Can 2.2 A of output current cause serious harm to my person or anyone else around?
Absolutely. From a non-shock perspective, it's enough amps to cause circuit failures to potentially smoulder and burn, or blow low-power devices to bits.
From a shock perspective, it's more than enough to be hazardous, since the mains voltage is high enough to force conduction through your body. On the secondary side of the transformer, not so much, thankfully.
Mains power is not to be toyed with lightly.
What happens if I short-circuit the secondary branch by accident?
The transformer will start drawing lots of current from the mains, causing:
Your appropriately-selected input fuse to open and safely isolate the circuit from the mains, or
Your inappropriate (or absent) fuse to not isolate the circuit, leading to your transformer sitting there and broiling, release some nice-smelling burnt varnish aroma (I call it "power supply incense") into the room. If it has a safety marking on it, it may sit like this indefinitely or fail in a "safe" manner (no dielectric breakdown, no flames or obvious smoke, etc.)
Is it a proper thing to do to use a 2.5 A fuse given that the laptop is 15 V / 1.8 A?
Depends on the load. Fuses not only have to be rated for steady-state current, but should handle things like inrush current (charging those capacitors), line surges and brown-outs without nuisance blows, as well as provide safety during abnormals.
Should I place it (a) between the transformer and the rest of the circuit or (b) between the circuit of the power supply and the laptop?
It must be on the mains side of the transformer. It must prevent any mains voltage from entering the circuit if it blows (which can get complicated if there's a protective earth involved, especially if people fuse the neutral and leave the line unfused). You should also consider a MOV (metal oxide varistor) between the fuse and the transformer across the mains to clamp any surges that come in (it will crowbar and open the fuse).
What does it mean when they say the laptop requires a rated power supply? Does it mean the power supply should employ a stabilizer?
Depends. I would interpret it as meaning regulated, and able to meet the voltage and current requirements of the laptop. I take it you're using the term 'stabilizer' to imply regulation, as that's not a common term in power conversion (at least to my ears).
Other points to ponder:
Keep a safe distance between the mains and the output. Creepage and clearance is important for life safety. Don't cross the barrier with any components unless they're safety-agency rated for such an application. Don't cross the barrier with any wires unless they're triple-insulated. Don't connect primary and secondary returns.
Consider adding over-voltage, over-current and over-temperature protection. Find a way to shut the thing down or blow the fuse if any of these bad things happen, to keep your downstream stuff from getting damaged by the power supply.
That's a big fat unscreened transformer, so there is plenty of capacitive coupling between the input and output. A high impedance meter could easily read a fraction of mains voltage between the center tap and earth. If you flip the input connections you'll likely get a somewhat different measurement.
The measure of health of the transformer is the leakage current at near maximum isolation voltage. It's not possible to measure that easily with a simple multimeter. The voltage measurement alone is not an indication of a problem, however the tingle could be. It would only take microamps to make the meter read something like 77VAC, but a perceptible tingle would reportedly take more like 1mA.
There is no problem in earthing the secondary center tap- if it blows a fuse, the transformer is faulty.
Best Answer
Mounting should be straightforward; if it's a classic EI transformer use a bolt and nut for all 4 mounting holes. Use spring washers so that the nuts don't come loose because of vibrations. A toroidal transformer often comes with mounting material, so use that.