Quite clearly, the inadequacy of IAF’s Su-30MKI and MiG-29 twin-engine fighters in the air superiority role led to the decision to acquire the Rafale, ostensibly a more modern and capable multi-role fighter. While both Russian fighters are highly manoeuvreable in a visual dogfight, as evidenced in several IAF exercises with RAF Typhoons and USAF F-15s, they seem to have shortcomings in network-centric, Beyond Visual Range (BVR) combat. This was noticed during the 27 February 2019 skirmish with PAF F-16s, when a pair of Su-30s failed to establish data link and were of no mutual support to each other. The capabilities of the much-touted N011M ‘Bars’ airborne intercept radar are also suspect as the patrolling Su-30s were unable to launch even a single radar-guided R-77 BVR missiles against two dozen PAF fighters milling in the area on 27 February. While a definitive conclusion about the shortcomings of the Su-30 fire-control radar and missiles cannot be made on the basis of a single engagement, it is clear that they were not at par with the PAF F-16/AMRAAM combo. IAF was aware of these limitations of the Russian fighters, which is why it had initiated measures for the acquisition of Western multi-role combat aircraft instead of more Su-30s, as far back as 2012.
While we are at it, it may
be worthwhile to have a cursory line comparison of the Rafale, F-16A and JF-17
in one-on-one visual air combat. All three aircraft have a ‘clean’
configuration Thrust-to-Weight Ratio of 1:1 and can climb and accelerate
equally well. In a turning fight, Aspect
Ratio and Wing Loading are critical parameters. The JF-17 and F-16A enjoy
better Aspect Ratios of 3.7 each, compared to the Rafale which stands at 2.6. A
better Aspect Ratio (square of wing span to wing area) implies better
aerodynamic efficiency due to less induced drag during turning. As for Wing Loading, or the weight of the
aircraft per unit area, the lesser the better. The Rafale has a slight edge, having 68 lbs/sq
ft compared to the JF-17 and F-16A, both of which have Wing Loadings of 77
lbs/sq ft. A lightly loaded wing helps
in a tighter turn, though in case of the Rafale, this advantage is overcome by greater
induced drag due its lower Aspect Ratio. In sum, all three fighters are alike,
more or less, in a turning fight.
Induction of the Rafale in
IAF has created considerable media interest, and the impression has been
created that with immediate effect, IAF will rule the Indian skies. It must,
however, be remembered that it will be at least two years before the Rafale
achieves anything close to Full Operational Capability[2].
PAF, on the other hand, has been flying F-16s for 37 years, including hot
scenarios during the Afghan War, in local counter-insurgency operations, and the
latest Operation ‘Swift Retort,’ downing half a dozen enemy fighters in these
operations. The JF-17 has been fully
operational for over a decade, and is expected to replace the legacy fighters
over the next five years. These combat-proven PAF fighters are fully integrated
with the air defence system, and are mutually data-linked, alongside all AEW
and ground sensors. Such capabilities
are not achieved overnight, and it will be several years before the Rafales can
be considered a threat in any real sense. Any immediate impact of the Rafale on
IAF’s air power capabilities is, thus, simply overhyped. This inference, however, must not be dealt
with lightly, as there is a distinct possibility of the Indian Prime Minister
using the Rafale for a false-flag operation in a surreptitious manner, to prove
his point that, “with the Rafale, the results would have been different,” from
those of 27 February 2019.
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[1] Some sources providing details of PL-15 maximum range:
https://www.iiss.org/publications/the-military-balance/the-military-balance-2018/mb2018-01-essays-1
https://www.globalsecurity.org/military/world/china/pl-15.htm
https://warontherocks.com/2018/02/not-fathers-plaaf-chinas-push-develop-domestic-air-air-missiles/
[2] For a minimum 1:1 pilot-cockpit ratio, 42 pilots need to be trained for 30 single-seat and 6 dual-seat Rafales. If two training courses of 10 pilots each are run per year, it is likely to take at least two years for these aircraft to be fielded in full strength.
Picture credit: Kristof Jonckheere (www.airliners.net)
© KAISER TUFAIL