Maintenance

The LI-7825 will require little maintenance beyond the normal daily zero adjustments. There are no user-serviceable parts in the instrument except for the air inlet filter, air dry-down chemical, and pump. Do not attempt to disassemble the instrument or conduct any maintenance procedures other than those described here.

Instrument calibration

To adjust the instrument calibration, you can set the zero and span. The span is like a slope (the m in y = mx + b). The zero is a spectral baseline. Adjusting the zero changes every measurement (the relationship is non-linear). Adjusting the span changes the slope.

We recommend following NOAA Global Monitoring Laboratory Guidelines for Standard Gas Cylinder and Pressure Regulator Use at https://gml.noaa.gov/ccl/reg.guide.html to ensure accurate calibration. Calibration gases should between ambient and 35 kPa (5 PSI) above ambient pressure.

Setting the span and zero

Select high-quality zero and span gases that are balanced in air or manufactured air (nitrogen and oxygen). The zero gas should be 0 ppb CO₂. For the best span adjustment, select a high-quality span gas with a CO₂ concentration near or slightly above the concentrations you expect to measure.

Similarly, the δ¹³C value may also be assigned to closely match that expected in the sample gas, for example a δ¹³C value of -8 ‰ for general atmospheric measurements. The calibrations will only be as good as the gases.

Caution: Do not use nitrogen-balanced gas. Use air-balanced gas for both the zero and span. Do not power on the instrument with a 0 ppm CO₂ gas flowing through the analyzer or the analyzer will not initialize properly.

Prior to working through the following procedure ensure that low-pressure regulators and sample lines associated with zero and span gases have been conditioned as per NOAA guidelines.

1. Connect a tank of CO₂ in dry air or manufactured air to the air inlet (Figure 6‑1).
2. The span gas will work for this.
2. Set the pressure between ambient and 35 kPa (5 PSI) above ambient.
3. Observe the measurements on the home screen until they have stabilized.
4. The slopes for all gases should be near zero. Since it involves zeroing H₂O, wait plenty of time for the H₂O concentrations to approach zero (typically, this takes 30 to 45 minutes).
4. Being careful to avoid introducing any H₂O into the air, switch to the zero gas.
5. It is important that the air remain dry when changing from the span to the zero gas.
5. Wait for the zero reading to stabilize, then set the CO₂ zero.
6. Under Options > Calibration, click Zero. The software will indicate that a zero calibration has started and it will not report concentrations until the zero is set. This usually takes about 5 minutes.
7. 
6. Switch back to the CO₂ span gas.
7. Wait for the reading to stabilize.
8. Under Options > Calibration > CO₂ Span, enter the concentration of the gas and proportions of isotopes: δ¹³C, δ¹⁸O, and δ¹⁷O. If δ¹⁷O is not certified on the supplied span gas, abundance is assumed to be 0.528 δ¹⁸O, as prescribed by Griffiths, et. al (2018).
8. When the readings are stable, click Span CO₂.
9. 

Recovering from a bad calibration

In the event that an attempt to zero or span fails to work as intended, you can restore previous zero and span settings by selecting the file and clicking Restore.

Factory Reset reloads the factory original zero and span calibration parameters.

Replacing the air inlet filter

The air intake has filters that may become contaminated periodically. We recommend replacing filters every year, or more often if you are sampling dirty or dusty air. The filters also should help prevent water from being drawn into the gas analyzer.

1. Power off the instrument.
2. Remove each of the six screws that secure the air intake and outlet.
3. They are installed with thread locking compound, which will make them difficult to remove.
3. Remove the O-rings, the filter support disks, and the filter.
4. Use a toothpick to work them out.
4. Inspect the O-rings and replace them if they are damaged or compressed.
5. Install the replacement filters and reassemble the system.
6. Install two filters (part number 9978-234) between the support disks. The two metal discs support the filter(s) — one on each side. Align the centers of the filters and the metal disks. Assembly is the reverse of disassembly. You do not need to use thread locking compound on the threads. Tighten them snugly.

Replacing the purge dry-down chemical

Replacement desiccant (622-17627) is included with the instrument spares. The desiccant, consisting of silica gel beads, is contained in a non-porous tube (see Figure 6‑2). The instrument will pump air through the desiccant tube during power-off to purge the optics of water vapor. You may need to replace or restore the desiccant periodically. The silica gel beads are orange when new and green when saturated (see Figure 6‑3).

Desiccant replacement instructions

1. Power off the instrument.
2. Open the lid and locate the purge chemical column.
3. Disconnect the quick-connect fittings from the column inlet and outlet.



4. Remove the column.
5. It is secured with two screws. Remove them. When the column mounting brackets are removed, the column can come apart easily, and the silica gel beads can fall out. Be careful when handling the column so that it does not come apart.
5. HOLDING THE COLUMN AWAY FROM THE CASE, separate one end by grasping one cap and pulling it off of the column.
6. Pour out the silica gel beads. The desiccant can be regenerated (see Regenerating the desiccant) or disposed of in municipal waste.
7. 
6. Locate a new packet of silica gel beads in the accessories kit.
7. Fill the column with fresh silica gel beads.
8. There may be a little more than is needed. Dispose of the extra silica gel beads or keep them sealed in a glass jar.
8. Reassemble the filter and caps; connect the tubes, and tighten the screw clamps securely.

Important: Tighten the clamp screws securely. The clamps hold the caps onto the tube; the caps hold the silica gel beads in the tube. If the clamps are not tight, the caps will be forced off when the tube is pressurized during shutdown. The tube will open and the silica gel beads will spill in the case. It is a situation easily avoided by tightening the clamp screws securely.

Regenerating the desiccant

Indicating silica gel can be regenerated in a drying oven. This preparation of silica gel is green when it is saturated and orange when it is new or restored.

1. Preheat the oven to 120 °C (248 °F).
2. Spread a single layer of the granules in a shallow pan.
3. Place in the oven for 60 to 120 minutes.
4. Less heat for a longer time will not work, nor will more heat for less time.
4. After the orange color is restored, place the hot, regenerated material into a glass container and close the lid while it is still hot.
5. Do not place hot beads into a plastic container. Store the regenerated desiccant in a sealed glass jar. Avoid storing the beads in a plastic container.

Note: If the Sorbead turns black, you’ve overheated it and it needs to be replaced. Sorbead beads may break over time but the performance is not affected.

Software updates

Software updates will be released periodically to provide new features and bug fixes. You can check for updates through the interface (click Settings > Software > Check) or on the LI-COR technical support website. Download the updater application and install it on your computer (Windows only). Launch the application. It will display a list of all LI-7810, LI-7815, LI-7820, and LI-7825 instruments on your network. The instrument that you want to update must be connected to your network or computer. Select one to update and click Update Software. The update will take several minutes. The instrument will restart when the update is complete.

References

1

Griffith, D.W.T. (2018). Calibration of isotopologue-specific optical trace gas analysers: a practical guide. Atmospheric Measurement Techniques, 11(11), pp.6189–6201. doi:https://doi.org/10.5194/amt-11-6189-2018.

2

US Department of Commerce (n.d.). Global Monitoring Laboratory - Central Calibration Laboratory. [online] gml.noaa.gov. Available at: https://gml.noaa.gov/ccl/reg.guide.html [Accessed 20 May 2024].

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