Both Melbourne and Adelaide have at least two gen sets, not sure what MEL has as I would imagine it's pretty old now but Adelaide has a fully integrated system that uses standard coughmins PowerCommand generator sets and PowerCommand digital paralleling equipment along with a coughmins MC300 digital master control system for the two 1340 kWe gensets which are powered by coughmins 50-litre KTA50G3 engines.
Shouldn't have gone all tech there
markis10, I'm about to ask a question about power supplies and redundancy and how that pertains to the needs of large scale commercial premesis like airport terminals.
I understand the concept of redundant power and fallover in the case of data centres, but not in environments such as terminals, shopping centres and the like. Is the overarching methodology of redundnat power supply for data centres/server rooms the same as environs like an airline passenger terminal?
As I have no clue about how it would operate in such a massive commercial environ - could equipment scale to the level of such enormous needs? I ask this considering the sheer amount of power being drawn (even if factoring in automated rationing and load reduction), the length of the outage, and the fuel resource required to generate even 50% of the usual energy for a sustained period of time.
The need for a metric coughload of fuel available onsite to achieve it for sustained periods I thought would have posed a problem, and even if that could last a while you'll still need to truck it in on call plus be monitoring the fuel levels like a hawk.
In short, isn't having backup generation for the terminals themselves (being non-essential parts of an airport, specially in the context of a wider outage) cost ineffective? Wouldn't it be far more effective for non-essential services having access to two seperate, geographically diverse connections to 'the grid'?
Here ends my curiosity on this topic.
. Actually I don't know if you could even get something that could run the KVA's required to power the terminal.
