May 31, 2013:
On May 22nd the first production model of the U.S. Navy MQ-4C Triton UAV took off and began its flight testing. This first flight lasted 80 minutes and the UAV went as high as 6,100 meters (20,000 feet). Previously the navy had just been using two air force MQ-4Bs modified to Triton specs for testing. The naval patrol version of the U.S. Air Force RQ-4 Global Hawk is called the MQ-4C Triton and BAMS (Broad Area Maritime Surveillance). The navy version has additional protection against salt damage and a set of sensors optimized for monitoring water rather than land.
Earlier this year the navy began forming its first Triton UAV squadron. Called VUP (Unmanned Patrol Squadron) 19 it will be in service by October on the east coast of the United States, where it will handle operations over the Atlantic. A second squadron will enter service next year on the west coast to cover the Pacific. The navy plans to buy 68 Tritons and 117 P-8As jet aircraft to replace prop driven 250 P-3Cs. This replacement program is supposed to be complete in about a decade. The new surveillance aircraft provide more information over a wider area and do it more quickly.
The Triton has already been in service on an experimental basis using the modified RQ-4Bs. Last year, two years after extensive tests in the Middle East, the Triton began operating with a carrier task force at sea. Circling above the task force at 22,500 meters (70,000 feet), Triton monitored sea traffic off the Iranian coast and the Straits of Hormuz. Anything suspicious is checked out by carrier, land based aircraft, or nearby warships. The Triton aircraft can fly a 24 hour sortie every three days. The first production Triton was delivered in late 2012 and now is in the air.
In 2009, the first year of Triton testing consisted of 60 flights and over 1,000 hours in the air. The flights were over land and sea areas, even though the UAV sensors are designed mainly to perform maritime reconnaissance. Air Force Global Hawk maintenance personnel assisted the navy in tending to the navy RQ-4 while it was on the ground and for landings and takeoffs. The UAV was operated by navy personnel back in the United States at Patuxent River Naval Air Station. A year earlier the navy began training four of its personnel (three P-3 pilots and one civilian) to operate RQ-4s. The four navy operator trainees were in an accelerated course (four months instead of five) and were available to help fly U.S. Air Force RQ-4s before the navy RQ-4s test model became operational in 2009.
The manned P-3 replacement (the P-8A) is expected to complement Triton. Although the Boeing 737 based P-8A is a two engine jet, compared to the four engine turboprop P-3C it is replacing, it is a more capable plane. The P-8A has 23 percent more floor space than the P-3 and is larger (an 18 percent longer wingspan) and heavier (83 tons versus 61). Most other characteristics are the same. Both can stay in the air about ten hours per sortie. Speed however is different. Cruise speed for the 737 is 910 kilometers an hour, versus 590 for the propeller driven P-3. This makes it possible for the P-8A to get to a patrol area faster, which is a major advantage when chasing down subs spotted by sonar arrays or satellites. However, the P-3 can carry more weapons (9 tons versus 5.6). This is less of a factor as the weapons (torpedoes, missiles, mines, sonobouys) are more effective, and often lighter, today and that trend continues. Both carry the same size crew, of 10-11 pilots and equipment operators. Both aircraft carry search radar and various other sensors. While the Triton can stay in the air longer, the P-8A carries weapons and is more effective at finding, and destroying, submarines (and even surface ships lacking long-range air defense systems).
The 737 has, like the P-3, been equipped with bomb hard points on the wings for torpedoes or missiles. The B-737 is a more modern design and has been used successfully since the 1960s by commercial aviation. Navy aviators are confident that it will be as reliable as the P-3. (The P-3 was based on the Electra civilian airliner that first flew in 1954. Although only 170 were built, plus 600 P-3s, about 20 Electras are still in service.) The Boeing 737 first flew in 1965, and over 5,000 have been built. The P-8A will be the first 737 designed with a bomb bay and four wing racks for weapons.
The Navy is buying a modified version of the B model of the RQ-4 for over $60 million each. This version is larger (wingspan is 5 meters/15 feet larger, at 42.2 meters/131 feet, and it's nine percent longer at 15.5 meters/48 feet) than the A model and can carry more equipment. To support that, there's a new generator that produces 150 percent more electrical power. The RQ-4 has a range of over 22,000 kilometers and a cruising speed of 650 kilometers an hour.
The first three RQ-4Bs entered service in 2006. At 13 tons the Global Hawk is the size of a commuter airliner (like the Embraer ERJ 145) but costs nearly twice as much. Global Hawk can be equipped with much more powerful and expensive sensors, which more than double the cost of the aircraft. These "spy satellite quality" sensors (especially AESA radar) are usually worth the expense because they enable the UAV, flying at over 20,000 meters (62,000 feet), to get a sharp picture of all the territory it can see from that altitude. The B version is supposed to be a lot more reliable. Early A models tended to fail and crash at the rate of once every thousand flight hours.
The maritime RQ-4 is seen as the ultimate replacement for all manned maritime patrol aircraft, at least once it is equipped with more anti-submarine sensors and weapons. The P-8A will probably be the last manned naval search aircraft. Some countries are using satellite communications to put the sensor operators who staff manned patrol aircraft on the ground. Some nations propose sending aircraft like the P-3 or P-8 aloft with just their flight crews, having all the other gear operated from the ground. This enables the aircraft to stay in the air longer and carry more gear.