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107-677: The Lockheed Martin C-130J Super Hercules is a four-engine turboprop military transport aircraft . The C-130J is a comprehensive update of the Lockheed C-130 Hercules , with new engines, flight deck , and other systems. The C-130J is the newest version of the C-130 Hercules, and the only model currently in production. As of March 2022, 500 C-130J aircraft have been delivered to 26 operators in 22 countries. On 16 December 1994, Lockheed received

214-400: A Pratt & Whitney Canada PT6 , and an under-speed governor on a Honeywell TPE331 . The turboprop is also distinguished from other kinds of turbine engine in that the fuel control unit is connected to the governor to help dictate power. To make the engine more compact, reverse airflow can be used. On a reverse-flow turboprop engine, the compressor intake is at the aft of the engine, and

321-424: A propelling nozzle . Air enters the intake and is compressed by the compressor. Fuel is then added to the compressed air in the combustor, where the fuel-air mixture then combusts . The hot combustion gases expand through the turbine stages, generating power at the point of exhaust. Some of the power generated by the turbine is used to drive the compressor and electric generator . The gases are then exhausted from

428-534: A Foreign Military Sales program. A contract with Lockheed Martin has not been signed. The Israeli Air Force is seeking to purchase nine C-130J-30s. In April 2010, Israel ordered one C-130J-30 with delivery in 2013, and was in contract talks for two more aircraft in June 2010. An option for a second C-130J-30 was exercised in April 2011, along with planning and advance long lead procurement of aircraft components to support

535-520: A bombing raid. In 1941, the engine was abandoned due to war, and the factory converted to conventional engine production. The first mention of turboprop engines in the general public press was in the February 1944 issue of the British aviation publication Flight , which included a detailed cutaway drawing of what a possible future turboprop engine could look like. The drawing was very close to what

642-798: A contract for three "stretched" Hercules in fiscal years 2022 and 2023 for testing and analysis for the TACAMO mission. Externally similar to the classic Hercules in general appearance, the J-model features considerably updated technology. These differences include new Rolls-Royce AE 2100 D3 turboprop engines, Dowty R391 six-bladed composite scimitar propellers that have blade tips swept by 35 degrees, digital avionics (including head-up displays (HUDs) for each pilot), and reduced crew requirements. These changes have improved performance over its C-130E/H predecessors, such as 40% greater range, 21% higher maximum speed, and 41% shorter takeoff distance. Because of

749-399: A crew chief for expeditionary operations. The C-130J's cargo compartment is approximately 41 feet (12.5 m) long, 9 feet (2.74 m) high, and 10 feet (3.05 m) wide, and loading is from the rear of the fuselage. The aircraft can be configured with the "enhanced cargo handling system". The system consists of a computerized loadmaster's station from which the user can remotely control

856-488: A day if necessary. The United States Navy is considering replacing its fleet of E-6B Mercury aircraft with C-130J-30 Hercules aircraft in the Take Charge And Move Out (TACAMO) survivable nuclear communications role. The U.S. Navy's Naval Air Systems Command (NAVAIR) posted a solicitation for fatigue test aircraft to a government procurement website on 18 December 2020. It is to award Lockheed Martin

963-678: A different supplier from China. Samsung later stated that "it is not possible to project the reliability" of the altered parts. The U.S. investigation reported that the problems on the Hercules first came to light in 2010 when the instrument panel failed on a U.S. Air Force aircraft during active duty. On 20 August 2013, the Indian Air Force performed the highest landing of a C-130J at the Daulat Beg Oldi airstrip in Ladakh at

1070-625: A first look at structural loads. The vehicle can then proceed with its maiden flight , a major milestone in any aircraft or launch vehicle development program. There are several aspects to a flight test program, among which: Testing that is specific to military aircraft includes: Emergency situations are evaluated as a normal part of all flight test program. Examples are: engine failure during various phases of flight (takeoff, cruise, landing), systems failures, and controls degradation. The overall operations envelope (allowable gross weights, centers-of-gravity, altitude, max/min airspeeds, maneuvers, etc.)

1177-442: A governor, and overspeed governor, and a fuel-topping governor. The governor works in much the same way a reciprocating engine propeller governor works, though a turboprop governor may incorporate beta control valve or beta lift rod for beta operation and is typically located in the 12 o'clock position. There are also other governors that are included in addition depending on the model, such as an overspeed and fuel topping governor on

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1284-437: A large aircraft are: Specific calibration instruments, whose behavior has been determined from previous tests, may be brought on board to supplement the aircraft's in-built probes. During the flight, these parameters are then used to compute relevant aircraft performance parameters, such as airspeed, altitude, weight, and center of gravity position. During selected phases of flight test, especially during early development of

1391-410: A mode typically consisting of zero to negative thrust, is used for all ground operations aside from takeoff. The Beta mode is further broken down into 2 additional modes, Beta for taxi and Beta plus power. Beta for taxi as the name implies is used for taxi operations and consists of all pitch ranges from the lowest alpha range pitch, all the way down to zero pitch, producing very little to zero-thrust and

1498-593: A new aircraft, many parameters are transmitted to the ground during the flight and monitored by flight test and test support engineers, or stored for subsequent data analysis. This provides for safety monitoring and allows for both real-time and full-simulation analysis of the data being acquired. When the aircraft or launch vehicle is completely assembled and instrumented, many hours of ground testing are conducted. This allows exploring multiple aspects: basic aircraft vehicle operation, flight controls , engine performance, dynamic systems stability evaluation, and provides

1605-432: A nine-month delay caused by undiscovered stall characteristics that required aircraft modification. The stall problem was caused by the additional power of the engines and the increase in propeller blades from 4 to 6, which changed the aerodynamics such that the aircraft had a greater tendency to stall and roll at lower speeds. Lockheed Martin spent five months making 20 unsuccessful attempts at aerodynamic solutions, but

1712-472: A pilot to predict the takeoff, climb, cruise, and landing performance of an aircraft. These charts, provided by the manufacturer, are included in the AFM /POH. Information the manufacturer provides on these charts has been gathered from test flights conducted in a new aircraft, under normal operating conditions while using average piloting skills, and with the aircraft and engine in good working order. Engineers record

1819-646: A program budget decision that ended the procurement of C-130J for the Air Force and completed the remaining KC-130J order for the Marine Corps in 2006, which would save US$ 5 billion in the Pentagon budget. Deficiencies with the C-130J that were cited to support the decision included being unable to drop heavy equipment, the inability to perform combat search-and-rescue missions, cold-weather performance issues,

1926-502: A single test flight for an aircraft is known as a Test Card. This will consist of a description of the Test Points to be flown. The flight test engineer will try to fly similar Test Points from all test plans on the same flights, where practical. This allows the required data to be acquired in the minimum number of flight hours. The software used to control the flight test process is known as Flight Test Management Software, and supports

2033-581: A small amount of air by a large degree, a low disc loading (thrust per unit disc area) increases the aircraft's energy efficiency , and this reduces the fuel use. Propellers work well until the flight speed of the aircraft is high enough that the airflow past the blade tips reaches the speed of sound. Beyond that speed, the proportion of the power that drives the propeller that is converted to propeller thrust falls dramatically. For this reason turboprop engines are not commonly used on aircraft that fly faster than 0.6–0.7 Mach , with some exceptions such as

2140-586: A specially trained test pilot , the data is gathered by a flight test engineer , and often visually displayed to the test pilot and/or flight test engineer using flight test instrumentation . It includes the analysis of a flight for certification. It analyze the internal and outer part of the flight by checking its all minute parts. Reporting includes the analyzed data result. Introduction Aircraft Performance has various missions such as Takeoff , Climb , Cruise , Acceleration , Deceleration , Descent , Landing and other Basic fighter maneuvers , etc.. After

2247-591: A test-bed not intended for production. It first flew on 20 September 1945. From their experience with the Trent, Rolls-Royce developed the Rolls-Royce Clyde , the first turboprop engine to receive a type certificate for military and civil use, and the Dart , which became one of the most reliable turboprop engines ever built. Dart production continued for more than fifty years. The Dart-powered Vickers Viscount

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2354-533: A total of 500 units have been produced. The Royal Australian Air Force was the second international customer for the C-130J-30, with an initial order of 12 aircraft. An order for two more aircraft was planned, but was replaced by the purchase of a fifth Boeing C-17 Globemaster III . On 2 November 2022, the US State Department approved the possible sale of 24 C-130Js worth up to $ 6.35 billion to

2461-536: Is an example of interpolating information from a takeoff distance chart: The make-up of the Flight Test Team will vary with the organization and complexity of the flight test program, however, there are some key players who are generally part of all flight test organizations. The leader of a flight test team is usually a flight test engineer (FTE) or possibly an experimental test pilot . Other FTEs or pilots could also be involved. Other team members would be

2568-914: Is conducted to certify that the aircraft meets all applicable safety and performance requirements of the government certifying agency. In the United States, this is the Federal Aviation Administration ( FAA ); in Canada, Transport Canada (TC); in the United Kingdom (UK), the Civil Aviation Authority ; and in the European Union , the European Aviation Safety Agency (EASA). Since commercial aircraft development

2675-489: Is coupled to the turbine through a reduction gear that converts the high RPM /low torque output to low RPM/high torque. This can be of two primary designs, free-turbine and fixed. A free-turbine turboshaft found on the Pratt & Whitney Canada PT6 , where the gas generator is not connected to the propeller. This allows for propeller strike or similar damage to occur without damaging the gas generator and allowing for only

2782-445: Is essentially certain maneuvers to be flown (or systems to be exercised). Each single test is known as a Test Point. A full certification/qualification flight test program for a new aircraft will require testing for many aircraft systems and in-flight regimes; each is typically documented in a separate test plan. Altogether, a certification flight test program will consist of approximately 10,000 Test Points. The document used to prepare

2889-487: Is established and verified during flight testing. Aircraft are always demonstrated to be safe beyond the limits allowed for normal operations in the Flight Manual. Because the primary goal of a flight test program is to gather accurate engineering data, often on a design that is not fully proven, piloting a flight test aircraft requires a high degree of training and skill. As such, such programs are typically flown by

2996-544: Is important to read every chart and understand how to use it. Read the instructions provided by the manufacturer. For an explanation on how to use the charts, refer to the example provided by the manufacturer for that specific chart. The information manufacturers furnish is not standardized. Information may be contained in a table format, and other information may be contained in a graph format. Sometimes combined graphs incorporate two or more graphs into one chart to compensate for multiple conditions of flight. Combined graphs allow

3103-681: Is in October of the same year and the third plane is in January 2027. In January 2022, the United States Department of State announced its approval of Egypt 's request to purchase 12 C-130J aircraft with related equipment and notified Congress. In 2022, the Swedish Air Force ordered four ex-Italian Air Force C-130J-30s for delivery in 2023 and 2024. This order was reportedly put on hold in 2023 for review. In 2024,

3210-474: Is lacking For this reason, flight testing is carefully planned in three phases: preparation; execution; and analysis and reporting. For both commercial and military aircraft, as well as launch vehicles, flight test preparation begins well before the test vehicle is ready to fly. Initially what needs to be tested must be defined, from which the Flight Test Engineers prepare the test plan, which

3317-458: Is normally funded by the aircraft manufacturer and/or private investors, the certifying agency does not have a stake in the commercial success of the aircraft. These civil agencies are concerned with the aircraft's safety and that the pilot's flight manual accurately reports the aircraft's performance. The market will determine the aircraft's suitability to operators. Normally, the civil certification agency does not get involved in flight testing until

Lockheed Martin C-130J Super Hercules - Misplaced Pages Continue

3424-407: Is that it can also be used to generate reverse thrust to reduce stopping distance on the runway. Additionally, in the event of an engine failure, the propeller can be feathered , thus minimizing the drag of the non-functioning propeller. While the power turbine may be integral with the gas generator section, many turboprops today feature a free power turbine on a separate coaxial shaft. This enables

3531-421: Is typically accessed by moving the power lever to a beta for taxi range. Beta plus power is a reverse range and produces negative thrust, often used for landing on short runways where the aircraft would need to rapidly slow down, as well as backing operations and is accessed by moving the power lever below the beta for taxi range. Due to the pilot not being able to see out of the rear of the aircraft for backing and

3638-575: The Embraer C-390 was chosen instead. In November 2022, the US agreed to a Foreign Military Sales purchase by Australia of 24 C-130J-30 aircraft, that will effectively double the RAAF fleet after the existing aircraft have been retired. In September 2024, NOAA announced an order for two modified C-130Js to replace its existing WP-3D Orion Hurricane Hunter aircraft. C-130Js have been involved in

3745-634: The P-3 Orion , and the C-130 Hercules military transport aircraft. The first turbine-powered, shaft-driven helicopter was the Kaman K-225 , a development of Charles Kaman 's K-125 synchropter , which used a Boeing T50 turboshaft engine to power it on 11 December 1951. December 1963 saw the first delivery of Pratt & Whitney Canada's PT6 turboprop engine for the then Beechcraft 87, soon to become Beechcraft King Air . 1964 saw

3852-841: The Piper Meridian , Socata TBM , Pilatus PC-12 , Piaggio P.180 Avanti , Beechcraft King Air and Super King Air . In April 2017, there were 14,311 business turboprops in the worldwide fleet. Between 2012 and 2016, the ATSB observed 417 events with turboprop aircraft, 83 per year, over 1.4 million flight hours: 2.2 per 10,000 hours. Three were "high risk" involving engine malfunction and unplanned landing in single‑engine Cessna 208 Caravans , four "medium risk" and 96% "low risk". Two occurrences resulted in minor injuries due to engine malfunction and terrain collision in agricultural aircraft and five accidents involved aerial work: four in agriculture and one in an air ambulance . Jane's All

3959-638: The Qatar Emiri Air Force . The contract is worth a total of US$ 393.6 million (~$ 526 million in 2023) and deliveries are scheduled to begin in 2011. The United Arab Emirates Air Force announced an order for 12 C-130J transports at the 2009 International Defence Exhibition (IDEX), with an announced value of US$ 1.3 billion. The United Arab Emirates requested 12 C-130Js through a Direct Commercial Sale in December 2009, with logistics support, training and related systems to be provided through

4066-614: The Tupolev Tu-114 can reach 470 kn (870 km/h; 540 mph). Large military aircraft , like the Tupolev Tu-95 , and civil aircraft , such as the Lockheed L-188 Electra , were also turboprop powered. The Airbus A400M is powered by four Europrop TP400 engines, which are the second most powerful turboprop engines ever produced, after the 11 MW (15,000 hp) Kuznetsov NK-12 . In 2017,

4173-403: The Tupolev Tu-95 . However, propfan engines, which are very similar to turboprop engines, can cruise at flight speeds approaching 0.75 Mach. To maintain propeller efficiency across a wide range of airspeeds, turboprops use constant-speed (variable-pitch) propellers. The blades of a constant-speed propeller increase their pitch as aircraft speed increases. Another benefit of this type of propeller

4280-529: The U.S. Naval Test Pilot School are the programs designed to teach military test personnel. In the UK, most military flight testing is conducted by three organizations, the RAF , BAE Systems and QinetiQ . For minor upgrades the testing may be conducted by one of these three organizations in isolation, but major programs are normally conducted by a joint trials team (JTT), with all three organizations working together under

4387-503: The U.S. Senate Armed Services Committee concluded that counterfeit parts in the Hercules and other American-made military equipment are prone to failure with potentially "catastrophic consequences." The U.S. congressional investigation reported the fake Hercules microchips were originally made by the Korean electronics giant Samsung in the 1990s, and more than a decade later, had been recycled, refurbished and remarked to appear genuine by

Lockheed Martin C-130J Super Hercules - Misplaced Pages Continue

4494-402: The post-mission phase of a returning booster flight on revenue launches—can be subject to the latter's statistically demonstrated higher risk of accidents or serious incidents. This is mainly due to the unknowns of a new aircraft or launch vehicle's handling characteristics and lack of established operating procedures, and can be exacerbated if test pilot training or experience of the flight crew

4601-586: The C-130J allowed the British Ministry of Defence to meet the 1996 deadline for replacing half of the RAF's aging fleet of Hercules aircraft, while the FLA aircraft was not at the time expected to be available until 2003. To speed up the sale of military and commercial versions of the aircraft, Federal Aviation Administration (FAA) civil certification was pursued before delivery would happen. Civil certification

4708-685: The C-130J are the USAF (including the Air Force Reserve Command and the Air National Guard ), United States Marine Corps (being their fourth variant after KC-130F, KC-130R and KC-130T,) United States Coast Guard , Indian Air Force , Royal Canadian Air Force , Royal Australian Air Force , Royal Danish Air Force , Royal Norwegian Air Force , Israeli Air Force , and the Italian Air Force . As of March 2022,

4815-855: The C-130J became part of a competition in the Peruvian Air Force for a medium transport aircraft. The Super Hercules was a candidate along with the EADS CASA C-295 , the Alenia C-27J Spartan , the Antonov An-70 , and the upgraded Antonov An-32 . The Peruvian Air Force selected the C-27J in November 2013. In 2015, the French Air Force ordered four Super Hercules to supplement existing capabilities due to

4922-592: The C-130J-30 as the preferred replacement for the Royal New Zealand Air Force 's five remaining C-130Hs that were planned to be in service until 2023. In November 2019, the US Defense Security Cooperation Agency notified Congress of the potential sale of five C-130Js, 24 engines and related equipment for an estimated cost of US$ 1.4 billion (~$ 1.65 billion in 2023). The sale was confirmed in June 2020, with

5029-598: The C-130J. By the end of 1998, the company owed the RAF about US$ 50 million (~$ 87.2 million in 2023) in penalties due to the delivery delays. FAA type certification occurred in September 1998 following 4,000 hours of flight testing . Deliveries commenced in 1999 as the Hercules C4 (C-130J-30) and Hercules C5 (C-130J). The standard C-130J had a flyaway cost of US$ 62 million in 2008. On 23 December 2004, U.S. Deputy Secretary of Defense Paul Wolfowitz approved

5136-481: The Flight Test Engineer in planning the test points to be flown as well as generating the required documentation. Once the flight test data requirements are established, the aircraft or launch vehicle is instrumented with a data acquisition system (DAS), or data acquisition unit (DAU) and sensors , to record that data for analysis. Typical instrumentation parameters recorded during a flight test for

5243-503: The Flight Test Instrumentation Engineer, Instrumentation System Technicians, the aircraft maintenance department (mechanics, electrical techs, avionics technicians, etc.), Quality/Product Assurance Inspectors, the ground-based computing/data center personnel, plus logistics and administrative support. Engineers from various other disciplines would support the testing of their particular systems and analyze

5350-545: The KAF's F-18s and augment its fleet of three militarized L-100s . Oman increased its C-130J order in August 2010 by adding two C-130Js to the single C-130J-30 ordered in 2009. Deliveries are to be completed by early 2014. The Royal Saudi Air Force has purchased two KC-130Js to be delivered in 2016. The Mexican Government has requested two C-130J-30s. The Mongolian Air Force is planning to buy three C-130Js. In July 2013,

5457-556: The Notice of Award has already been released for the acquisition of three C-130J-30 Super Hercules heavy transport aircraft from Lockheed Martin however no official announcement has been made by both parties including PAF. In October 2023, the DND announced the acquisition of three C-130J-30 with the contract worth ₱22.2 billion, the first C-130J is scheduled to be delivered in July 2026, the second

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5564-534: The Royal Australian Air Force. The Royal Norwegian Air Force ordered four C-130J-30s in 2007 to replace six aging C-130Hs in need of repairs. Aircraft were delivered from November 2008 to 2010. One of these was lost in March 2012. The Canadian Forces signed a US$ 1.4 billion (~$ 1.95 billion in 2023) contract with Lockheed Martin for seventeen new C-130J-30s in January 2008, as part of

5671-533: The Soviet Union had the technology to create the airframe for a jet-powered strategic bomber comparable to Boeing's B-52 Stratofortress , they instead produced the Tupolev Tu-95 Bear, powered with four Kuznetsov NK-12 turboprops, mated to eight contra-rotating propellers (two per nacelle) with supersonic tip speeds to achieve maximum cruise speeds in excess of 575 mph, faster than many of

5778-682: The US Operation Odyssey Dawn and NATO 's Operation Unified Protector during the 2011 Libyan civil war . From the first flight on 5 April 1996 to 30 April 2013, 290 C-130J Super Hercules aircraft operated by 13 nations surpassed 1 million flight hours. In January 2013, it was reported that some of Canada's CC-130J transports had counterfeit Chinese microchips in their cockpit displays that were made by an American Lockheed contractor L3 Communications . These parts are more likely to fail and result in failures such as blank instrument screens during flight. A 14-month investigation by

5885-550: The US government under its Foreign Military Sales (FMS) program. India has options to buy six more aircraft. The Indian government decided not to sign the Communications Interoperability and Security Memorandum of Agreement (CISMOA), which resulted in the exclusion of high precision GPS and other sensitive equipment. The IAF added similar equipment produced indigenously to the aircraft after delivery. In October 2011, India announced its intent to exercise

5992-468: The World's Aircraft . 2005–2006. Flight testing Flight testing is a branch of aeronautical engineering that develops specialist equipment required for testing behaviour and systems of aircraft or testing the atmospheric phase of launch vehicles and reusable spacecraft . Instrumentation systems are developed using proprietary transducers and data acquisition systems. Data is sampled during

6099-420: The additional expansion in the turbine system, the residual energy in the exhaust jet is low. Consequently, the exhaust jet produces about 10% of the total thrust. A higher proportion of the thrust comes from the propeller at low speeds and less at higher speeds. Turboprops have bypass ratios of 50–100, although the propulsion airflow is less clearly defined for propellers than for fans. The propeller

6206-414: The amount of debris reverse stirs up, manufacturers will often limit the speeds beta plus power may be used and restrict its use on unimproved runways. Feathering of these propellers is performed by the propeller control lever. The constant-speed propeller is distinguished from the reciprocating engine constant-speed propeller by the control system. The turboprop system consists of 3 propeller governors ,

6313-421: The charts contain and how to extract information from the charts by direct reading and interpolation methods. Every chart contains a wealth of information that should be used when flight planning. Examples of the table, graph, and combined graph formats for all aspects of flight will be discussed. Interpolation Not all of the information on the charts is easily extracted. Some charts require interpolation to find

6420-507: The civilian air tanker fleet. The latest generation MAFFS II system was used for the first time on a fire in July 2010, using the C-130J Super Hercules. The 146th Airlift Wing was the first to transition to the MAFFS II system in 2008, and it remains the only unit flying the new system on the C-130J aircraft. The largest operator of the new model is the U.S. Air Force, which has ordered the aircraft in increasing numbers. Current operators of

6527-418: The data acquired for their specialty area. Since many aircraft development programs are sponsored by government military services, military or government-employed civilian pilots and engineers are often integrated into the flight test team. The government representatives provide program oversight and review and approve data. Government test pilots may also participate in the actual test flights, possibly even on

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6634-669: The deicing problem discovered late in the certification program, the C-130J includes a black rubber deicing boot at the bottom of the vertical fin, which is another visual difference from previous versions of the Hercules. The J-model is available in a standard-length or stretched -30 variant. As a cargo and airlift aircraft, the C-130J's crew includes two pilots and one loadmaster (no navigator or flight engineer ), while specialized USAF variants (e.g., AC-130J, EC-130J, MC-130J, HC-130J, WC-130J) may have larger crews, such as navigators/ Combat Systems Officers or other specialized officer and enlisted air crew. The U.S. Marine Corps KC-130J uses

6741-740: The delayed deliveries of the Airbus A400M. In September 2018, Indonesia's state-owned news agency Antara reported that minister of defence Ryamizard Ryacudu said Indonesia is looking to acquire five C-130J Super Hercules aircraft. In September 2021, it was reported that Indonesia ordered five C-130J-30 aircraft from Lockheed Martin for the Indonesian Air Force in 2019, with the first aircraft already under construction. In 2023, Indonesian Air Force received its first C-130J-30 that arrived at Lanud Halim Perdanakusuma. In June 2019, New Zealand's Minister of Defence Ron Mark identified

6848-407: The exhaust is situated forward, reducing the distance between the turbine and the propeller. Unlike the small-diameter fans used in turbofan engines, the propeller has a large diameter that lets it accelerate a large volume of air. This permits a lower airstream velocity for a given amount of thrust. Since it is more efficient at low speeds to accelerate a large amount of air by a small degree than

6955-499: The first jet aircraft and comparable to jet cruising speeds for most missions. The Bear would serve as their most successful long-range combat and surveillance aircraft and symbol of Soviet power projection through to the end of the 20th century. The USA used turboprop engines with contra-rotating propellers, such as the Allison T40 , on some experimental aircraft during the 1950s. The T40-powered Convair R3Y Tradewind flying-boat

7062-564: The first deliveries of the Garrett AiResearch TPE331 , (now owned by Honeywell Aerospace ) on the Mitsubishi MU-2 , making it the fastest turboprop aircraft for that year. In contrast to turbofans , turboprops are most efficient at flight speeds below 725 km/h (450 mph; 390 knots) because the jet velocity of the propeller (and exhaust) is relatively low. Modern turboprop airliners operate at nearly

7169-460: The flight data and create performance charts based on the behavior of the aircraft during the test flights. By using these performance charts, a pilot can determine the runway length needed to take off and land, the amount of fuel to be used during flight, and the time required to arrive at the destination. The data from the charts will not be accurate if the aircraft is not in good working order or when operating under adverse conditions. Always consider

7276-417: The flight of an aircraft , or atmospheric testing of launch vehicles and reusable spacecraft . This data is validated for accuracy and analyzed to further modify the vehicle design during development, or to validate the design of the vehicle. The flight test phase accomplishes two major tasks: 1) finding and fixing design problems and then 2) verifying and documenting the vehicle capabilities when

7383-431: The flight testing, the aircraft has to be certified according to their regulations like FAA 's FAR , EASA 's Certification Specifications (CS) and India 's Air Staff Compliance and Requirements. 1. Flight Performance Evaluation and documentation 2. Reduction of Flight performance to standard conditions 3. Preparation and Validation of Performance Charts for Operating Data Manual (ODM) Performance charts allow

7490-441: The following notable accidents: Data from USAF C-130 Hercules fact sheet, International Directory of Military Aircraft , Encyclopedia of Modern Military Aircraft General characteristics Performance Related development Turboprop A turboprop is a turbine engine that drives an aircraft propeller . A turboprop consists of an intake , reduction gearbox , compressor , combustor , turbine , and

7597-417: The form of Hellfire or Griffin missiles, precision-guided bombs , and eventually 30mm Mk44 Bushmaster II cannon fire in a later upgrade. This capability, designated as "Harvest HAWK" (Hercules Airborne Weapons Kit), can be used in scenarios where precision is not a requisite, such as area denial . The aircraft retains its original capabilities in refueling and transportation. The kit can be removed within

7704-516: The full envelope expansion paradigm of traditional aircraft testing. Previous and current test programs include the early drop tests of the Space Shuttle , the X-24B , SpaceShipTwo , Dream Chaser , Falcon 9 prototypes , OK-GLI , and SpaceX Starship prototypes . Flight testing—typically as a class of non-revenue producing flight, although SpaceX has also done extensive flight tests on

7811-465: The future Rolls-Royce Trent would look like. The first British turboprop engine was the Rolls-Royce RB.50 Trent , a converted Derwent II fitted with reduction gear and a Rotol 7 ft 11 in (2.41 m) five-bladed propeller. Two Trents were fitted to Gloster Meteor EE227 — the sole "Trent-Meteor" — which thus became the world's first turboprop-powered aircraft to fly, albeit as

7918-585: The government, which would have exceeded the cost of buying the aircraft. In mid-June 2008, the United States Air Force awarded a $ 470 million (~$ 653 million in 2023) contract to Lockheed Martin for six modified KC-130J aircraft for use by the Air Force and Special Operations Command . The contract led to C-130J variants that will replace aging HC-130s and MC-130s . The HC-130J Combat King II personnel recovery aircraft completed developmental testing on 14 March 2011. The final test point

8025-443: The height of 16,614 ft (5,064 m). The Modular Airborne FireFighting System (MAFFS) is a self-contained unit used for aerial firefighting that can be loaded onto a C-130 Hercules, which then allows the aircraft to be used as an air tanker against wildfires . This allows the U.S. Forest Service (USFS) to use military aircraft from the Air National Guard and Air Force Reserve to serve as an emergency backup resource to

8132-430: The information for specific flight conditions. Interpolating information means that by taking the known information, a pilot can compute intermediate information. However, pilots sometimes round off values from charts to a more conservative figure. Using values that reflect slightly more adverse conditions provides a reasonable estimate of performance information and gives a slight margin of safety. The following illustration

8239-494: The launch order for the J-model from the United Kingdom's Royal Air Force (RAF). The C-130J launch order occurred after a UK government stalemate of several months that concerned whether to buy new transport aircraft from Europe or the United States. It was paired with a commitment to buy 40 to 50 of the proposed European Future Large Aircraft aircraft (FLA, which was later designated as the A400M ). The FLA commitment, which reduced

8346-471: The manufacturer has found and fixed any development issues and is ready to seek certification. Military programs differ from commercial in that the government contracts with the aircraft manufacturer to design and build an aircraft to meet specific mission capabilities. These performance requirements are documented to the manufacturer in the aircraft specification and the details of the flight test program (among many other program requirements) are spelled out in

8453-598: The military aircraft flight test is the Operational Test (OT). OT is conducted by a government-only test team with the dictate to certify that the aircraft is suitable and effective to carry out the intended mission. Flight testing of military aircraft is often conducted at military flight test facilities. The US Navy tests aircraft at Naval Air Station Patuxent River and the US Air Force at Edwards Air Force Base . The U.S. Air Force Test Pilot School and

8560-671: The most widespread turboprop airliners in service were the ATR 42 / 72 (950 aircraft), Bombardier Q400 (506), De Havilland Canada Dash 8 -100/200/300 (374), Beechcraft 1900 (328), de Havilland Canada DHC-6 Twin Otter (270), Saab 340 (225). Less widespread and older airliners include the BAe Jetstream 31 , Embraer EMB 120 Brasilia , Fairchild Swearingen Metroliner , Dornier 328 , Saab 2000 , Xian MA60 , MA600 and MA700 , Fokker 27 and 50 . Turboprop business aircraft include

8667-439: The necessity to compensate for the performance numbers if the aircraft is not in good working order or piloting skills are below average. Each aircraft performs differently and, therefore, has different performance numbers. Compute the performance of the aircraft prior to every flight, as every flight is different. Every chart is based on certain conditions and contains notes on how to adapt the information for flight conditions. It

8774-526: The new stall conditions. In late 1997, the company discovered that directional problems could be caused by ice build-ups. Because the AE 2100 engines were more powerful and fuel-efficient than the Allison T56 engines that they replaced, the engines no longer produced enough bleed air to continuously warm the tail. This situation had been anticipated, but the cyclic system that replaced the old de-icing system

8881-511: The ongoing problems and delays of the ordered Airbus A400M , through FMS the French got two C-130J in 2017/2018 and two KC-130J in 2018/2019 (helicopter refuelling capability), especially supporting French overseas operations in Africa. In January 2017, German defence minister announced the intention to purchase three C-130J and three KC-130J Hercules to acquire tactical airlift capabilities due to

8988-509: The option for the six additional aircraft, following the C-130J's favorable performance in the 2011 Sikkim earthquake relief operations. In July 2012, the U.S. accepted India's request for the six more C-130Js through the FMS program. In December 2013, India's CCS approved the order for six more aircraft. The Iraqi Air Force ordered six C-130J-30s in July 2008. Qatar ordered four C-130Js in October 2008, along with spare parts and training for

9095-447: The pilot to predict aircraft performance for variations in density altitude, weight, and winds all on one chart. Because of the vast amount of information that can be extracted from this type of chart, it is important to be very accurate in reading the chart. A small error in the beginning can lead to a large error at the end. The remainder of this section covers performance information for aircraft in general and discusses what information

9202-519: The planes expected to be delivered between 2024 and 2025. The first aircraft was delivered on August 8, 2024 at Lockheed Martin's facility in Marietta, Georgia. In September 2020, Philippine Air Force chief Allen T. Paredes planned to acquire five C-130J-30 aircraft. The quantity was later reduced to two after government funds were prioritized for the COVID-19 pandemic response . In December 2022,

9309-493: The power section (turbine and gearbox) to be removed and replaced in such an event, and also allows for less stress on the start during engine ground starts. Whereas a fixed shaft has the gearbox and gas generator connected, such as on the Honeywell TPE331 . The propeller itself is normally a constant-speed (variable pitch) propeller type similar to that used with larger aircraft reciprocating engines , except that

9416-585: The procurement process to replace the existing C-130E and H models. The C-130J is officially designated as the CC-130J Hercules in Canadian service. The first C-130J was delivered to CFB Trenton in June 2010. The final C-130J was delivered in May 2012. The Indian Air Force purchased six C-130J-30s in early 2008 at a cost of up to US$ 1.059 billion for its special operations forces in a package deal with

9523-534: The propeller to rotate freely, independent of compressor speed. Alan Arnold Griffith had published a paper on compressor design in 1926. Subsequent work at the Royal Aircraft Establishment investigated axial compressor-based designs that would drive a propeller. From 1929, Frank Whittle began work on centrifugal compressor-based designs that would use all the gas power produced by the engine for jet thrust. The world's first turboprop

9630-403: The propeller-control requirements are very different. Due to the turbine engine's slow response to power inputs, particularly at low speeds, the propeller has a greater range of selected travel in order to make rapid thrust changes, notably for taxi, reverse, and other ground operations. The propeller has 2 modes, Alpha and Beta. Alpha is the mode for all flight operations including takeoff. Beta,

9737-455: The risk of paratroopers hitting the fuselage when jumping out of the aircraft, major cost increases, and inadequate radar to fly into hurricanes. U.S. Secretary of Defense Donald Rumsfeld reversed this decision on May 10, 2005, after members of Congress stated that the canceling the pre-existing orders of 62 total Air Force aircraft over the following five years would result in about US$ 2 billion (~$ 3 billion in 2023) in termination costs to

9844-592: The same speed as small regional jet airliners but burn two-thirds of the fuel per passenger. Compared to piston engines, their greater power-to-weight ratio (which allows for shorter takeoffs) and reliability can offset their higher initial cost, maintenance and fuel consumption. As jet fuel can be easier to obtain than avgas in remote areas, turboprop-powered aircraft like the Cessna Caravan and Quest Kodiak are used as bush airplanes . Turboprop engines are generally used on small subsonic aircraft, but

9951-464: The size of the C-130J launch order, was intended to ensure a 20 percent British workshare in the FLA program, and to prevent German industry from threatening British Aerospace 's position as the wing manufacturer on the FLA and future Airbus commercial projects. The RAF ordered 25 aircraft for a total fixed price of US$ 1.6 billion (~$ 2.87 billion in 2023), with first deliveries originally scheduled to begin in November 1996. The promised deliveries of

10058-458: The stall problems were so varied that the fixes it tried to make applied only to specific conditions (such as only during power off, or only at full power). Lockheed Martin changed the cockpit to include a stick pusher , which takes control and automatically pushes down the aircraft's nose if the pilot does not respond to stall warnings. The stick pusher was meant to be a temporary addition until Lockheed Martin could find an aerodynamic fix for all of

10165-404: The statement of work. In this case, the government is the customer and has a direct stake in the aircraft's ability to perform the mission. Since the government is funding the program, it is more involved in the aircraft design and testing from early-on. Often military test pilots and engineers are integrated as part of the manufacturer's flight test team, even before first flight. The final phase of

10272-500: The third C-130J Israeli aircraft. The first Israeli C-130J was delivered in June 2013 and was modified with Israeli-unique systems in the United States prior to its arrival in Israel in April 2014. Israel ordered a fourth C-130J-30 in July 2013. The C-130J's local name is " Shimshon ". The Kuwait Air Force signed a contract for three KC-130J air refueling tankers in May 2010, with deliveries to begin in late 2013. The KC-130Js will refuel

10379-415: The turbine. In contrast to a turbojet or turbofan , the engine's exhaust gases do not provide enough power to create significant thrust, since almost all of the engine's power is used to drive the propeller. Exhaust thrust in a turboprop is sacrificed in favor of shaft power, which is obtained by extracting additional power (beyond that necessary to drive the compressor) from turbine expansion. Owing to

10486-493: The umbrella of an integrated project team (IPT) airspace. All launch vehicles , as well as a few reusable spacecraft, must necessarily be designed to deal with aerodynamic flight loads while moving through the atmosphere. Many launch vehicles are flight tested, with rather more extensive data collection and analysis on the early orbital launches of a particular launch vehicle design. Reusable spacecraft or reusable booster test programs are much more involved and typically follow

10593-536: The under-floor winch and configure the flip-floor system to palletized roller or flat-floor cargo handling. Initially developed for the USAF, this system enables rapid role changes to be carried out and so extends the C-130J's time available to complete taskings. The Super Hercules has been used extensively by the USAF and USMC in Iraq and Afghanistan. Canada has also deployed its CC-130J aircraft to Afghanistan. C-130Js from several countries have been deployed in support of

10700-528: The vehicle design is complete, or to provide a final specification for government certification or customer acceptance. The flight test phase can range from the test of a single new system for an existing vehicle to the complete development and certification of a new aircraft, launch vehicle, or reusable spacecraft. Therefore, the duration of a particular flight test program can vary from a few weeks to years. There are typically two categories of flight test programs – commercial and military. Commercial flight testing

10807-670: Was air-to-air refueling, and was the first ever boom refueling of a C-130 where the aircraft's refueling receiver was installed during aircraft production. This test procedure also applied to the MC-130J Combat Shadow II aircraft in production for Air Force Special Operations Command. With the addition of the Marine Corps ISR / Weapon Mission Kit, the KC-130J tanker variant will be able to serve as an overwatch aircraft and can deliver ground support fire in

10914-573: Was designed by the Hungarian mechanical engineer György Jendrassik . Jendrassik published a turboprop idea in 1928, and on 12 March 1929 he patented his invention. In 1938, he built a small-scale (100 Hp; 74.6 kW) experimental gas turbine. The larger Jendrassik Cs-1 , with a predicted output of 1,000 bhp, was produced and tested at the Ganz Works in Budapest between 1937 and 1941. It

11021-526: Was found to be insufficient when the C-130J flew in extreme conditions. This problem forced the company to extend the de-icing system higher and lower on the vertical stabilizer to prevent ice formation, causing another delay of five months. These issues resulted in Lockheed Martin exceeding its initial C-130J development budget of US$ 300 million. By May 1998, Lockheed had spent over US$ 900 million (~$ 1.57 billion in 2023) in development costs for

11128-478: Was not a regulatory requirement and was unneeded for the RAF launch order. However, certification was stipulated in Lockheed Martin's contracts with some subsequent customers, including the United States Air Force (USAF) and the Royal Australian Air Force (RAAF). The program suffered from problems such as software integration glitches that extended the schedule by three months, followed by

11235-467: Was of axial-flow design with 15 compressor and 7 turbine stages, annular combustion chamber. First run in 1940, combustion problems limited its output to 400 bhp. Two Jendrassik Cs-1s were the engines for the world's first turboprop aircraft – the Varga RMI-1 X/H . This was a Hungarian fighter-bomber of WWII which had one model completed, but before its first flight it was destroyed in

11342-599: Was operated by the U.S. Navy for a short time. The first American turboprop engine was the General Electric XT31 , first used in the experimental Consolidated Vultee XP-81 . The XP-81 first flew in December 1945, the first aircraft to use a combination of turboprop and turbojet power. The technology of Allison's earlier T38 design evolved into the Allison T56 , used to power the Lockheed Electra airliner, its military maritime patrol derivative

11449-603: Was the first turboprop aircraft of any kind to go into production and sold in large numbers. It was also the first four-engined turboprop. Its first flight was on 16 July 1948. The world's first single engined turboprop aircraft was the Armstrong Siddeley Mamba -powered Boulton Paul Balliol , which first flew on 24 March 1948. The Soviet Union built on German World War II turboprop preliminary design work by Junkers Motorenwerke, while BMW, Heinkel-Hirth and Daimler-Benz also worked on projected designs. While

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