Very interesting article from the internet.
In assessing the Flanker against the Super Hornet it is clear from the outset that the advantage in firepower, speed, raw agility, range and manoeuvre performance goes to the Flanker. Given that operational Flankers span variants from B through H, and type designations from Su-27S, through Su-30s to Su-35s, there are a wide range of configurations possible.
This has been further complicated by the Russian propensity to customise configurations for clients, and perform ongoing technology upgrades to operational variants. Another byproduct of Russian marketing is that the label Su-30 spans an upgraded Su-27SKM (Su-30KI) up to the Indian Su-30MKI, which uses extensive ly features demonstrated in the Su-37.
In terms of aerodynamic performance the Flanker sits broadly in the class of the F-15 family, with similar thrust / weight ratios at similar weights. The empty weight of Flanker variants ranges between 37,240 - 40,800 lb and internal fuel capacities between 20,750 - 22,600 lb.
At this time all production Flankers are flying with variants of the Saturn/Salyut Al-31F, which deliver static sea level thrust ratings in the 27 klb to 32 klb class, depending on the variant. This engine is comparable to the latest P&W F100 and GE F110 series engines, outperforming the smaller F404 series. In terms of supersonic speed, supersonic and subsonic acceleration and climb performance, the Super Hornet cannot compete with any Flanker variant.
High speed turning performance, where thrust limited, also goes to the Flanker, as does supersonic manoeuvre performance. The Super Hornet is severely handicapped by its lower combat thrust/weight ratio, and hybrid wing planform. It is worth observing that high alpha trim drag and pitch rates of the canard equipped Flanker variants, such as the Su-33 and Su-30MKI, will be superior to the versions without canards.
Where the Super Hornet is apt to be more competitive against the Flanker is in the near stall low speed high alpha flight regimes, where the Super Hornet's strakes and wing work well and advanced flight controls perform superbly. This is however not a regime favoured by combat pilots and thus not of significance in an assessment of combat potential.
The big gain in coming years for the Flanker in relative performance come with the new Al-41F engine, Russia's F119, now in Low Rate Initial Production (LRIP). The Al-41F delivers up to 40 klb class sea level static thrust, and high altitude dry thrust ratings to power the defunct supercruising MFI (Multi-Role Fighter).
The Russians have been flying derated 33 klb Al-41Fs in a Su-27S since 2004. With Al-41F engines installed the Flanker's robust margin in kinematic performance against the Super Hornet grows considerably in all regimes of flight – it provides the Flanker with 'F-22-like' raw agility and performance. With wing sweep, planform, forebody shaping and inlets built for Mach 2+ dash, a clean Flanker with Al-41Fs should supercruise effectively. A supercruising Flanker with TVC nozzles, ie AL-41FU, can use downward TVC to offset supersonic trim drag and thus achieve lower fuel burn in this regime.
However, its supersonic energy bleed performance may not measure up to the refined design of the newer supercruise optimised designs, such as the F-22 or MFI. The bigger issue for the Flanker in supercruise is the drag of external stores, which will compromise it decisively against an optimsied design in supersonic combat.
The fix for this limitation is a centreline tunnel conformal weapons pod for the R-74 and R-77 family AAMs. If and when reports of such a design emerge, we can be certain that Sukhoi are planning to play the supercruise game in earnest.
In terms of combat radius performance the Flanker outperforms the Super Hornet, even with the latter carrying external tanks. There is no substitute for clean internal fuel. The Flanker's radar aperture is twice the size of the Hornet family apertures, due to the larger nose cross section.
In terms of radar capabilities, existing Flankers are equipped mostly with variants of N-001, comparable to early F-15 APG-63s. The Su-35 carries the N-011, closer to a late model APG-63/70, and the Su-30MKI the NIIP N-011M BARS which is a hybrid phased array closest in technology to the much smaller RBE2 in the Rafale. The BARS can be supplied with a range of Travelling Wave Tube (TWT) power ratings, but cannot compete with the Super Hornet's liquid cooled APG-79 AESA.
The new Pero N-001 antenna upgrade package, using a space feed reflective passive phased array, is apt to have much better peak power handling potential to the BARS, in a much cheaper design, but is yet to enter production. The PLA is reported to have been evaluating one fo two prototypes. A major concern is that a low loss waveguide feed suitable for very high peak and average power levels is easily integrated in a space feed arrangement of this type, and thus a peak power rating exceeding that of the APG-79 is not that difficult to effect, TWT performance permitting. Cooling is not an issue in an airframe the size of the Flanker.
NIIP and Phazotron are known to have been working on an AESA design, and given the aperture size of the Flanker, an AESA radar in the power-aperture rating class of the F-22's APG-77 is a distinct possibility for a post 2010 Flanker. The only issue for the Russian radar houses will be the availability of Gallium Arsenide HEMT (High Electron Mobility Transistor) transistors for the radar modules. Compared to the Super Hornet's APG-79, a Flanker sized AESA even with inferior radar module performance can match the power-aperture rating and thus range of the APG-79.
The IDECM EWSP suite on the Super Hornet is more advanced than the EWSP suites on older Flanker variants. Defensive systems include a Radar Warning Receiver, mostly variants of the SPO-32 / L150 Pastel digital receiver carried. Newer Flankers however carry the podded wingtip mounted KNIRTI SPS-171 / L005S Sorbtsiya-S mid/high band defensive jammer, this system being an evolution of a jammer developed for the Backfire C. The Sorbtsiya-S, unlike most Western jamming pods, is designed to operate in pairs and uses forward and aft looking steerable wideband phased arrays to maximise jamming effect. It is worth observing that the Sorbtsiya is clearly built to provide cross-eye jamming modes against monopulse threats, and the wideband mainlobe steering capability provided by the phased array permits best possible utilisation of available jamming power. A graded dielectric lens is employed. Russian contractors have been using Digital RF Memory (DRFM) technology, which is of the same generation as Super Hornet EWSP. The Super Hornet does not have any compelling advantage in EWSP capability.
Computing capability in operational Flankers is mostly provided by legacy Russian hardware, but with some COTS (Commercial Off The Shelf) processors now appearing in radar upgrades and missile seekers. While this is an area where the Sukhois are barely competitive against the current Super Hornet, it is the easiest of all of the performance gaps for the Russians to close.
In summary, the Flanker outperforms the Super Hornet decisively in aerodynamic performance. What advantage the Super Hornet now has in the APG-79 radar will vanish in coming years as Russian AESAs emerge. The one area in which the Flanker currently trails the Super Hornet is in radar signature (stealth) performance. The Super Hornet has inlet geometry shaping, inlet tunnel S-bends, and an AESA shroud all of which reduce its forward sector signature well below that of the Flanker.
In the short term, this is an advantage the Super Hornet retains, with the caveat that external stores put hard limits on signature improvement for the Super Hornet. However, Russian researchers have done some excellent work over the last decade in absorbent materials and laminate techniques for radar signature reduction, which offer the potential for the Flanker to achieve similar signature reduction to the F/A-18E/F. If funded, a reduced signature Flanker is feasible in the next half decade.
In conclusion, the Flanker in all current variants kinematically outclasses the Super Hornet in all high performance flight regimes. The only near term advantage the latest Super Hornets have over legacy Flanker variants is in the APG-79 AESA and radar signature reduction features, an advantage which will not last long given highly active ongoing Russian development effort in these areas. The supercruising Al-41F engine will further widen the performance gap in favour of the Flanker. What this means is that post 2010 the Super Hornet is uncompetitive against advanced Flankers in BVR combat, as it is now uncompetitive in close combat. (adapted from http://www.ausairpower.net)
p/s: From this article i can make a simple conclusion that Malaysia should looking for the Russian Combat aircraft rather than choose the American one. Besides, the price is quite low than American one.
