Friday, August 7, 2009

AASI Jetcruzer aircraft


The groundbreaking Jetcruzer 500 is premeditated to be a spot swiftness low cost sole engine organized airplane and is the creation of California supported Late Aerodynamics and Structures Inc (AASI).

The Jetcruzer 500 is supported on the smaller, unpressurised Jetcruzer 450. Archean organisation succeed for what would metamorphose the Jetcruzer 450 began in 1983. Expression of an Allison 250-C20S supercharged image began in 1988. It flew for the introductory minute on January 11 1989.

The preproduction epitome prototypic flew Apr 1991, and the premiere creation standardised Jetcruzer 450 on Sep 13 1992. When FAA Move 23 papers was granted on June 14 1994 the Jetcruzer became the archetypal aircraft in the reality to be certified as spin nonabsorbent.

AASI elected not to point the 450 into creation and instead focussed its efforts on the pressurised 500. Initial utilise was on the 500P, which featured a unassuming 25cm (10in) fuselage oscitance, but AASI instead definite to increase the decoration promote. The explicit Jetcruzer features a 1.83m (6ft) fuselage strain over the 450 (progressive cabin size by 90cm (3ft), quality a significantly writer regnant PT6A66 turboprop dynamical a digit (rather than tierce) foliage object, pressurisation to 30,000ft, an airstair content entranceway on the hand give take and more cabin windows.

No. flying of the epitome 500 (the restricted preproduction prototype 450) was in Aug 22 1997, followed by the indorse example (the modified creation 450) on Nov 7 1997.

Separate notable Jetcruzer 500 decoration features include its canard configuration (which allows the main wing to be positioned further aft than median, so the wing spars do not impose into the cabin), demand of surface (reducing aviator work worry and manufacturing costs and action metric), and elective EFIS avionics. Suchlike the 450 the 500 instrument be documented as twirl nonabsorbent. The fuselage is prefabricated from composites spell the formation and canard are aluminium.

On February 8 2002, AASI announced that it was winning over the Mooney assets, and that the slang Mooney would be old for the cooperative companies. Office, processing, and marketing would remain at AASI's installation at Eternal Beach in Calif., but creation of the Jetcruzer would be at Mooney's Kerrville, Texas being.

The lot is also working on the Stratocruzer 1250, a 13 piazza agree WilliamsRolls FJ-44 supercharged pastel corporate jet processing.


Saturday, April 12, 2008

Waco UPF-7


Waco UPF-7

The Waco UPF-7 is an unusual airplane. This is not due to any outstanding technical features but to timing. A relatively obsolete design, it was built in quantity at a time when the open cockpit biplane trainer for civilian use was virtually extinct. Even then, it slipped into service unnoticed since it had no significant new features to arouse the interest of the contemporary aviation press.

Production of commercial biplane trainers virtually ended in Depression years of the early 1930s, and new low-powered monoplanes rapidly took their place in the schools and in private aviation. Only the Army and Navy were principal customers for biplane trainers in succeeding years. While Waco did not have a share of this market, it was one of the few firms that continued to supply open cockpit biplanes to private owners of the mid-1930s, a group comprising what could be considered a custom trade. Yet the UPF-7, introduced in the late twilight of the biplane era, was built in greater quantity than any single Waco model that preceded it. Approximately 600 came out of the Troy, Ohio factory between 1937 and 1942.


The reason for the volume production was inherent in the times. The imminence of World War II had shaken the government into expansion of the armed forces, including their air arms. While more cadets were trained by the services, and more biplane trainers were produced, Waco still did not obtain any significant military trainer business


Waco UPF-7s, Boeing School of Aeronautics, Oakland Airport, California. September 23, 1941.

Waco UPF-7 CPTP war machine, December 23, 1941. Large US and red center star were added shortly after December 7 to enable these planes to continue flying in the war zone.

The UPF-7 was a continuation of the Waco "F" series which had been introduced with Model INF of 1930, a three-seater powered with a 100 hp Kinner K-5 engine. Other Fs in the series used a variety of engines up to 220 hp. The UPF-7 standardized on the 220 hp Continental W-670-6A, civil equivalent of Continental's R-670 military engine.

Its designation reflected the principal design characteristics of the airplane - - the letter "U" identified the engine as the W-670, the "P" identified the wing and fuselage design, the "F" identified the model type or series. Details like landing gear and tail shape varied greatly through the series.


While the UPF-7 was built in the largest numbers, there were limited other versions also built, mostly for special customers. These were known as LPF, VPF, YPF, and ZPF models. The only difference being the installation of different engines.

Essentially a state-of-the-art refinement of the 193

0 model, the UPF-7 retained its major features, particularly the heavily staggered wings with the strut-connected ailerons in upper and lower panels. The earlier Fs were all built as three-seaters, with two passengers seated side-by-side in the front cockpit. The UPF-7 was intended to be a dual-control trainer, but when the stick was removed, the front seat was wide enough to accommodate two passengers.


The Waco XPT-14, s/n 39-702, was only slightly altered from standard UPF-7 for Army trainer competition. Narrow tread landing gear was principal recognition feature along with out-of-proportion national insignia.

The XPT-14 was somewhat modified from UPF-7 sta

ndards to meet military requirements. It had a direct-cranking starter and civil instruments, but was most notable for its considerably narrower landing gear and a full-NACA engine cowling. The YPT-14s, with military instruments and hand-inertia starters, were virtually stock UPF-7 airframes with wide landing gear and cowled engines.

The XPT-14, s/n 39-702, was lost in a freak accident on October 11, 1939.

Waco sent a replacement to Wright Field to carry o

n where the XPT-14 left off. This was a standard UPF-7 carrying civil registration NC20907, c/n 4659. The plane was overall silver in color and had an uncowled engine. No military markings were ever applied.


Waco UPF-7 modified with Lycoming R-680-13.

At least 34 UPF-7s were obtained by the CAA direct from the factory finished in the standard FAA orange and black lettering. These had varied registration numbers, NC152 through NC185. Standard factory colors for UPF-7s were the same or

ange yellow wings and tail with trainer blue fuselage used by the Army trainers at the time.

Significant private ownership of UPF-7s did not occur until late in WWII, when some of the training schools were phased out. The government bought a number of the unemployed UPF-7s for the surviving schools, but others found new civil owners, particularly crop dusters that were hungry for replacement airplanes in a nation geared to military production. After the war, the UPF-7s did not have any particular appeal to non-commercial owners; they were just cheap old airplanes, good for time building by pilots who flew them

for little more than the cost of fuel. More then ended up in the dusting business, which at the time operated almost exclusively with obsolete airplanes. A few, thanks to their low cost and good cooling of the radial engine, found homes in glider clubs where they made fine tow-planes. Although used for aerobatics training, the UPF-7 could not match the Stearman/Boeing "Kaydet" at air show work and so did not find a new career in that field.

The birth of the antique airplane boom in the 1950s gave the venerable Waco UPF-7 a new lease on life. Many worn-out hulks that had been out of license for years, plus a good number of junked "basket cases" were rescued from their positions in the weeds behind the hangar, lovingly restored, and put back in the air by new owners. Others became available to the antiquers when new designed-for-the-purpose monoplane dusters forced more and more of the old biplane conversions out of the agricultural fleet. These were relatively easy to convert back to "two-holers" for the helmet-and-goggles set.

In addition to the current nostalgic hobby activities, some UPF-7s are back in commercial operation at schools that teach aerobatics while others, thanks to two-seat front cockpits, hop paying passengers at air shows. Some are used for barnstorming in search of passengers.

As is customary with hobby airplanes, many of the UPF-7s have undergone considerable modification at the hands of the antiquers. However, they stay within the limitations of their standard licenses. While Waco was famous for the high quality finish on some of its custom models of the 1930s, no UPF-7 ever left the factory with the quality of finish applied by some of the antiquers of today - - 24 coat hand-rubbed dope j

obs, chromed metal parts, arty paint jobs and metallic tape striping and lettering. The most common modification is the addition of a full cowling around the engine, as used by the PT-14s and the use of wheel pants.

An oddity of the antique boom was the popularity of the colorful pre-WWII Army paint job and markings for those airplane models that could have used them. Thanks to a few PT-14s, the UPF-7 qualifies for these legitimately.

Of course, many of these have minor goofs in the placement of proportions of the markings, but the spirit is there. The most common error is to make the vertical blue rudder strip too narrow (it should be one-third the maximum chord of the rudder), No one has carried marking accuracy so far, however, as to reproduce a major error committed in the Waco paint shop. The wing stars on all PT-14s were way out of proportion, an error Waco repeated on its prototype Army gliders, the XCG-3 and XCG-4.

From the original 600, the total of Waco UPF-7s has decreased steadily. Today there are more than 150 registered.


Friday, April 11, 2008

F3D Skyknight

F3D Skyknight Specifications
Primary Function: Carrier-based night fighter
Contractor: Douglas Aircraft Corp.
Crew: Two
Unit Cost: N/A
Powerplant
Two Westinghouse J34-WE-34 turbojets rated at 3,250 lb. thrust each. (F3D-1/-2)
Two Westinghouse J46-WE-36 engines rated at 3,400 lb thrust each (F3D-3)
Dimensions
Length: 45 feet 5 inches
Wingspan: 50 feet
Height: 16 feet 1 inches
Weights
Empty: 14,890 lb
Maximum Takeoff: 27,362 lb
Performance
Speed: 530 mph at sea level, 425 mph at ceiling
Ceiling: 44,000 feet
Range: 1,318 mi
Armament
Four 20-mm cannons, 4,000 lb of bombs, rockets, or fuel tanks on underwing pylons
Service Life
First Flight: March 23, 1948
End of Service: 1978
Number Built: [~268 total]

History of Aviation

I. INTRODUCTION

Aviation is defined as the design, manufacture, use, or operation of aircraft - in which the term aircraft refers to any vehicle capable of flight. Aircraft can either be heavier-than-air or lighter-than-air, lighter-than-air craft including balloons and airships; and heavier-than-air craft including airplanes, autogiros, gliders, helicopters, and ornithopters.

For centuries man has dreamed to soar with the birds. Famous inventors such as Leonardo da Vinci, John Stringfellow, and Lawrence Hargrave have conjured up ideas of how to get some of the strangest machines to fly long before the Wright brothers' famous first flight at Kitty Hawk.


II. EARLY AVIATION

The first form of an aircraft was the kite, designed in the 5th century BC. Later on in the 13th century, Roger Bacon, an English monk, performed studies which later gave him the idea that air could support a craft just like water supports boats. In the 16th century, Leonardo da Vinci studied birds flight, and later produced the airscrew and the parachute. The airscrew, leading to the propeller later on, and the parachute were tremendously important contributions to aviation. He envisioned three different types of heavier-than-air craft; the helicopter, glider, and ornithopter (a machine with mechanical wings which flap to mimic a bird). Although Leonardo's designs were impractical, seeing they required human muscular power which was insufficient to generate flight with the aircraft he envisioned, he was vital to aviation because he was the first to make scientific suggestions.


III. THE 19TH CENTURY

Some of the more credible developments in actual flight and stability occurred in the 19th century. British Sir George Cayley designed a combined helicopter and horizontally propelled aircraft, and British Francis Herbert Wenham used wind tunnels in his studies and predicted the application of multiple wings placed above each other. Another famous inventor was John Stringfellow, who designed a steam engine powered aircraft which was launched from a wire. This model demonstrated lift but failed to actually climb. Lawrence Hargrave, a British-born Australian inventor, created a rigid-wing aircraft with flapping blades operated by a compressed-air motor, it flew 312 ft (95m) in 1891. A famous glider developer in the 19th century was Jean Marie Le Bris, a Frenchman who tested a glider with movable wings.

Kites also played an important role in the development of aviation, they could be used to test aerodynamics and flight stability. Lawrence Hargrave first created the box kite in 1893, and Alexander Graham Bell developed a gigantic passenger-carrying tetrahedral-celled kite from 1895 to 1910. Alexander Graham Bell's Tetrahedral Kite
Some of the most important full-scale model flight attempts were made by Samuel Langley, who created the first heavier-than-air, gasoline-powered engine which actually flew. The 'aerodrome', which he called it, was powered by a 53 horsepower 5-cylinder radial engine and later crashed into the Potomac river on December 1903 -- days before the Wright's historic flight.

Throughout this century, major developments would give inventors a sound basis in experimental aerodynamics, although stability and control required for sustained flight had not been acquired. Most importantly, inventors noticed that successful powered flight required light gasoline engines instead of the cumbersome steam engines previously used.


IV. KITTYHAWK AND AFTER

From 1903 to today, its remarkable how far aviation has come. On December 17, 1903, at 10:35 a.m., the Wright brothers' (Orville at the controls) made the first heavier-than-air, machine powered flight which lasted 12 seconds and spanned 120 feet. The first manned flight in history: December 17, 1903. At 10:35 a.m. The distance covered was 120 feet, time aloft was 12 seconds.
Their first flight was 102 feet short of the wingspan of the C-5 Galaxy today, yet they did what every man and woman has dreamed for centuries. . . they flew. Yet, not all flights were victorious, on September 17, their aircraft crashed, injuring Orville and his passenger (Lieutenant Thomas E. Selfridge). Selfridge later died of a concussion and was the first person to be killed in a powered airplane. Yet the show went on and Wilbur went to France in August 1908, and on December 31, 1908, he completed a 2 hour 20 minute flight which demonstrated full control over his Flyer. The Flyer was purchased on August 2 and became the first successful military airplane. It remained in service for around two years and was retired to the Smithsonian Institution where it rests today.

Well-known in the aviation field by this time, Glenn Hammond Curtiss won the first American award, the Scientific American Trophy, for an airplane flight when he flew the 'June Bug' 5090 ft (1552m) in 1 min 42.5 sec on July 4, 1908. Curtiss also went on to win the first international speed event, at about 47mph (75.6 km/h), on August 28, 1910. He also became the first American to develop and fly a seaplane -- the first successful seaplane flight having been done by Henri Fabre of France on March 28, 1910.

Before World War I, airplane design greatly improved. Pusher biplanes (two-winged airplanes with the engine and propeller behind the wing) were succeeded by tractor biplanes (two-winged airplanes with the engine and propeller in front of the wing). Monoplane designs were rare, and when World War I began, huge biplane bombers with two to four engines were developed. Airmail was also started, although it only lasted a week. The first airmail officially approved by the U.S. Post Office Department began on September 23, 1911, and the pilot (Earle Ovington) would carry the mail on his legs and tossed the bag overboard when he reached his destination. Also in 1911, the first transcontinental flight across the U.S. was completed by Calbraith P. Rodgers. His flight from New York to California took 3 days, 10 hours, and 14 minutes, and was by a Wright aircraft.


V. BEFORE WORLD WAR II

Between 1919 and 1926, some amazing progress in record breaking for aviation took place. Captain E. F. White made a nonstop flight from Chicago to New York (727 mi - 1170km) in 1919, and Lieutenant Oakley Kelly and Lieutenant John A. Macready made the first nonstop transcontinental flight from May 2 to May 3, 1923. This flight was made from Roosevelt Field, Long Island to Rockwell Field, San Diego; and the first round the world flight was made from April 6 to September 28, 1924. Also in 1919, the first nonstop transatlantic flight was made by John William Alcock and Arthur Whitten Brown on June 14 to June 15. It took a little over 16 hours to complete and they won the "London Daily Mail" prize of $50,000.

Mail delivery also took a major turn during these years. In 1925, Congress passed the Kelly Air Mail act which authorized the Post Office Department to contract with air-transport operators. This made it possible to transport U.S. mail by air; after this, 14 domestic airmail companies were created in 1926.


VI. DURING WORLD WAR II

During World War II, aircraft became a decisive factor in warfare. The largest operator of all international airlines in operation at this time was Pan American Airways. Pan American served 46 countries and colonies linking all continents and nearly all oceans. Small aircraft production increased significantly. Before World War II only about 193,000 people were employed in the aviation industry, and during 1941 the number increased to 450,000; also, around 3,375,000 passengers were transported by 18 U.S. airlines at this time, around 1 million more than in 1940. Airmail and express cargo would also increase by around 30 percent. But by the end of World War II, a new frontier of flight would take shape, jet and rocket propelled aircraft.


VII. AFTER WORLD WAR II

After World War II and by 1947 all the basic technology needed for aviation had been developed; jet propulsion, aerodynamics, radar, etc. Civilian aircraft orders drastically increased from 6,844 in 1941 to 40,000 by the end of 1945. One of the minor military contractors was the Boeing Company who later became the largest aircraft manufacturer in the world. With all the new technologies developed by this time, airliners were larger, faster, and featured pressurized cabins. New aerodynamic designs, metals, and power plants would result in high-speed turbojet airplanes. These planes would later be able to fly supersonically and make transoceanic flights regularly.

One of the more famous record breaking flights around this time was the Voyager, developed by Burt Rutan. The aircraft held 1,200 gallons (4500 liters) of fuel in its 17 fuel tanks. It weighed about 9,750 lb (4420 kg) at takeoff and only 1,858 lb (840kg) on landing. The flight, The first airplane to circumnavigate the earth nonstop on a single load of fuel was the Voyager.
maintaining an average speed of 115.8 mph (186.3 km/h), lasted 9 days, 3 minutes, 44 seconds and covered 25,012 miles (40254 km) and was completed in December 1986.

Wednesday, April 9, 2008

Aircraft Engines

The CF34 sparked one of the most important events in commercial aviation: the introduction of the regional jet. The latest CF34 engine is the CF34-10.
CF34 engine

Engine Overview

Aircraft readiness, on-time departures, reliability and cost-effective operation are all important measures of a successful regional aircraft engine.

Dependability is inherent in the CF34. It is a derivative of GE's rugged, combat-proven TF34 which powers the U.S. Air Force A-10 and U.S. Navy S-3A. The CF34 has evolved from this solid military experience base as a superior commercial engine with excellent performance margin, durability, and a level of reliability that allows today's 50 to 105 passenger regional jets to be flown with utmost confidence throughout the world.

The CF34 family is designed with a particular concern for its effect on the total flying environment . . . inside the cabin and outside.

The inherently quiet CF34 helps make travel comfortable and more productive. Low noise also contributes to greater operational flexibility. The CF34 is not only a quiet engine, but it is also well within FAA, U.S. Environmental Protection Agency (EPA) and International Civil Aircraft Organization (ICAO) requirements for smoke and emissions.

GE is so committed to the CF34, that it has invested more than $1 billion over the last decade.

Manufacturer Engine Country

Allison V-1710 USA
Clerget Clerget Rotary Engine (Type 9B) France
Daimler Benz DB 601 Germany

Le Rhone Le Rhone Rotary France
Le Rhone Super Rhone France
Lycoming XR-7755 USA
Pratt and Whitney Wasp USA
Pratt and Whitney R-2800 Double Wasp USA
Pratt and Whitney Hornet USA
Rolls Royce Merlin V-1650 Great Britain
Wright Aeronautical Whirlwind USA
Wright Aeronautical Cyclone R-1820 USA
Wright Aeronautical Hispano-Suiza E-2 & E-4 USA