2100-ins-324a

GE Power SystemsGenerator

Reformatted, March 1999 with2100INS324A

Permission of Electric Machinery

These instructions do not purport to cover all details or variations in equipment nor to provide for every possiblecontingency to be met in connection with installation, operation or maintenance. Should further information be desired orshould particular problems arise which are not covered sufficiently for the purchasers purposes the matter should bereferred to the GE Company. 1999 GENERAL ELECTRIC COMPANY

Field Ground Detection SystemDescription Installation Operation

Adjustments MaintenanceRenewal Parts Ordering Information

2100INS324A Field Ground Detection System

2

NOTICE

It is our sincere hope that this publication will help you to get your newEM equipment unloaded, installed, and operating promptly and success-fully. To insure future success, please read this manual carefully. Observeall notes, cautions, and warnings.

Do not use this equipment for any purpose other than that for which it wasintended, nor operate it in excess of its rated capacity nor otherwise thanin accordance with the instructions contained in this manual.

This equipment, or a prototype, has been tested to prove satisfactory forthe conditions for which it was sold. Operation in excess of these conditionsmay subject the equipment to stresses and strains which it was not de-signed to withstand.

Failure to heed this warning may, result in damage to the equipment or inan accident causing personal injury.

Field Ground Detection System 2100INS324A

3

TABLE OF CONTENTS

I. INTRODUCTION AND DESCRIPTION 4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A. Introduction 4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B. Scope 4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C. General Description 4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

II. INSTALLATION 5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A. General 5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B. Inspection 5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C. Mounting 5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

III. OPERATION 5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A. Operation 5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B. Initial Startup 6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

IV. MAINTENANCE 7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A. Field Testing 7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B. Periodic Maintenance 9. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

V. RENEWAL PARTS 10. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A. Parts Ordering Information 10. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B. Renewal Parts 11. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

LIST OF FIGURESFigure 1. Field Ground Detection System 6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure 2. Field Ground Detection System Schematic 7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure 3. Transmitter Schematic 8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure 4. LED Ground Detector Sensitivity Curve 8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure 5. Receiver Schematic 10. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure 6. Relay Alarm Panel Schematic 11. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure 7. Field Ground Detector Renewal Parts 12. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .


4

I. INTRODUCTION AND DESCRIPTION

A. Introduction

This manual describes the field ground detection system designed by Electric Machinery Mfg. Companyfor use with large, turbinedriven synchronous generators. This system detects a possible ground in thegenerator field circuit when the generator is in operation and carrying load.

B. Scope

Individual sections of this manual cover: description, installation, operation, maintenance, and renewalparts information.

C. General Description

The field ground detection system, pictured in Figure 1, consists of a rotormounted transmitter (unit A),a stationary receiver (unit B) and a relay alarm panel (unit C).

A typical schematic of the complete system is shown in Figure 2. The transmitter uses solid state, lightemitting diodes which produce a highly visible source of light. When incorporated with a transistor cir-cuit and assembled in the shaft of the brushless exciter field, the unit emits a visible ring of light that ison for a normal condition and is off for an abnormal field condition. By using additional sensors,

Unit A. Rotormounted Transmitter(Model used Depends on Diode Wheel Diameter)


5

an automatic alarm will trip if the lightemitting diodes (LEDs) go off. The fact that the LEDs go outfor an abnormal condition makes the transmitter portion of the system failsafe, since the LEDs couldpossible go out due to a circuit malfunction, a build up of dirt on the emitters, or an excessive leadingpower factor load on the generator forcing exciter voltage below power supply limits on the transmitter.

Light information conveyed by the transmitter is sensed and interpreted by optical phototransistors inthe receiver. Loss of LED light to the receiving unit will actuate the ground relay unit. The ground relayhas an adjustable time delay to prevent false trips.

II. INSTALLATION

A. General

Refer to instruction manual 100INS200 for general information on receiving, care, and handling ofEM equipment.

B. Inspection

Upon receipt of the equipment, the components of the field ground detection system should be examinedfor obvious indications of damage. Check for loosely mounted components, broken or loose leadwires,and other visual evidence of deficiency.

C. Mounting

The rotating transmitter is mounted between two fuses on the diode wheel of the brushless exciter. Abalance weight is mounted directly opposite the transmitter on the diode wheel.

The stationary receiver is mounted on the housing of the brushless exciter in place of the access cover.It uses the same clip arrangement as the access cover to facilitate installation.

The stationary receiver should be spaced 3/8 to 1/2 from the rotating transmitter, and the maximum ax-ial displacement limited to 1 inch.

III. OPERATION

A. Operation

As seen by the transmitter schematic in Figure 3, the transmitter requires an isolated power supplythrough T1. The source of power is the ac brushless exciter system. Two leads are connected to the diodebridge circuit of the rotating rectifier to provide this power. The black lead of the transmitter is attachedto the negative bus of the field rectifier, and the white ground lead is attached directly to the shaft. Thisconnection puts the field rectifier in series with the voltage of rectifier X1 in the transmitter which in-cludes the base of circuit Q2. Base current in Q2 is determined by the field ground resistance and thelocation of a fault with respect to the positive and negative bus.

With a high field ground resistance and no fault, there is no Q2 base current, Q2 is off and Q1 is saturatedkeeping the LEDs on. If base current flows in Q2 due to a low resistance path external to the transmitter,transistor Q1 and the LEDs are turned off, indicating the presence of a possible ground fault.

The receiving unit, using infrared phototransistors, senses the passing pulse of infrared energy. The pulseperiod is on the order of 0.05 millisecond each revolution for an 11inch radius at 3600 rpm. The period


6

Unit C Relay alarm panel

Figure 1. Field Ground Detection System

is lengthened in the receiver by a monostable flipflop to provide sufficient signal to the ground relayalarm panel.

The ground relay unit, mounted at the control center, requires single phase, 120V ac input power. Theground relay output contacts are normally open and rated at 240 volts, 10 amps. The alarm delay is setat 10 seconds. For detailed instructions on the timing relay, see EM instruction sheet 6200INS319.

B. Initial Startup

Before the initial startup of the generator, normal precautions should be taken to make sure connectionsto the rotating apparatus and system components are secure.

Since the power supply voltage of the transmitter is designed to operate from 0.4 per unit to 6.5 per unit,based on noload exciter voltage, the resistance sensitivity curve (Figure 4) should be consulted. Thelower exciter voltage threshold of 0.4 per unit means the LEDs can go out due to an abnormal underex-cited transient condition which is taken care of by a time delay in the ground relay. If the underexcitationis considered normal, steps are then necessary to override the alarm.


7

With a ground on the negative bus, the pickup point is determined by the internal voltage of the transmit-ter, independent of field voltage. With a ground on the positive bus, the pickup point is related to theexciter voltage since it adds to the transmitter voltage.

IV. MAINTENANCE

A. Field Testing

1. Transmitter

The rotating transmitter, mounted and wired on the diode wheel, can be subjected to two field tests.a. Circuit Test

Connect the positive (+) lead of a 12V dc supply to the transmitter test point, a short red ororange lead. Connect the negative () lead of the test voltage to the rotor ground. Two red lightsshould appear. If the machine field terminals or the black lead is shorted to ground or to the whitelead, the lights will go out. Refer to transmitter schematic, Figure 3.

Brushless Excitation SystemAc Generator

Rotates at

Relay Alarm Panel

Single Phase N.O. Output18AWG600V

18AWG450V

Generator

Shaft Speed

(Mounted at Control Center)(Unit C)

120 VacPower SupplyInput

Contacts Rated240 Volts,10 Amps ac

Junction Box

StationaryReceiver(Unit B)

RotatingTransmitter(Unit A)

AC AC G

ExciterField

Mounted onDiode Wheel

Shield

1

2 3

+

Figure 2. Field Ground Detection System Schematic


8

Brushless ExciterYellow

YellowR1

X1T1

PRI.

Z2

Z1

R2

R4 C1+

White

R6R5

D1

BlackOrange

Generator Field+

+

Q1

R3

Q2

12345678

Leds

Figure 3. Transmitter Schematic

Ground onNegative Bus

Ground onPositive Bus

6.56.0

3.0

1.00.4

0 1k 10k 100k 1MThreshold

Resistance toGround

Per UnitExciterVolts

Figure 4. LED Ground Detector Sensitivity Curve

b. Megger Test

This test is limited to a maximum of 500V dc. The recommended megger is a James Biddle,Series 1, 500V dc model. Attach the earth lead (+) to the field of the generator. The line lead

Normal ConditionFault ConditionFault Condition

*InSystem, the load on pin C and D is the base to the emitter of Q2 in the alarm panel.


9

is connected to the ground of the rotor. If these leads are reversed, the megger will show 10000ohm to ground. If the megger is connected properly, it should read about 250 megohms at 25C or a value equal to the resistance to ground of the rotating system.

2. Receiver

The stationary receiver, mounted on the housing of the exciter enclosure, can be tested either InSystem or Bench Checked.

a. InSystem

During field testing, refer to Figure 5 the receiver schematic.

The chart below shows the test points and normal or fault conditions.

Pin A + B120V

TransmitterLED Emission

Pin C and D*+ on Pin C

Normal 0.7V AlarmYES NO YES NO YES NO YES NO

X

X

X

X

X

X

X

X

X

X

X

X

b. Bench Check

1. Apply 120V ac to Pin A + B.2. Connect a Triplett Analyzer to pins C and D (+ to pin C).3. Aim the phototransistors in the receiver at a fluorescent lamp. Output voltage across

C and D will rise to approximately 9 volts, with no other load on C and D.

Another method is to flick a flashlight in front of the phototransistors. A pulsing of output willappear.

3. Relay Alarm Panel

The relay arm panel can be tested either InSystem or BenchChecked. The procedures and normalor fault conditions for both tests are the same.

Refer to Figure 6, the relay alarm panel schematic, when performing field tests.

InSystem or Bench Check:

(see Chart A)

B. Periodic Maintenance

Whenever maintenance or cleaning is performed on the exciter, the LEDs on the transmitter should beinspected for dirt build up. In addition, all lead wires should be in good condition and tightly fastened.

Normal ConditionFault ConditionFault ConditionFault Condition

*With no power to terminals 4 and 5, the Agastat Relay Contact should be open.


10

CHART A

Terminals 4 & 5120V ac

Terminals 3 & 2+ 0.7V dc

to Terminal 3 Alarm *YES NO YES NO YES NO

X

X

X

X

X

X

X

X

X

X

X

X

R25 +C1+C2

D11

D21

D31

D41

R26

T1

SEC PRI

A

BR27

Z1

R3 R8 R12 R13

R2 R7R11

C5

C3C4

Q1 Q2 Q3

Z2

R1 R4 R5 R6 R9 R10 R15 R16 R17 R21

E

D

C

Q4 Q5

C7

Z3R23 R24

C8 D4

3

2

7+IC1 6

R14

C6 D2

D3

R18 R19

R20 R22

D1

Figure 5. Receiver Schematic

V. RENEWAL PARTS

A. Parts Ordering Information

When ordering spare or replacement parts, always include the name of the part and the part number asgiven on the parts list, the number of parts required, and the serial number of the generator.


11

B. Renewal Parts

ITEM NOMENCLATURE PART NO.

1 Transmitter* 375C735G01375C992G01

Receiver Assembly 375C800G012 Transformer 368B890G013 Resistor 800A180F154 P.C. Board 375C777G01

Alarm Panel 368B940G015 Time Relay 800A939F176 Transformer 368B892G017 P.C. Board 375C838G01

Wire Harness 368B900G01*When ordering a transmitter, the serial number of the generator must be given.

1

5

8

9TB

TB

TIRTIR

3 1

R1 Q1

D5

2

5

R2TB

TB3

2

Printed Circuit Board

D2 D3

D4D1

X1

X2

H2

H1T1

5

4TB

TB

67

Q2

Figure 6. Relay Alarm Panel Schematic


12

Figure 7. Field Ground Detector Renewal Parts


13

Pioneering Progess in Design, Application and Maintenance of Electrical Equipment

EM EXPERIENCE

EM has extensive experience in the design, application and maintenance of electrical power apparatus. Ourexperience extends to all industries and virtually all areas where motors and generators are in use. From tropi-cal regions to the tundra, from plains to mountains, from deserts to steamy jungles, EM has literally hundredsof successful motor, generator and variable speed installations. We know how these different environmentsaffect the operation of electrical equipment. And we know how to meet your needs for installation and main-tenance after youve purchased the equipment. Weve been providing service with skill and integrity for overthreequarters of a century and we plan to continue.

General Electric CompanyOne River Road, Schenectady, NY 12345518 385 2211 TX: 145354

GE Power Systems

HomeGE Power.comMain Table Of ContentsTab 1. IntroductionLM6000-Title PageLM6000-Table of ContentsLM6000-Front Matter

Tab 2. LM6000 System PackagesTab 2.01 GTG Gas Turbine Generator PackageLM6000_SP-D-GTGLM6000_SP-M-GTGLM6000_SP-O-GTG

Tab 2.02 GTE Gas Turbine EngineLM6000_SP-D-GTELM6000_SP-M-GTELM6000_SP-O-GTE

Tab 2.03 HVE Generator and High Voltage Electrical SystemsLM6000_SP-D-HVELM6000_SP-M-HVELM6000_SP-O-HVE

Tab 2.04 TLS Turbine Lube Oil SystemLM6000_SP-D-TLSLM6000_SP-M-TLSLM6000_SP-O-TLS

Tab 2.05 GLS Generator Lube Oil SystemLM6000_SP-D-GLS-60LM6000_SP-M-GLSLM6000_SP-O-GLS

Tab 2.06 HSS Hydraulic Start SystemLM6000_SP-D-HSSLM6000_SP-M-HSSLM6000_SP-O-HSS

Tab 2.07 FS Fuel SystemTab Gas Turbine DescriptionLM6000_SP-D-G-FS

Tab Gas Turbine Maintenence DescriptionLM6000_SP-M-G-FS

Tab Gas Turbine Operational InformationLM6000_SP-O-G-FS

Tab 2.08 WIS Water Injection SystemLM6000_SP-D-WISLM6000_SP-M-WISLM6000_SP-O-WIS

Tab 2.09 WWS Water Wash SystemLM6000_SP-D-WWSLM6000_SP-M-WWSLM6000_SP-O-WWS

Tab 2.10 CDP Purge SystemSection Not Applicable to this Project

Tab 2.11 VCA Ventilation and Combustion Air SystemLM6000_SP-D-VCALM6000_SP-M-VCALM6000_SP-O-VCA

Tab 2.12 SS Sprint SystemLM6000_SP-D-SSLM6000_SP-M-SSLM6000_SP-0-SS

Tab 2.13 FDS Fire and Gas Detection SystemLM6000_SP-D-FDSLM6000_SP-M-FDSLM6000_SP-O-FDS

Tab 2.14 TAS Turbine Auxiliary SystemLM6000_SP-TAS

Tab 2.15 AI Anti-IcingLM6000_SP-AI

Tab 2.16 CS Control SystemLM6000_SP-D-CSLM6000_SP-M-CSLM6000_SP-O-CS

Tab 2.17 LVS Low Voltage AC and DC SystemsLM6000_SP-D-LVSLM6000_SP-M-LVSLM6000_SP-O-LVS

Tab 3. LM6000 Specifications, Maintenance, and Technical ProceduresTab 3.01 Gas Turbine Generator PackageHS_TP5128HS_TP7100HS_TP7101HS_TP7102HS_TP7103HS_TP7104HS_TP7105HS_TP7106HS_TP7107HS_TP7108HS_TP7109HS_TP7110HS_TP7112HS_TP7113HS_TP7114

Tab 3.02 Gas Turbine EngineHS_TP7200

Tab 3.03 Generator and High Voltage Electrical SystemsHS_TP7300HS_TP7302

Tab 3.04 Turbine Lube Oil SystemHS_TP5803HS_TP5804HS_TP7701HS_TP7709

Tab 3.05 Generator Lube Oil SystemHS_TP7702HS_TP7703HS_TP7704HS_TP7705HS_TP7707HS_TP7708HS_TPXXXX

Tab 3.06 Hydraulic Start SystemHS_TP6002HS_TP7800

Tab 3.07 Fuel SystemsHS_TP5604HS_TP5609HS_TP7503

Tab 3.08 Water Injection SystemHS_TP5703HS_TP5704HS_TP5702

Tab 3.09 Water Wash SystemHS_TP6403HS_TP6404HS_TP7900HS_TP7901HS_TP7902

Tab 3.10 CDP Purge SystemSection Not Applicable to this Project

Tab 3.11 Ventilation and Combustion Air SystemsHS_TP7400

Tab 3.12 Sprint SystemHS_TP-SS

Tab 3.13 Fire and Gas Protection SystemHS_TP7600

Tab 3.14 Turbine Auxiliary SystemHS_TP-TAS

Tab 3.15 Anti-IcingHS_TP-AI

Tab 3.16 Control SystemHS_TP6501HS_TP8001HS_TP8002HS_TP8004HS_TP8005

Tab 3.17 Low Voltage AC and DC SystemsHS_TP6601HS_TP6602HS_TP6603HS_TP6604HS_TP6605

Tab 4. DrawingsTab 4.01 GA or Foundation674204674218674284674201674200674209674290674224

Tab 4.02 Flow and Instrument Diagram674254674260674248674232674268674270674244674239674269674262674272674051

Tab 4.03 One-Line or Plan and Elevation674031674018674022674023674014674032

Tab 4.04 Interconnect Diagrams674009674006674007

Tab 4.05 Schematics674035674048674049674041674047674044674934674931674037674930674932

Tab 4.06 Wiring Diagrams674084674077674088674057674058674091

Tab 4.07 Worksheets674965674962674794674145674964674292674293674147674148674143674146

Tab 4.08 Lifting and Shipping674225674226

Tab 4.09 Symbols and Misc674005674231674013

Tab 5. Vendor DocumentationTab Air Technologieshs_780-1812

Tab Allen Bradleyhs_abr30-5mmpbhs_abrbull800ehs_bulletin800h-800t

Tab Amot Controls Corporationhs_ac936A971modelb

Tab API Heat Transferapi-schmidt_brettenhs_bascowhitlock

Tab Ashcrofths_1112sdsnubberhs_250-1997-bhs_achgaugetemphs_1279hs_model1377hs_achbullentindu-1hs_1377_iomhs_drawingngp70hs_250-1068e_bimetalhs_aspuldam1106hs_ach1279-1379hs_bulletinoh-1

Tab Atkomatichs_ak15830serieshs_15000serieshs_32800serieshs_15800specshs_15800manualhs_31800serieshs_ak30800serieshs_akc30000series

Tab AWV Inc.hs_drawing31577hs_drawing31578hs_drawing24471hs_awv43528hs_drawing24473hs_drawing24475

Tab Barton Instrument Systemhs_tmssec03

Tab Beckwith Electric Co. Inchs_be3425ib

Tab Bently NevadaAC-DC Power Supplies Operation and Maintenance Manual (3500 Monitor Manuals)128158-01129766-01129767-01129768-01129770-01129771-01129772-01129773-01129774-01129777-01130432-01134542-01134938-01134939-01135545-01136973-01137412-01138629-01141706-01142836-01143488-01143489-01143490-01146282-01146479-01148636-01161580-01162291-01163860-01

Tab Brennan Industries Inchs_biseries64

Tab Bruninghs_thseries

Tab Brushhs_hb959200900ghs_hb959200900f

Tab CCI Thermal - Caloritechhs_datasheetsiomhs_xbhs_cci509124

Tab Check Allhs_checkallcat-03

Tab Chromaloxhs_chxpf490b-cehs_pd408-13hs_pd408-16hs_pd448hs_chxarmto3hs_chxpd419-9hs_b-107_tmo3_mo

Tab Dollinger Corporationhs_dolae-229hs_ae-229

Tab Donaldsonhs_hmk04-24p165354hs_f112074hs_hmk05-25hs_f112075

Tab Durabla Fluid Technology, Inc.hs_dftdr_cataloginletvalvehs_durablafluidglchs_inlinecheckvalveshs_dft_imm

Tab Dwyer Instruments, Inc.hs_2000_caths_e-571950g_iom

Tab Eaton - Tedecohs_tdc3e8501-10hs_tdc3e8501hs_tdcmf9639lkpss

Tab Edward Vogt Valve Companyhs_seriess74

Tab Emerson - Danielhs_dnlcat1200

Tab Emerson - Fisher Controlshs_efc67c5469hs_efcbull71195hs_fcdesignez5118hs_dwgaj3324hs_form1570hs_form1292hs_form5050hs_form1151

Tab Emerson - Rosemounths_rosemount3051hs_00809-0100-4001hs_drawing00078-0240hs_rm3051shs_ero813-100-2654

Tab Ernsths_e54524

Tab Falk Couplinghs_458-830hs_458-110

Tab Flow Technologyhs_tm-86675hs_fchft01

Tab Fluid Comphs_doc06en003246

Tab GE EnergyGENERATOR (336-670, -673, -674, -677)I. GENERALGEK 95149GEK 95153

II. OPERATIONA. ProtectionGEI 85803GEK 75512

B. GeneralGEK 46135GEK 95161A

C. MonitoringGEK 95168

III. MAINTENANCEA. GeneralGEI 58519GEI 85802GEK 103566GEK 103672GEK 103731GEK 46117GEK 95156GEK 95157

B. RotorGEK 103667

C. StatorGEK 7613

D. BearingsGEK 95124GEK 95150

IV. DRAWINGSA. Drawings194D8464118E4329114E3607585A1353361B9400111E5593111E5593114E3601363A1756

B. Excitation2100-INS-324A2500-INS-4022500-INS-PMG

LM6000 INLET AIR FILTER HOUSEhs_geaep_af-iomDrawingshs_geaep_af-dwghs_geaep_571204hs_geaep_969200hs_geaep_571225hs_geaep_969225hs_geaep_571226hs_geaep_969226hs_geaep_571239hs_geaep_969239

Vendor Documentationhs_geaep_af-manhs_geaep_tp01hs_dnstgS409hs_geaep_tp02hs_dragonvalves1.3hs_geaep_tp03dwyer1950_1950g_caths_geaep_tp04hs_im018r04hs_geaep_tp05hs_ssvim02000hs_geaep_tp06hs_ssv7-1997hs_geaep_tp07hs_muntershs_geaep_tp08hs_rcm7000-8000hs_geaep_tp09hs_ero71-400hs_geaep_tp10hs_ero71-5081hs_geaep_tp11hs_ero813-100-4001hs_geaep_tp12hs_series78hs_geaep_tp13hs_vicstyle75-77

Tab GE Packaged Power L.P.hs_dwg289174hs_drawing289188deh40472hs_drawing287705gei100600hs_geh-6721hs_gemotor5kehs_gesgfk-1055ahs_gesgfk-0448ehs_geh4961

Tab GHX Incorporatedhs_ghxhos-Fit-cat

Tab Goulds Pumps, Inc.hs_rssvhs_ssvhs_ssvseries

Tab Gulton Stathamhs_pa3000

Tab Hansen Technologieshs_hansenstseries

Tab Hartzell Fan Inc.hs_hlla-156dr1hs_drawinghdd-20085-1hs_man-iom

Tab Hayden Industrial Productshs_drawing019802hs_iommanualhayden

Tab Hilliardhs_hilfs15b150p-001hs_hilfs20b150p-002hs_hiliom01

Tab Hoke, Int.hs_hok79002-06

Tab Hydraquip Corporationhs_ipv-dbv-10hs_hydpllg05ths_rcn2026

Tab ITT - Neo-Dynhs_nd162phs_nd132phs_nd100t-chs_nd180phs_nd132t-chs_nd100phs_catalog37-nhs_suppinstructions

Tab Kencohs_99m50-99m75

Tab Kepner Products Companyhs_kep-o-sealhs_kp1912f18hs_kp5900

Tab KF Industrieshs_kffiom3-00iomhs_db-15b

Tab Kitz Corporationhs_k-150uoamhs_catalogsteel

Tab Linc Manufacturinghs_lnc800-455-linc

Tab Lovejoy, Inc. / Magnaloyhs_techdatacat

Tab Magnaloyhs_ap9911

Tab Marathonhs_sb300hs_sb181_iom

Tab Marshall J. Brownhs_mjb1220

Tab Marvel Engineering Companyhs_nols-101

Tab Master Lockhs_msl7000-0031

Tab Meriamhs_mrm951-2

Tab Mincohs_s19350pdhs_rtd-2

Tab Mueller Steam Specialityhs_c18-c19_761-762-764-sshs_185-186-sshs_c30-c31_861-862-sshs_mllgencaths_mueller303ht

Tab Opw Engineered Systemshs_opw2726hs_sightflow

Tab Orange Researchhs_gn128-1201hs_series1502-1505

Tab Pall Industrialhs_8640serieshs_pll9850hs_0937servicehs_aab24424d2y1ahs_acpadb24424y1hs_pihcsi-864

Tab Protecto Sealhs_psldrw6672hs_plsimi6670hs_v670_v6670hs_pls860series

Tab Rexnord -Thomas Couplinghs_tcflexdisc

Tab Roto Jet Pumphs_jetroiii3x2hs_jetiom12-02hs_jetrjos1hs_rj-iom12-02

Tab Sauer Danfosshs_bln09949hs_bln09947hs_bln10029hs_blnycseries

Tab Sun Hydraulicshs_rpec-qbn

Tab TCF Aerovenths_d-29597-00hs_r-25766-00hs_c-29592-00hs_d-31014-00hs_im1005-00hs_im1656-97hs_im1601-00hs_tfces-191hs_avbu476hs_tfcbulletin456hs_avbu466

Tab Thermal & Mechanical Equip.hs_tme1572-06-048-000hs_tme198029

Tab Tuthill Corporationhs_tut22-1

Tab Tyco - Anderson, Greenwoodhs_05-9040-087hs_form05-9040-071hs_datasheetd-series

Tab Vaw Systemshs_ss6625d2hs_vws61002

Tab Velanhs_vel-te-2001

Tab Voithhs_g818ehs_dbv-1092hs_inst_ope_comm

Tab Watts Regulatorhs_isb6000hs_is-c7350-1hs_iom-15002500hs_iom-18002800hs_wwtballvalves

Tab Weed Instrumenths_0015-001-0001hs_305rtd

Tab Wilson Fire EquipmentO&M MANUAL: FIRE & GAS PROTECTION SYSTEM LM6000hs_wfelm6000_sheeths_wfelm6000_faultshs_wfelm66creqxls

Sec.01 General Overviewhs_wfelm6000_over

Sec.02 Allestec Fire Panelhs_alle800systembhs_alle800-1537hs_alle800systemf

Sec.03 Gas Detectorshs_det958382hs_det95-8472hs_wfe90-1151hs_wfeeq3700dciohs_wfe90-1118hs_wfe95-8533hs_det901138hs_wfeq900hs_wfe95-8526hs_wfe95-8440-01hs_wfe90-1041-03hs_wfeeq2200dcuhs_wfe95-8521hs_fwl27100

Sec.04 Flame Detectorshs_wfe95-8554

Sec.05 Thermal Detectorshs_wfe6ds116hs_wfe6dsus24

Sec.06 C02 Equipmenths_kiddehs_wfep-4574-g

Sec.07 Manual Pull Stationshs_wfemvc-0095hs_wfem-27hs_wfej-11hs_wfem-29hs_mdcbgpb

Sec.08 Strobeshs_mdcxb11hs_wfe6ds096

Sec.09 Hornshs_mdcdb3hs_wfe6ds094

Sec.10 Misc Equipmenths_wfegua-guf-eahfhs_abt1718503hs_wfeabt-0708464hs_abtzaghs_wfe05-0003hs_wfe60947-3hs_wfea200866hs_cmpt3cds-pbhs_wfeil60077hs_wferfoup1p8hs_wferfoup5p12hs_ftkmpt100mpt98hs_ftkim-mpt100hs_wfehw151hs_wfe33jhs_wfep105075hs_wfep105076hs_wfefs8499hs_wfe6ps-108hs_wfersserieshs_wfequartzhs_wfets32ha_wfeiso12cylhs_wfemfld14hs_wferack14hs_wfemfld2-12hs_wfewfco2ps-a39khs_wferm100lbhs_wfewilson05

Tab Woodward Governor Co.hs_woo40156hs_woo03209hs_woo85586v1ghs_woo85586v2ghs_woo03213hs_woo03253hs_woo26229hs_woo40154hs_woo40185hs_woo40181

Tab Yokogawa Industrial Automationhs_1c21d1-01e-ycahs_yf100im1f2b401yia

Tab Zokhs_imwashlm6000

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