange of the valve to be tested of dirt, debris, scale or other matter.
2. If the valve to be tested is 1-1/2” or smaller, place the Adapter Plate centered on the O-Ring Seal Plate
with its O-Rings up. Place the valve to be tested centered on the Adapter Plate. Proceed to Step # 4.
3. Place the flanged relief valve to be tested in the CENTER of the O-Ring Seal Plate. (Install the valvewith the outlet pointed away from the operator or other personnel.)
DO NOT SLIDE THE VALVE ACROSS OR DROP THE VALVE ON THE O-RINGS AS
DAMAGE TO THE O-RINGS MAY OCCUR, GREATLY REDUCING THEIR LIFE.
4. Place the Clamp Arms on top of the inlet flange of the valve to be tested with the ends of the ClampArms extended onto the flange at least as far as the center of the bolt hole circle.
TAKE CARE NOT TO DROP OR SLIDE THE CLAMPING ARMS ON THE O-RINGS ASDAMAGE TO THE O-RINGS MAY OCCUR, GREATLY REDUCING THEIR LIFE.
5. Turn the Hydraulic Clamp Pressure Drain switch to the HOLD position.
6. DEPRESS the Rapid Advance Pre-Clamp Button until the Hydraulic Rams are fully extended. This
will clamp the valve to be tested firmly in place.
7. BACK OFF the Hydraulic Clamp Pressure Regulator counter-clockwise until resistance is
encountered.
8. Turn the Hydraulic Pump Valve to the CLAMP position.
9. Find the appropriate hydraulic clamping pressure for the valve being tested by referring to the
Hydraulic Pressure Chart. Bring up the hydraulic pressure by slowly turning the Hydraulic ClampPressure Regulator clockwise until the required pressure is shown on the Hydraulic Clamp Pressure
Gauge. (For valves of 1-1/2” and smaller, use hydraulic pressures set out for 2" valves as shown on the
Hydraulic Pressure Chart.)
10. Turn the Hydraulic Pump Valve to the OFF position.
NOTE 1: The pressures in the hydraulic pressure chart as theoretical minimums, can, and should be exceeded slightly. If, during a test, the hydraulic pressure increases while the hydrostatic
pressure is increased STOP IMMEDIATELY and increase the hydraulic pressure by turning theHydraulic Pump Valve ON and adjusting the Hydraulic Clamp Pressure Regulator clockwise.
EXPLANATION: The tested valve’s internal pressure can create force that approaches or exceeds the
hydraulic system’s capability to maintain a seal. As this event happens, the valve begins to move away
from the sealing O-Rings. This movement is manifested by a slight increase in hydraulic pressure, whichwill be indicated on the Hydraulic Clamp Pressure Gauge. Continuation of this movement will result in
blown out O-Rings and loss of test pressure.
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NOTE 2: If several of the same size and pressure valves are to be tested sequentially, theHydraulic Clamp Pressure Regulator need not be readjusted each time; simply skip steps 7 and 9
above.
CLAMPING A THREADED END VALVE ON THE HYDRAULIC TABLE
The Model RV600-AW may include a Threaded Adapter Plate with a 1-1/2" NPT nipple in the center and
a set of reducing couplings to accept the NPT threads of male valves, 1/2" through 2".
1. Place the Threaded Adapter Plate centered on the O-Ring Seal Plate and clamp in place using the same
procedure for clamping a flanged valve to 3500 psi on the Hydraulic Clamp Pressure Gauge.
2. Assemble and install the required nipples and/or bushings to fit the screwed-end valve being tested.
3. Attach the valve to be tested and proceed with the desired test.
4. To remove a valve, follow the removal instructions under REMOVING A VALVE FROM THE
HYDRULIC TABLE.
REMOVING A VALVE FROM THE HYDRAULIC TABLE
1. If another similar valve is to be tested and it is desirable to preserve the charge in the test vessel(s),
CLOSE the Test Table Isolation Valve(s).
2. OPEN the Test Table Drain Valve and ensure that all test pressure is drained from the valve.
3. Turn the Hydraulic Clamp Pressure Drain switch to the RELEASE position until the Hydraulic ClampPressure Gauge pressure drops to 0 psi, and the Hydraulic Rams are retracted, then Turn the Hydraulic
Clamp Pressure Drain switch to the HOLD position.
4. Retract the Clamp Arms.
DO NOT SLIDE THE VALVE ACROSS OR DROP THE VALVE ON THE O-RINGS AS
DAMAGE TO THE O-RINGS MAY OCCUR, GREATLY REDUCING THEIR LIFE.
5. Remove the valve from the O-Ring Seal Plate.
TEST VESSEL SET UP
The test vessel set up procedure is needed in order to configure the tester for water or air tests. The testvessel accumulators must be used for all water tests. When the test vessel(s) are filled with water to the
level of the test table they will hold approximately HALF their air volume each.
SET UP FOR WATER TESTS
For water tests the water test vessel(s) need to be filled to the level of the test table. Make sure that all
pressure is relieved from all test vessels.
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1. Vent the table and the test vessel(s) to be filled of all pressure, OPEN the Test Table Isolation Valve,
and remove the valve from the test table.
2. CLOSE the Test Table Drain Valve and OPEN the Test Vessel Vent Valve.
3. OPEN the Supply Water Block Valve and the test vessel(s) will begin to fill until water overflows the
test table, at this point, CLOSE the Supply Water Block Valve and see if the water level remains at the
test table.
EXPLANATION: As water flows into the bottom of the line from the test vessels to the table the
air in the system is evacuated out of the table and the Test Vessel Vent Valve. This air will flow
faster from the large port in the table than it will from the Test Vessel Vent Valve at the top of thetest vessel. This allows the water to appear at the opening of the table before it has reached the
same level in the test vessel.
4. If needed, OPEN the Supply Water Block Valve repeatedly until water remains at the level of the test
table.
5. CLOSE the Test Vessel Vent Valve. At this point, the tester is ready for any of the water tests.
SET UP FOR AIR TESTS
The test vessel set up for air tests consist of OPENING the Test Table Isolation Valve(s). If the tester has
just previously been set up for a water test it is required that the test vessel and line to the table be drained
before an air test may be performed. This is accomplished by the following procedure:
1. Clamp a blind flange in the test table to approximately 1000 psi.
2. Pressurize (or reduce the pressure in) the test vessel(s) to be drained to 100 psi.
3. OPEN the Test Table Isolation Valve.
4. OPEN the Test Table Drain Valve until the water has been drained then CLOSE.
5. Repeat 4 until no more water flows from the Test Table Drain port.
6. OPEN the Test Table Drain Valve and the Test Vessel Vent Valve until the air pressure is lost thenCLOSE both valves.
7. Once the pressure is gone, and the blind flange is removed, the Blow Down Valve may be OPENEDcarefully to “dry” the system.
REGULATED SEAT TIGHTNESS AND LOW VOLUME SET PRESSURE TESTS WITH AIR
This test is carried out without the use of the test vessel.
This procedure begins with all valves CLOSED and NO PRESSURE on the Table.
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1. CLOSE Test Table Isolation Valve(s). If the test vessel is charged from a previous test there is no
need to empty this pressure. These tests may be performed no matter what pressure is in the testvessel.
2. Follow the instructions for CLAMPING A FLANGED VALVE ON THE HYDRAULIC TABLE.
3. Connect the appropriate Test Gauge to the Table Gauge Port.
4. BACK OFF the HP Air Regulator and OPEN the HP Air Inlet Valve.
5. OPEN the Table Inlet Valve.
6. Slowly TURN the HP Air Regulator clockwise until the pressure reached the seat tightness test
pressure (usually 90% of Set Pressure).
7. Measure the seat leakage per your procedure or use the available API 527 seat leakage fixtures.
8. At this point, the seat tightness test is complete. If it is desired to lift the valve with the limited flowrate available through the regulator, remove any fixture on the outlet of the valve and continue to
increase the pressure on the inlet of the valve with the HP Air Regulator until the valve lifts.
9. Quickly BACK OFF the HP Air Regulator.
10. To remove the valve:
A. CLOSE the HP Air Inlet Valve.B. Completely BACK OFF the HP Air Regulator.
C. OPEN the Test Table Drain.
D. CLOSE the Table Inlet Valve.E. Follow the instructions in REMOVING A VALVE FROM THE HYDRAULIC TABLE.
HIGH VOLUME AIR SET PRESSURE TESTS
These tests are conducted using the test vessel up to 3,500 psi.
This procedure begins with no pressure in the test vessel, the Test Table Isolation Valve OPEN and
all other valves CLOSED or OFF.
1. Follow the SET UP FOR AIR TEST instructions in the TEST VESSEL SET UP section.
2. Follow the instructions for CLAMPING A FLANGED VALVE ON THE HYDRAULIC TABLE.
3. Connect the appropriate Test Gauge to the Table Gauge Port.
4. While observing the Test Gauge, OPEN the Blow Down Valve until the valve being tested lifts then
quickly CLOSE.
5. As the valve lifts, note the lift pressure on the Test Gauge.
6. CLOSE the Test Table Isolation Valve(s).
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7. OPEN the Test Table Drain Valve.
8. Follow the instructions in REMOVING A VALVE FROM THE HYDRAULIC TABLE.
This procedure begins with pressure in the test vessel, the Test Table Isolation Valve, and all other
valves CLOSED or OFF, and no valve on the test table.
1. Follow the instructions for CLAMPING A FLANGED VALVE ON THE HYDRAULIC TABLE.
2. Connect the appropriate Test Gauge to the Table Gauge Port and OPEN Table Gauge Port Valve.
3. If the pressure in the test vessel is higher than the anticipated set pressure of the valve to be tested
OPEN the Test Vessel Vent Valve until the pressure is lower than the anticipated set pressure.
4. When the pressure in the test vessel is lower than the anticipated set pressure of the valve being tested
OPEN the Test Table Isolation Valve(s).
NOTE 3: It is possible to equalize the pressure in the test vessel with the pressure on the table
before OPENING the Test Table Isolation Valve. This reduces the wear on the Test TableIsolation Valve and will indicate if the valve to be tested will lift unexpectedly, because its set pressure is lower than anticipated, when the Test Table Isolation Valve is OPENED. This is
accomplished by simultaneously OPENING the Table Inlet and Test vessel Fill valves slowly
until the pressure in the test vessel equalizes with the pressure on the table. After equalization
occurs, CLOSE the Table Inlet and Test vessel Fill valves.
5. While observing the Test Gauge, OPEN the Blow Down Valve until the valve being tested lifts then
quickly CLOSE.
6. As the valve lifts note the lift pressure on the Test Gauge.
7. CLOSE the Test Table Isolation Valve(s).
8. OPEN the Test Table Drain Valve.
9. Follow the instructions in REMOVING A VALVE FROM THE HYDRAULIC TABLE.
REGULATED SEAT TIGHTNESS AND LOW VOLUME SET PRESSURETESTS WITH
WATER
These tests may only be performed with the test vessel using HP air over water, up to 3500 psi.
This procedure begins with no pressure in the test vessel, the Test Table Isolation Valve OPEN and
all other valves in the CLOSE or OFF position.
1. Follow the SET UP FOR WATER TEST instructions in the TEST VESSEL SET UP section.
2. Follow the instructions for CLAMPING A FLANGED VALVE ON THE HYDRAULIC TABLE.
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3. Connect the appropriate Test Gauge to the Table Gauge Port and OPEN Table Gauge Port Valve and
sensor port valve.
4. BACK OFF the HP Air Regulator and OPEN the HP Air Inlet Valve.
5. OPEN the Test vessel Fill valve.
6. Slowly Turn the HP Air Regulator clockwise until the pressure reached the seat tightness test pressure
(usually 90% of Set Pressure).
7. Measure the seat leakage per your procedure or use the available API 527 seat leakage fixtures.
8. At this point, the seat tightness test is complete. If it is desired to lift the valve with the limited flow
rate available through the regulator, remove any fixture on the outlet of the valve and continue to
increase the pressure on the inlet of the valve with the HP Air Regulator until the valve lifts.
9. Quickly BACK OFF the HP Air Regulator.
10. To remove the valve:
A. CLOSE the HP Air Inlet Valve.B. Completely BACK OFF the HP Air Regulator.C. CLOSE the Test Table Isolation Valve
D. OPEN the Test Table Drain.
E. CLOSE the Test vessel Fill Valve.
F. Follow the instructions in REMOVING A VALVE FROM THE HYDRAULIC TABLE.
HIGH VOLUME WATER SET PRESSURE TESTS
This procedure begins with no pressure in the test vessel, the Test Table Isolation Valve OPEN, and
all other valves CLOSED or OFF.
1. Follow the SET UP FOR WATER TEST instructions in the TEST VESSEL SET UP section.
2. Follow the instructions for CLAMPING A FLANGED VALVE ON THE HYDRAULIC TABLE.
3. Connect the appropriate Test Gauge to the Table Gauge Port and OPEN Table Gauge Port Valve and
sensor port valve.
4. While observing the Test gauge, OPEN the Blow Down Valve until the valve being tested lifts then
quickly CLOSE.
5. As the valve lifts, note the lift pressure on the Test Gauge.
6. CLOSE the Test Table Isolation Valve(s).
7. OPEN the Test Table Drain Valve.
8. Follow the instructions in REMOVING A VALVE FROM THE HYDRAULIC TABLE.
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This procedure begins with water and pressure in the test vessel, the Test Table Isolation Valve and
all other valves CLOSED or OFF, and no valve on the test table.
1. Clamp the valve to be tested.
2. If the pressure in the test vessel is higher than the anticipated set pressure of the valve to be tested
OPEN the Test Vessel Vent Valve until the pressure is lower than the anticipated set pressure.
3. When the pressure in the test vessel is lower than the anticipated set pressure of the valve being testedOPEN the Test Table Isolation Valve(s).
NOTE 3: It is not possible to equalize the pressure in the test vessel with the pressure on the table before opening the Test Table Isolation Valve. Following the procedure to equalizing the pressure
for air tests would introduce air to the inlet of the valve being tested.
4. As the valve lifts note the lift pressure on the Test Gauge.
5. CLOSE the Test Table Isolation Valve(s).
6. OPEN the Test Table Drain Valve and return to the CLOSE position as soon as the table pressure goesto zero.
7. Follow the instructions in REMOVING A VALVE FROM THE HYDRAULIC TABLE.
BLOW DOWN TESTS
These tests are conducted using the test vessel up to 3,000 psi.
Blow down tests are conducted exactly like the High Volume Set Pressure Tests except that when the
valve lifts the operator will continue to OPEN the Blow Down valve until the pressure on the inlet of the
valve being tested reaches 110% of the set pressure. At this point, the Blow Down Valve is CLOSEDallowing the disk to settle back on the seat at the reseat pressure.
SHELL TESTING NON-RELIEF VALVES WITH THE HYDRO-STATIC TEST PUMP AND
DUAL TEST SYSTEM
This test is carried out without the use of the test vessel.
This procedure begins with all valves CLOSED and NO PRESSURE on the Table.
1. CLOSE Test Table Isolation Valve(s). If the test vessel is charged form a previous test there is no
need to empty this pressure. These tests may be performed no matter what pressure is in the testvessel.
2. Clamp the valve on the test table and OPEN the valve to be tested.
3. Bolt a blind flange on the top flange and connect the top pressure line.
4. Connect the appropriate Test Gauge to the Bottom Gauge Port and OPEN Table Gauge Port Valve.
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5. Connect the appropriate Test Gauge to the Top Gauge Port and OPEN Top Gauge Port Valve.
6. OPEN the Bottom Fill, and Top Drain valves.
7. CLOSE the Top Fill and Bottom Drain valves.
8. OPEN the Supply Water Block Valve to fill the test valve with water, as indicated by a steady flow of
water from the top vent port.
9. CLOSE the Top Drain valve.
10. BACK OFF the Test Regulator and OPEN the Test Pump valve.
11. Adjust the Test Regulator until the desired pressure is on the test valve.
12. CLOSE the Bottom Fill, Supply Water Block Valve, and the Test Pump valves.
13. Open the System Drain valve until test pressure is relived from the system gauge, then close the
system drain.
NOTE 3: At this point, no flow of test water should show through the valve, test pressure will show on
the top and bottom test gauges, and the system gauge will show zero. If the valve is holding steady test
pressure on the top and bottom test gauges there ARE no leaks in the shell of the valve. If the test
pressure does show pressure decay there MAY be a leak in the shell of the valve. Other causes of pressure decay include leaks in the test system, and/or temperature effects, and/or air trapped in the body
that is being absorbed into the test water at high pressure. A close inspection of the valve body may
confirm a leak in the shell or deny a leak despite an indication of pressure decay on the test gauges.
14. To remove test pressure, OPEN the Bottom Drain Valve.
SEAT TESTING NON-RELIEF VALVES WITH THE HYDRO-STATIC TEST PUMP AND
DUAL TEST SYSTEM
This test is carried out without the use of the test vessel.
This procedure begins with all valves CLOSED and NO PRESSURE on the Table.
1. CLOSE Test Table Isolation Valve(s). If the test vessel is charged form a previous test there is no
need to empty this pressure. These tests may be performed no matter what pressure is in the testvessel.
2. Clamp the valve on the test table and OPEN the valve to be tested.
3. Bolt a blind flange on the top flange and connect the top pressure line.
4. Connect the appropriate Test Gauge to the Bottom Gauge Port and OPEN Table Gauge Port Valve.
5. Connect the appropriate Test Gauge to the Top Gauge Port and OPEN Top Gauge Port Valve.
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13
6. OPEN the Bottom Fill, and Top Drain valves.
7. CLOSE the Top Fill and Bottom Drain valves.
8. OPEN the Supply Water Block Valve to fill the test valve with water, as indicated by a steady flow of
water from the top drain port.
9. CLOSE the valve to be tested
10. To test the bottom port, OPEN Top B/D valve, CLOSE the Top Vent valve and skip to step 12.
11. To test the top port, OPEN Bottom B/D, and the Top fill valve, CLOSE the Top Vent valve and skip
to step 12.
12. BACK OFF the Test Regulator and OPEN the Test Pump valve.
13. Adjust the Test Regulator until the desired pressure is on the test valve.
14. CLOSE the Test Pump, Supply Water Block Valves and the Top Fill (if testing the top port), or theBottom Fill (if testing the bottom port) valves.
15. Open the System Drain valve until test pressure is relived from the system gauge, then close the
system drain.
NOTE 3: At this point, no flow of test water should show through the top B/D port if the bottom seat is
being tested or the bottom B/D port if the top seat is being tested. Test pressure will show on the top or
bottom test gauges, and the system gauge will show zero. If the valve is holding steady test pressure onthe top or bottom test gauges there ARE no leaks in the seat of the valve. If the test pressure does show
pressure decay there MAY be a leak in the seat of the valve. Other causes of pressure decay include leaks
in the test system, and/or temperature effects, and/or air trapped in the body that is being absorbed into thetest water at high pressure. A close inspection of the valve body may also indicate a leak in the shell that
will cause pressure decay during a seat test.
16. To remove test pressure, OPEN the Bottom, or Top Drain Valves.
REGULATED AIR SEAT TEST
1. CLOSE Test Table Isolation Valve(s). If the test vessel is charged form a previous test there is no
need to empty this pressure. These tests may be performed no matter what pressure is in the test
vessel.
2. Clamp the valve on the test table and CLOSE the valve to be tested.
3. Bolt a blind flange on the top flange and connect the top pressure line.
4. Connect the appropriate Test Gauge to the Bottom Gauge Port and OPEN Table Gauge Port Valve.
5. Connect the appropriate Test Gauge to the Top Gauge Port and OPEN Top Gauge Port Valve.
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6. To test the bottom port, OPEN Top B/D valve, CLOSE the Top Vent valve and skip to step 8.
7. To test the top port, OPEN Bottom B/D, and the Top fill valve, CLOSE the Top Vent valve and skip
to step 8.
8. BACK OFF the Air Test Regulator and OPEN the Air Test valve.
9. Adjust the Air Test Regulator until the desired pressure is on the test valve.
10. CLOSE the Air Test, valve and the Top Fill (if testing the top port), or the Bottom Fill (if testing the
bottom port) valves.
11. Open the system drain valve until the system gauge shows zero and close the system drain.
NOTE 4: At this point, no flow of air should show through the top B/D port if the bottom seat is beingtested or the bottom B/D port if the top seat is being tested. Test pressure will show on the top or bottom
test gauges, and the system gauge will show zero.
OPTIONAL POV CIRCUIT
The optional POV test circuit provides a valved outlet that when connected to the pilot port of a relief
valve will apply the same pressure to the pilot port that the inlet of the valve sees. After clamping thevalve and connect the pilot port on the valve to be tested to the pilot port on the top of the hydraulic panel
with a line of appropriate pressure rating (not provided with the tester). OPEN the Aux Pilot Valve and
proceed with the test as normal. At the conclusion of the test, remove pressure form the inlet of the valveas usual and CLOSE the Aux Pilot Valve before removing the line from the valve to the tester.
TROUBLE SHOOTING GUIDE
HYDRAULIC SYSTEM
PROBLEM: One ram will not extend.
SOLUTION: Look for loose hydraulic connection or fitting or a gross leak around a ram piston.
PROBLEM: Rams will not extend.
SOLUTION: Low hydraulic oil level.Pump check valves leaking or inoperative.
Leaking couplings or connections.
PROBLEM: Hydraulic system will not maintain pressure causing rams to retract.
SOLUTION: Hydraulic Clamp Pressure Drain switch not closed or leaking.
Pump check valves leaking or inoperative.Leaking coupling or connections.
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15
PROBLEM: Pump not operating.
SOLUTION: No air pressure.
Pump piston frozen; rebuild or replace pump.
AIR/NITROGEN TEST SYSTEM
PROBLEM: Test plate not sealing.
SOLUTION: Clean foreign matter on sealing surfaces.
Valve off center on seal plate.
Damaged O-Ring; replace.
PROBLEM: Unable to apply test pressure.
SOLUTION: No test air or nitrogen supply.
Regulator inoperative, rebuild or replace.
OIL/HYDRO TEST SYSTEM
PROBLEM: No test pressure with Pump running.
SOLUTION: Oil/Water supply cut off, restore supply.
PROBLEM: Pump not running
SOLUTION: No air pressure to unit, restore air supply
Frozen pump piston, remove the top cover from the test pump and depress the piston, then replace the cover and retry.
Rebuild of replace pump.
PROBLEM: System will not maintain pressure.
SOLUTION: CLOSE System Drain Valve. If the System Drain Valve is leaking, rebuild or
replace. Faulty check valve in the test pump outlet, replace check valve O-rings.
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16
HYDRAULIC PRESSURE CHARTS(Hydraulic Pressure required in psi)
Model RV600-AW with 4 ea. 30 ton Hydraulic Rams
Inlet
FlangeANSI Pressure Rating
Size(in) 150 300 600 900 1500 25002 209 456 912 1572 1735 1735
2 1/2 276 599 1198 2140 2294 2294
3 347 751 1 502 2130 2840 2840
4 508 1093 2149 3080 4107
5 678 1444 2798 4100 5467
6 852 1808 3440 5096
8 1186 2495 6995
10 1409 2904
12 1449
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S Y S T E M S
C H E M A T I C
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Model 900-6-AW
Model
Q 2 2 3
J-Tube Style Multi-Purpose SRV Tester Ai r and Air over Water Test
Specifications
For Flanged or Threaded Valves
Weight: 3200 Lbs. Size: 99” W x 30” D x 84” H
max
Model FTS11Q223 Multi-Purpose Safety ReliefValve Test System comes complete with thecontrols and test vessel required to correctly testrelief and safety relief valves for seat tightness, setand reseat pressure with either air or water. The“J-Tube” design and test vessel allow for the highflow rates required for valid set and reseat testswith both air and water.
Standard Features:
5 Gallon 3500 psi ASME codeElectroless Nickel Plated Test Vesselfor air or water service
1 ½” 3500 psi Stainless Steel linefrom the test vessel to the test table
1 ½” 3500 psi Stainless Steelisolation valve between the testvessel and the test table
Threaded Adapters for ½” to 2” maleinletHigh Flow Cv 25 4500 psi Stain lessSteel inlet valve to the test vessel
Hydraulic Clamp Table with safetyinterlock to prevent loss of clampingforce
Full set of 6” analog test gauges .25% FSaccuracy 25 psi to 3000 psi usable range
Available Optional Features:
Larger test vessel up to 30 gallonHigher Pressure test system up to 6000 psiStainless Steel test vesselLarger line from the test vessel to the test table
Larger High Flow inlet valveDigital test guages
Available Optional Equipment:
4500 psi Air compressor with DOT or ASMEcode storageData Acquisit ion SystemMuffler/Water Capture system
API 527 seat leakage f ix tures Addi tional Inter locks
FTS11Q-2-2-3
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Water Capture/Muffler SystemPortable Hydraulic Lift / SS Drum / Water Capture and High Flow Muffler for Air Tests
Standard Features:Stainless Steel Drum
High Flow Muffler and Relief ValvePortable Hydraulic Lift
Aluminum Flange and Thread Adapters
Water Drain Valve
Included with Data Acquisition
System:Camcorder Mount
Fiber-Optic light source and guide
Available with SS Flange and Thread
Adapters
GROTH Testers, Inc. has designed a portable Water Capture/Muffler system for
use with our Relief Valve Test Systems. This system has a hydraulic lift to
adjust for the height of the RV and includes flange adapters that clamp to the
outlet flange and threaded adapters for threaded outlet valves. The System
includes a SS capture/surge drum and high flow muffler to reduce the sound of
air relief valve tests. A relief valve is included to prevent over pressure of the
drum during test. The drum attaches firmly to the outlet of the valve during the
test and is designed to resist the reactive forces of the relief valve during lift.
When furnished with the Data Acquisition System the camcorder mount and
fiber optic light source for water tests are mounted on the drum so that the
camcorder may view the outlet of the valve through an included sight glass.
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Model 5404-05V3 Vertical Compressor Package
Standard Technical Specifications
• 5 HP 220/440 VAC 3 Ph. Electric motor
• 5000 psi maximum pressure
• 3 stage compressor
• 3450 PRM
• 13 amps Current draw at final Pressure
• 5 SCFM delivery flow at maximum pressure
• Low oil pressure/ High Temp shut off
•
Adjustable final pressure switch• Full Instrumentation
Vertical Packages Features
• Eye level controls.
• Reduced floor space requirements.
• Convenient for routine maintenance.
•
Cooling tubes and finned heads stay cleaner because they are not at floor level.
• All components housed inside compressor enclosure for added safety.
• Built-in auto condensate drain system and muffler/reservoir.
• Insulated sound attenuation
• Against-the-wall installation.
• Stainless steel operation and accessory panel.
• Gasketed doors with spring-loaded latches eliminate vibration clatter.
• Formed metal construction provides an appealing appearance, added strength and reduced package
noise.
• Piston rings on all compressor stages provide improved efficiency throughout the entire pressure
range.
• Final separator.
•
Pressure maintaining valve. • Air inlet restriction indicator.
FTS140-6-6000-Z
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MODEL # NO. OF BOTTLES MAX PRESSURE OPTIONS
3000 PSI6000 PSI
EXAMPLE
Indicates a compressor with 12 bottles and a maximum pressure of 3000 psi. (as shown in picture on front)
22 0 033 0 0
03060912
Specifications subject to change without notice.
1
1
SPECIFICATIONS
Compressor = 5.6 CFM @ 3000 - 5 H.P.
7.0 CFM @ 6000 - 7.5 H.P.
Receiver 9.0 cu. ft.(6 Bottles) = 1850 SCF @ 3000 psi
UTILITY REQUIREMENTS
Electrical Power = 208/230/460 VACSingle Phase/3 Phase
50/60 Hz
140
0044 0 011
0 = No Options1 = Air DryerZ = Special
00
Weight 1,900 LB
38"
6"
60"
70"15"(TYP)
For easy ordering, select proper model number
Groth Corporation, a Continental Disc company, Stafford, TX, USA509
SPECIFICATIONS
HOW TO ORDER
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■
Pressure/Vacuum Relief ValveTest Stand
■ Pilot Valve Test Stand
■ Pneumatic/Hydraulic Pressure ReliefValve Test Stand - Manual orAutomatic Clamping
■ Compressor and Air Receiver
a Continental Disc Company
VALVE TEST STANDS
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Since 1960, the Groth name has been synonymous with the repair, manufacture or testing of valves. thisvast experience lead us into the venture of manufacturing valve test equipment. Simple in design; easy touse; inexpensive to maintain, included with these principals, the standard modesl discussed in thisbrochure offer the user many years of trouble-free operation.
Groth can also provide the following:• Optional digital interface, critical valve data can be captured with appropriate software• Optional digital pressure gauges feature data logging capability and a serial interface for data
downloading• Units designed to meet your specific requirement• Start-up assistance
The final inspection of any new or repaired valve is an actual test in accordance with approved standardsand codes. To do this, you need the best available test equipment.
We welcome you to visit our Stafford, Texas facility, where will be pleased to demonstrate various modelsof test stands under actual conditions.
STANDARD■ Pressure/Vacuum testing
■ Dial gages
■ Flowmeters
■ Manometers
■ Pressure vessel directly under test flange
for smooth regulated pressure or vacuum
■ Heavy steel construction
■ SS tubing
■ Mounting adapters and gaskets included
OPTIONS■ Digital Gages
■ Skid Mounted
SERIES 200 TEST STANDSThe Groth Series 200 test stand contains all valves and
gages necessary to accurately verify settings for bothpressure and vacuum conditions. Seat leakage is moni-tored using flow meters rangng from 0.1 - 100 SCFH.
The Series 200 is designed to assist in meeting therequirements of the 1990 Clean Air Act Amendments.
MODEL 220
INTRODUCTION
Groth Corporation, a Continental Disc company, Stafford, TX, USA 502
SERIES 200 TEST STANDS
Pressure / Vacuum Relief Valve
MODEL 210
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For easy ordering, select proper model number
200
0 = No Special OptionsZ = Special Options
EXAMPLEIndicates a Model 210, hydraulic clamps, digital and dial gages, and no other options.
1 30 3
1 = Flange bolting 1 = Dial2 = Digital3 = Both
0
Specifications subject to change without notice.
2
TEST SYSTEM SPECIFICATION
Valve size range = 2" - 24"MAWP = 30 psigTest Pressure = 12 PSI Vacuum to
15 PSI Pressure
UTILITY REQUIREMENTS
Compressed Air = 80 - 150 psig1/2" nominalline size
Electric Power = 100/115/230 VACSingle Phase50/60 Hz10 Amp
Depth 43"Weight 1,600 LB
Depth 32"Weight 1,200 LB
66"
36"
58"
SPECIFICATIONS
Model 200-3
Model 200-1
HOW TO ORDER
MODEL # CLAMPING GAGES OTHER
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Note: Dome Simulation Vessel not shown inabove picture. Contact Groth Corporation
for current drawings and layouts.
STANDARD■ Easy setup and installation
■ 4" dial test gages
■
Up to 1500 psi test pressure■ SS tubing and valves
■ Moisture removal filter
■ Dome simulation vessel
■ Tank simulation vessel
OPTIONS■ Digital gages with precision of 0.07%
■ Custom designed to meet your needs
PILOT VALVE TEST STAND
The Groth Pilot Valve Test Stand is used to setand test the pilot valve independent of themain pressure relief valve. The 1990 Clean AirAct Amendments mandate leak testing of allpressure relief valves to insure that leakagerates are within acceptable levels. The abilityto perform in house pilot operated relief valvesetting and testing will enable the individualplant to expedite the process and retain com-plete control of records.
Detailed specifications are available fromGroth Products Group.
MODEL 220
Groth Corporation, a Continental Disc company, Stafford, TX, USA 504
PILOT VALVE TEST STAND
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For easy ordering, select proper model number
MODEL # GAGES OTHER
150 Low pressure testing160 High pressure testing
0 = NoneZ = Other
EXAMPLE
Indicates a Model 150, low pressure testing, with manometers, and no options.
5 10 0
1 = Manometers(used only for IN WC)
2 = Dial3 = Digital4 = Dials and Digital
Specifications subject to change without notice.
1
TEST SYSTEM SPECIFICATION
Test Pressure — Model 150 = 2” WC - 20 PSIG
Test Pressure — Model 160 = 15 - 1500 PSIG
UTILITY REQUIREMENTSCompressed Air or Nitrogen — Model 150 = 150 PSI
— Model 160 = 2000 PSI
Electric Power (Digital Gages) = 100/115/230 VAC
Single Phase50/60 Hz
5 Amp
43"
34"
11"
Groth Corporation, a Continental Disc company, Stafford, TX, USA
SPECIFICATIONS
HOW TO ORDER
505
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STANDARD■ Easy setup and installation
■ 6" dial test gages
■
1/2" thru 10" valve mountings■ Up to 2000 psi test pressure
■ SS tubing & valves
■ 360 degree accessibility
OPTIONS■ Manual or hydraulic clamping with
safety interlock
■ Digital gages with precision of 0.07%
■ High pressure compressor and
air receiver■ Skid mounted
SERIES 100 — PRESSURERELIEF VALVE TEST STAND
All Groth pressure relief valve test stands com-bine extremely high accuracy with maximumproductivity in testing and determining set pres-sure.
Groth provides various options to meet yourtesting needs. Mounting of valves is quick andsafe with either flange bolting, manual or auto-matic clamping. The test stands have easy toread dial or digital pressure gauges.
Test stand construction is robust and is basedon almost forty years of relief valve assemblyand testing.
Manual or Automatic Clamping
Groth Corporation, a Continental Disc company, Stafford, TX, USA 506
SERIES 100 TEST STANDS
Pressure Relief Valve - Pneumatic / Hydraulic
Bolt on Unit
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For easy ordering, select proper model number
MODEL # CLAMPING GAGES OTHER
110 Pneumatic, Single stump111 Pneumatic & Hydraulic,
Single stump120 Pneumatic & Hydraulic,
Dual stump
0 = NoneZ = Other
EXAMPLE
Indicates a Model 110, Pneumatic SRV test stand, Manual clamps, Digital gages, and no other options.
1 20 2
1 = Bolt On2 = Manual clamps3 = Hydraulic clamps
1 = Dial2 = Digital3 = Both
0
Specifications subject to change without notice.
1
TECHNICAL SPECIFICATIONS
Valve size range = 1" 2500# through10" 150# flanged
1/2" through 1-1/2"threaded
Air Test Pressure = 15-2750 psig
Water Test Pressure = 15-2750 psig
UTILITY REQUIREMENTS/CONNECTIONS
High Pressure Air = 3000 psig
Low Pressure Air = 60 - 150 psig1/2" nominal size
Electric Power = 100/115/230 VAC
Single Phase50/60 Hz5 Amp
Water = 20-60 psig
Depth 33"Weight: Single Stump — 1250 lb
Dual Stump — 2000 lb
62"
36"
72"
98"
Groth Corporation, a Continental Disc company, Stafford, TX, USA507
SPECIFICATIONS
HOW TO ORDER
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Note: Compressor and Bottle Rack can be modifiedto meet your specific needs (i.e. higher pressures).Contact Groth for additional information includingdimensions and layouts.
STANDARD
■ Compressor generates 5 CFM @ 3000 psig
■ 5 hp, TEFC motor
■ Nema 4 A.T.L. motor starter
■ Automatic On/Off pressure switch
■ Low oil level switch
■ Automatic condensate drain
COMPRESSOR AND
AIR RECEIVERGroth’s test stands are designed for high and lowpressure testing. Upon request, Groth can fur-nish a compressor system for your testingneeds. All components and adapters are includ-ed. Standard compressors and air receivers willtest valves up to 2000 psig.
SPECIAL FEATURES All Compressor units are completely self con-tained. Each unit is designed to provide asubstantial volume of high pressure air whenneeded. This eliminates the long waiting periodif a low volume compressor supplies air directlyto the valve test stand.
Groth Corporation, a Continental Disc company, Stafford, TX, USA 508
COMPRESSOR and AIR RECEIVER
Model 140
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MODEL # NO. OF BOTTLES MAX PRESSURE OPTIONS
3000 PSI6000 PSI
EXAMPLE
Indicates a compressor with 12 bottles and a maximum pressure of 3000 psi. (as shown in picture on front)
2 03 0
03060912
Specifications subject to change without notice.
1
SPECIFICATIONS
Compressor = 5.6 CFM @ 3000 - 5 H.P.
7.0 CFM @ 6000 - 7.5 H.P.
Receiver 9.0 cu. ft.(6 Bottles) = 1850 SCF @ 3000 psi
UTILITY REQUIREMENTS
Electrical Power = 208/230/460 VACSingle Phase/3 Phase
50/60 Hz
140
04 01
0 = No Options1 = Air DryerZ = Special
0
Weight 1,900 LB
38"
6"
60"
70"15"(TYP)
For easy ordering, select proper model number
Groth Corporation, a Continental Disc company, Stafford, TX, USA509
SPECIFICATIONS
HOW TO ORDER
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a Continental Disc Company
13650 N. Promenade Blvd.Stafford, Texas 77477
tel (281) 295-6800 fax (281) 295-6999
www.grothcorp.com