Hydrogen is used as a coolant in generators because it is the most efficient cooling agent available, having the highest thermal conductivity of all gases, allowing it to quickly draw heat away from the stator. A secondary benefit of using hydrogen is its low density, which reduces drag on the brushes making the generator work more efficiently.
High-purity hydrogen is required for the cooling to be effective, as well as for safe operation. As it is not possibly to hermetically seal the generator set casings, there is always the potential for moisture ingress from the surrounding air. Too much moisture in the system not only reduces efficiency, but also introduces the risk of arcing and damage to the generator. Too much oxygen could cause an explosion.
As well as monitoring the purity of hydrogen in operation, operators also routinely purge the system with CO2 to remove all the hydrogen safely, before carrying out scheduled maintenance.
The XTC601 for hydrogen cooled generators has three phase profiles to cover all stages of the process:
- Normal operation: H2 Purity (air as the contaminant). Providing continuous, online measurements of the atmosphere within the generator.
- Purging H2 with CO2. Indicating when all the H2 has been removed from the system before routine maintenance – vital for safety and avoiding risk of explosions.
- Purging CO2 with Air. This phase ensures that the atmosphere is safe for the engineers to work
The analyzer has three calibration maps to enable measurement in each of the above gas mixtures. Switching between them is simple using the integrated HMI or via an input from the plant control system. Having just one analyzer to monitor each of the phases reduces installation costs and capital expenditure. As with all of Michell’s Thermal Conductivity analyzers, the non-depleting sensor makes it highly cost-effective over its lifetime as there are no consumable parts to replace.
Image courtesy of Siemens AG
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