Weatherford Sls baseline 9000 fid User manual

SLS Baseline 9000 FID

Total Gas Detector Manual Document Number

GL-SLS-OEPS-L4-94

Originators Lance Wheat Rev 0 Mar 2016

Approval No of Pages 38

SLS Baseline 9000 FID

Total Gas Detector Manual

Page 1of 36 SLS Baseline 9000 FID Total Gas Detector Manual

Note:

The procedure in this manual should be performed in the order that the steps are written to properly

operate the Baseline 9000 Total Gas Detector

Page 2of 36 SLS Baseline 9000 FID Total Gas Detector Manual

Table of Contents

1 Configuration ........................................................................................................................................ 5

1.1 Baseline 9000/Agilent 490 ............................................................................................................ 5

1.1.1 Air.......................................................................................................................................... 5

1.1.2 Sample................................................................................................................................... 6

1.1.3 Fuel........................................................................................................................................ 7

1.2 Baseline 9000/Baseline 8900........................................................................................................ 8

1.2.1 Air.......................................................................................................................................... 8

1.2.2 Sample................................................................................................................................... 9

1.2.3 Fuel...................................................................................................................................... 10

2 Calibration........................................................................................................................................... 11

2.1 Initial Flow Setup.........................................................................................................................11

2.2 Flow Calibration .......................................................................................................................... 12

2.2.1 Fuel...................................................................................................................................... 12

2.2.2 Air........................................................................................................................................15

2.2.3 Sample................................................................................................................................. 18

2.3 Gas Calibration............................................................................................................................21

3 WellWizard Connection ......................................................................................................................27

3.1 Hardware Setup ..........................................................................................................................27

3.2 Tensor Communication...............................................................................................................28

3.3 Unhiding Baseline 9000 Channels...............................................................................................31

4 Bill of Materials ...................................................................................................................................35

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List of Figures

Figure 1: Baseline 9000 with Agilent 490 Air ................................................................................................ 5

Figure 2: Baseline 9000 with Agilent 490 Sample......................................................................................... 6

Figure 3: Baseline 9000 with Agilent 490 Fuel.............................................................................................. 7

Figure 4: Baseline 9000 with Baseline 8900 Air............................................................................................ 8

Figure 5: Baseline 9000 with Baseline 8900 Sample..................................................................................... 9

Figure 6: Baseline 9000 with Baseline 8900 Fuel........................................................................................10

Figure 7: Baseline 9000 Rear Panel............................................................................................................. 11

Figure 8: Detector Vent............................................................................................................................... 12

Figure 9: Fuel Flow Zero Point ....................................................................................................................12

Figure 10: Fuel Flow Span Point.................................................................................................................. 13

Figure 11: Fuel Flow Press Cnts................................................................................................................... 13

Figure 12: Fuel Flow Value ..........................................................................................................................14

Figure 13: Fuel Flow Reading ......................................................................................................................14

Figure 14: Air Flow Zero Point.....................................................................................................................15

Figure 15: Air Flow Span Point ....................................................................................................................15

Figure 16: Air Flow Press Cnts..................................................................................................................... 16

Figure 17: Air Flow Value ............................................................................................................................16

Figure 18: Air Flow Reading ........................................................................................................................17

Figure 19: Sample Flow Zero Point .............................................................................................................18

Figure 20: Sample Flow Span Point............................................................................................................. 18

Figure 21: Sample Flow Press Cnts .............................................................................................................19

Figure 22: Sample Flow Value.....................................................................................................................19

Figure 23: Sample Flow Reading ................................................................................................................. 20

Figure 24: Zero Selection ............................................................................................................................21

Figure 25: Zero Value ..................................................................................................................................21

Figure 26: Span Selection............................................................................................................................ 22

Figure 27: Span Value ................................................................................................................................. 22

Figure 28: Calibrate Now ............................................................................................................................ 23

Figure 29: Zero Calibration ......................................................................................................................... 23

Figure 30: Span Connection ........................................................................................................................ 24

Figure 31: Span Calibration.........................................................................................................................24

Figure 32: Full Scale Test............................................................................................................................. 25

Figure 33: Flow Selection............................................................................................................................ 25

Figure 34: Air Flow Selection ...................................................................................................................... 26

Figure 35: Air Flow Value ............................................................................................................................26

Figure 36: Baseline 9000 Static Units.......................................................................................................... 27

Figure 37: Basline 9000 High Precision....................................................................................................... 27

Figure 38: Query Well .................................................................................................................................28

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Figure 39: Enter Well Directory .................................................................................................................. 28

Figure 40: Programs File .............................................................................................................................29

Figure 41: Enable Well Logging................................................................................................................... 30

Figure 42: Wits Diag ....................................................................................................................................30

Figure 43: WWtext...................................................................................................................................... 31

Figure 44: Goto Channel ............................................................................................................................. 31

Figure 45: Mnemonic Entry......................................................................................................................... 31

Figure 46: Channel Name............................................................................................................................ 32

Figure 47: Unit Class.................................................................................................................................... 32

Figure 48: Hide Channel Status................................................................................................................... 32

Figure 49: Unhide Channel.......................................................................................................................... 33

Figure 50: Exit Channel ............................................................................................................................... 33

Figure 51: Channel Category....................................................................................................................... 34

Page 5of 36 SLS Baseline 9000 FID Total Gas Detector Manual

1Configuration

The configurations shown are assuming the use of a Schmidlin Sonimix SX-3080 plus. If not, please

verify the H2 volume generation capabilities before rig up to ensure the H2 generator being using has

sufficient capacity to supply all equipment.

1.1 Baseline 9000/Agilent 490

1.1.1 Air

Figure 1: Baseline 9000 with Agilent 490 Air

Page 6of 36 SLS Baseline 9000 FID Total Gas Detector Manual

1.1.2 Sample

Figure 2: Baseline 9000 with Agilent 490 Sample

Page 7of 36 SLS Baseline 9000 FID Total Gas Detector Manual

1.1.3 Fuel

Figure 3: Baseline 9000 with Agilent 490 Fuel

Page 8of 36 SLS Baseline 9000 FID Total Gas Detector Manual

1.2 Baseline 9000/Baseline 8900

1.2.1 Air

Figure 4: Baseline 9000 with Baseline 8900 Air

Page 9of 36 SLS Baseline 9000 FID Total Gas Detector Manual

1.2.2 Sample

Figure 5: Baseline 9000 with Baseline 8900 Sample

Page 10 of 36 SLS Baseline 9000 FID Total Gas Detector Manual

1.2.3 Fuel

Figure 6: Baseline 9000 with Baseline 8900 Fuel

Page 11 of 36 SLS Baseline 9000 FID Total Gas Detector Manual

2Calibration

Each flow zone uses an electronically controlled valve and pressure sensor to create a stable flow to the

detector. Each flow zone requires a two point calibration. The first calibration point is the zero point

with no flow through the analyzer and the second point is the span point with pressure applied to the

flow zone. The “Press. Cnts” shown on the screen refers to the pressure measurement from the sensor.

Figure 7: Baseline 9000 Rear Panel

2.1 Initial Flow Setup

1) From the Main screen, press the ← or → key. Go to the Setup menu and select Flows.

2) Press Enter to open the Setup Flow screen.

3) To change a value, use the ← key to erase the set value and the keypad to enter a new value.

Press Enter to select the displayed values or Escape to go back to the previous menu without

saving the value.

4) Initial Flows should be set as:

a. Fuel: 35 cc/min

b. Air: 175 cc/min

c. Sample: 8 cc/min

Page 12 of 36 SLS Baseline 9000 FID Total Gas Detector Manual

2.2 Flow Calibration

Flow calibrations should be made before deploying the device to the rig. They require a digital flow

meter. Before beginning the calibration process, it is important to disconnect the Fuel, Air, and Sample

input lines.

2.2.1 Fuel

NOTE:

Ensure the Fuel, Air, and Sample input lines are disconnected.

1) Connect a digital flow meter to the Detector Vent on the back of the TGD.

Figure 8: Detector Vent

2) From the Main screen, press the ← or → key. Go to the Setup menu and select Flow Cal.

3) Use the ← arrow to select Fuel. Press Enter to open the Flow Calibration screen (Zero Point).

Figure 9: Fuel Flow Zero Point

4) Allow time to stabilize, minimum 2 minutes, and then press Enter to accept the zero point.

NOTE:

Keep the detector elevated to ensure no liquid enters from the detector

vent.

Page 13 of 36 SLS Baseline 9000 FID Total Gas Detector Manual

5) The Span Point Calibration screen is now shown.

Figure 10: Fuel Flow Span Point

6) Reconnect the Fuel line to the TGD and apply 20 psi to the fuel inlet port.

7) Wait until the current pressure counts are equal to or close to the target pressure counts,

minimum 2 minutes.

Figure 11: Fuel Flow Press Cnts

Page 14 of 36 SLS Baseline 9000 FID Total Gas Detector Manual

8) Measure the flow out of the detector vent on the back panel and compare the measured value

with the target flow shown on the display. If necessary, use the ← key and the numeric keypad

to change the target pressure counts. Use the → key to update the new value. Wait for the

pressure counts to stabilize, at least 1 minute, and re-measure the flow at the detector vent.

Repeat until the measured flow is equal to the target flow ±2 cc/min.

Figure 12: Fuel Flow Value

Figure 13: Fuel Flow Reading

9) When the measured flow equals the target flow, press “Enter” to save the span point.

10) If you make a mistake, hit Escape to exit out without saving the changes.

Page 15 of 36 SLS Baseline 9000 FID Total Gas Detector Manual

2.2.2 Air

NOTE:

Ensure the Fuel, Air, and Sample input lines are disconnected.

1) Connect a digital flow meter to the Detector Vent on the back of the TGD.

2) From the Main screen, press the ← or → key. Go to the Setup menu and select Flow Cal.

3) Use the ← arrow to select Air. Press Enter to open the Flow Calibration screen (Zero Point).

Figure 14: Air Flow Zero Point

4) Allow time to stabilize, minimum 2 minutes, and then press Enter to accept the zero point.

NOTE:

Keep the detector elevated to ensure no liquid enters from the detector

vent.

5) The Span Point Calibration screen is now shown.

Figure 15: Air Flow Span Point

6) Reconnect the Air line to the TGD and apply 20 psi to the air inlet port.

Page 16 of 36 SLS Baseline 9000 FID Total Gas Detector Manual

7) Wait until the current pressure counts are equal to or close to the target pressure counts,

minimum 2 minutes.

Figure 16: Air Flow Press Cnts

8) Measure the flow out of the detector vent on the back panel and compare the measured value

with the target flow shown on the display. If necessary, use the ← key and the numeric keypad

to change the target pressure counts. Use the → key to update the new value. Wait for the

pressure counts to stabilize, at least 1 minute, and re-measure the flow at the detector vent.

Repeat until the measured flow is equal to the target flow ±2 cc/min.

Figure 17: Air Flow Value

Page 17 of 36 SLS Baseline 9000 FID Total Gas Detector Manual

Figure 18: Air Flow Reading

9) When the measured flow equals the target flow, press “Enter” to save the span point.

10) If you make a mistake, hit Escape to exit out without saving the changes.

Page 18 of 36 SLS Baseline 9000 FID Total Gas Detector Manual

2.2.3 Sample

NOTE:

Ensure the Fuel, Air, and Sample input lines are disconnected.

1) Connect a digital flow meter to the Detector Vent on the back of the TGD.

2) From the Main screen, press the ← or → key. Go to the Setup menu and select Flow Cal.

3) Use the ← arrow to select Air. Press Enter to open the Flow Calibration screen (Zero Point).

Figure 19: Sample Flow Zero Point

4) Allow time to stabilize, minimum 2 minutes, and then press Enter to accept the zero point.

NOTE:

Keep the detector elevated to ensure no liquid enters from the detector

vent.

5) The Span Point Calibration screen is now shown.

Figure 20: Sample Flow Span Point

6) Reconnect the Sample line to the TGD..

Page 19 of 36 SLS Baseline 9000 FID Total Gas Detector Manual

7) Wait until the current pressure counts are equal to or close to the target pressure counts,

minimum 2 minutes.

Figure 21: Sample Flow Press Cnts

8) Measure the flow out of the detector vent on the back panel and compare the measured value

with the target flow shown on the display. If necessary, use the ← key and the numeric keypad

to change the target pressure counts. Use the → key to update the new value. Wait for the

pressure counts to stabilize, at least 1 minute, and re-measure the flow at the detector vent.

Repeat until the measured flow is equal to the target flow ±2 cc/min.

Figure 22: Sample Flow Value

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