China has launched its first home-built aircraft carrier—a clone of the Russian Kuznetsov class carrier Beijing obtained through a dizzying transfer scheme executed nearly two decades ago.
Via: Tyler Rogoway
Since then, China restored the rusting hulk of that carrier, known originally as Riga, into its first operational carrier, the Liaoning (CV-16). Deeply refurbishing a carrier that many thought was unsalvageable gave China a thorough understanding of how the ship was built, which was absolutely necessary in order for the country to construct a carrier on its own. As such, China’s home-built carrier is truly an example of reverse engineering on a grand scale.
Today’s launch is not only a logical step, but also an impressive one that brings Beijing closer towards achieving its goal of fielding a robust carrier-borne naval aviation capability. It will also work as a springboard for developing an entirely original carrier design that leverages catapult and other more complex technologies.
The carrier is nearly identical to its foreign-born sister ship, although there are slight differences. Its planform has some small modifications—a nip here and a tuck there. Our friends over at CSIS have kept a really close eye on this new Kuznetsov class derivative and concluded that these are the small differences between Type 001 and Type 001A:
- The control tower island of the Type 001A is approximately 10 percent smaller than that of the Liaoning.
- It displaces roughly 65,000 – 70,000 tons, a few thousand more tons than the Liaoning.
- It features the advanced Type 346 S-band AESA radar system.
- Its air wing is expected to be slightly larger than that of the Liaoning, featuring around 8 additional aircraft.
- The Type 001A may have an internal arrangement that is better optimized than the Liaoning’s.
This new carrier will become active around 2020, and will serve alongside Liaoning as China’s primary means of power projection throughout the region. But before then, it will require its sub-systems to be installed, including its sensors and defensive weapons, and it will have to go through a series of sea trials and certification activities before officially being deemed fit for duty.
Much is made of China’s aircraft carriers and their capabilities versus America’s nuclear powered supercarrier force. This debate is really just a distraction as these ships are not meant to go toe-to-toe with their American counterparts, especially not in a “blue sea” vacuum-like combat environment. Instead, these carriers and the flotillas that will accompany them are meant to project power on a regional scale—to dominate small nations and their territorial claims within China’s immediate sphere of influence—and to maintain parity, if not outright superiority, within the naval realm among more powerful potential foes, such as India and Japan.
It is thought that China will start building a CATOBAR carrier design, dubbed the Type 002, now that this new ship has been launched or possibly after one more Type 001A class carrier is constructed. China has been testing steam catapults—and what appears to be a system similar to the Navy’s magnetic EMALS catapult system—for some time now at a specially-built facility similar to the Navy’s Lakehurst test center. A J-15 specially modified for catapult operations, featuring a nose gear launch bar, has also been spotted. India is also working to field a CATOBAR carrier as well, with a design that will feature EMALS technology (via the US), as well as nuclear power, slated to be in service in the mid to late 2020s.
Above all else, constructing the Type 001A has given China direct insight on how to build a massive war fighting ship, and specifically one capable of operating large fixed-wing fighters from its deck. As a result, the country has made a giant leap toward successfully generating the necessary set of skills to build even more complex CATOBAR carriers in the not so distant future.