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Pennsylvania Railroad class GG1
The Pennsylvania Railroad Class GG1 is a class of streamlined electric locomotives built for the Pennsylvania Railroad (PRR), in the northeastern United States. The class was known for its striking art deco shell, its ability to pull trains at up to 100 mph, and its long operating career of almost 50 years.
Between 1934 and 1943, General Electric and the PRR's Altoona Works built 139 GG1s. The GG1 entered service with the PRR in 1935 and later ran on successor railroads Penn Central, Conrail, and Amtrak. The last GG1 was retired by New Jersey Transit in 1983.
Most have been scrapped, but sixteen are preserved in museums.
The GG1 was 79 feet 6 inches (24.23 m) long and weighed 475,000 pounds (215,000 kg). The frame of the locomotive was in two halves joined with a ball joint, allowing the locomotive to negotiate sharper curves. The body rested on the frame and was clad in welded steel plates. The control cabs were near the center of the locomotive on each side of the main oil-cooled transformer and oil-fired train-heating boiler. This arrangement, first used on the PRR's Modified P5 class, provided for greater crew safety in a collision and provided for bi-directional operation of the locomotive. Using Whyte notation for steam locomotives, each frame is a 4-6-0 locomotive, which in the Pennsylvania Railroad classification system is a "G". The GG1 has two such frames back to back, 4-6-0+0-6-4. The related AAR wheel arrangement classification is 2-C+C-2. This means one frame mounted upon a set of two axles unpowered (the "2") and three axles powered (the "C") hinged with the ball and socket to another frame of the same design (the +). The unpowered "2" axles are at either end of the locomotive. The GG1 was equipped with a Leslie A200 horn.
A pantograph on each end of the locomotive body was used to collect the 11,000 V, 25 Hz alternating current (AC) from the overhead catenary wires. In operation, the leading pantograph was usually kept lowered and the trailing one raised to collect current, since if the rear pantograph failed it would not strike the forward pantograph. A transformer between the two cabs stepped-down the 11,000 V to the voltages needed for the traction motors and other equipment. Twelve 385-horsepower (287 kW) GEA-627-A1 traction motors (AC commutator motors, not AC induction motors) drove the GG1's 57-inch (1,448 mm) diameter driving wheels on six axles using a quill drive. The power required was such that double traction motors were used, with two motors driving each axle.
The traction motors were six-pole field, 400 volts, 25 Hz rated each at 385 hp (287 kW). The motors were frame-mounted using quill drives to the sprung driving wheels, providing a flexible suspension system across a relatively-long locomotive frame, which allowed full wheel weight to rest on the rail for good traction regardless of track condition. A series-wound commutator motor's speed is increased by increasing the applied voltage to the motor, thus increasing the current through the motor's armature, which is necessary for increasing its torque and thus increasing motor speed. The engineer's cab had a 21-position controller for applying voltage to the motors. Four unpowered leading/trailing wheels were mounted on each end of the locomotive.
In the 1930s, railroad passenger cars were heated with steam from the locomotive. The GG1 had an oil-fired steam generator to feed its train's "steam line."
Beginning in the late 1910s, the PRR received the FF1, but decided that it was too slow for passenger trains; it was relegated to heavy freight service. In the mid-1920s, it received the L5 electric, which had a third-rail power supply at the time. When the Pennsylvania built the O1 and the P5, it chose the P5 over the O1 for its ability and power on the rails. After a grade-crossing accident with the P5a, the cab was moved to the center and was designated P5a (Modified). The P5a’s rigid frame did not track well at high speeds and began developing cracks, leading the PRR to seek an improved design. They found two contacts as early as 1932. The mechanical design of the GG1 was based largely on the EP3, which the PRR had borrowed from the New York, New Haven & Hartford Railroad to compare it to the P5a. In 1933, the PRR decided to replace its P5a locomotives; it asked General Electric and Westinghouse to design prototype locomotives with a lighter axle load and more power than the P5a, a top speed of at least 100 miles per hour (160 km/h), a streamlined body design, and a single (central) control cab.
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Pennsylvania Railroad class GG1
The Pennsylvania Railroad Class GG1 is a class of streamlined electric locomotives built for the Pennsylvania Railroad (PRR), in the northeastern United States. The class was known for its striking art deco shell, its ability to pull trains at up to 100 mph, and its long operating career of almost 50 years.
Between 1934 and 1943, General Electric and the PRR's Altoona Works built 139 GG1s. The GG1 entered service with the PRR in 1935 and later ran on successor railroads Penn Central, Conrail, and Amtrak. The last GG1 was retired by New Jersey Transit in 1983.
Most have been scrapped, but sixteen are preserved in museums.
The GG1 was 79 feet 6 inches (24.23 m) long and weighed 475,000 pounds (215,000 kg). The frame of the locomotive was in two halves joined with a ball joint, allowing the locomotive to negotiate sharper curves. The body rested on the frame and was clad in welded steel plates. The control cabs were near the center of the locomotive on each side of the main oil-cooled transformer and oil-fired train-heating boiler. This arrangement, first used on the PRR's Modified P5 class, provided for greater crew safety in a collision and provided for bi-directional operation of the locomotive. Using Whyte notation for steam locomotives, each frame is a 4-6-0 locomotive, which in the Pennsylvania Railroad classification system is a "G". The GG1 has two such frames back to back, 4-6-0+0-6-4. The related AAR wheel arrangement classification is 2-C+C-2. This means one frame mounted upon a set of two axles unpowered (the "2") and three axles powered (the "C") hinged with the ball and socket to another frame of the same design (the +). The unpowered "2" axles are at either end of the locomotive. The GG1 was equipped with a Leslie A200 horn.
A pantograph on each end of the locomotive body was used to collect the 11,000 V, 25 Hz alternating current (AC) from the overhead catenary wires. In operation, the leading pantograph was usually kept lowered and the trailing one raised to collect current, since if the rear pantograph failed it would not strike the forward pantograph. A transformer between the two cabs stepped-down the 11,000 V to the voltages needed for the traction motors and other equipment. Twelve 385-horsepower (287 kW) GEA-627-A1 traction motors (AC commutator motors, not AC induction motors) drove the GG1's 57-inch (1,448 mm) diameter driving wheels on six axles using a quill drive. The power required was such that double traction motors were used, with two motors driving each axle.
The traction motors were six-pole field, 400 volts, 25 Hz rated each at 385 hp (287 kW). The motors were frame-mounted using quill drives to the sprung driving wheels, providing a flexible suspension system across a relatively-long locomotive frame, which allowed full wheel weight to rest on the rail for good traction regardless of track condition. A series-wound commutator motor's speed is increased by increasing the applied voltage to the motor, thus increasing the current through the motor's armature, which is necessary for increasing its torque and thus increasing motor speed. The engineer's cab had a 21-position controller for applying voltage to the motors. Four unpowered leading/trailing wheels were mounted on each end of the locomotive.
In the 1930s, railroad passenger cars were heated with steam from the locomotive. The GG1 had an oil-fired steam generator to feed its train's "steam line."
Beginning in the late 1910s, the PRR received the FF1, but decided that it was too slow for passenger trains; it was relegated to heavy freight service. In the mid-1920s, it received the L5 electric, which had a third-rail power supply at the time. When the Pennsylvania built the O1 and the P5, it chose the P5 over the O1 for its ability and power on the rails. After a grade-crossing accident with the P5a, the cab was moved to the center and was designated P5a (Modified). The P5a’s rigid frame did not track well at high speeds and began developing cracks, leading the PRR to seek an improved design. They found two contacts as early as 1932. The mechanical design of the GG1 was based largely on the EP3, which the PRR had borrowed from the New York, New Haven & Hartford Railroad to compare it to the P5a. In 1933, the PRR decided to replace its P5a locomotives; it asked General Electric and Westinghouse to design prototype locomotives with a lighter axle load and more power than the P5a, a top speed of at least 100 miles per hour (160 km/h), a streamlined body design, and a single (central) control cab.