The Boeing 717-200 is a twin-engine jet airliner which was developed and manufactured by Boeing Commercial Airplanes. It was designed as a replacement for the Boeing 727-200, and entered service in 1999. The 717-200 is capable of carrying up to 106 passengers, and has a range of 2,000 nautical miles (3,700 km). It is powered by two Rolls-Royce BR715 engines, and has a maximum speed of 530 mph (850 km/h).
The Boeing 717-200 was a popular aircraft, with over 150 orders being placed by airlines around the world. However, production of the aircraft was discontinued in 2006, due to declining demand. Despite this, the 717-200 remains in service with several airlines, and is considered to be a reliable and efficient aircraft.
The Boeing 717-200 is a versatile aircraft that can be used for a variety of purposes, including short-haul passenger flights, cargo flights, and corporate travel. It is also a popular choice for regional airlines, due to its low operating costs.
The Boeing 717-200 is a well-respected aircraft in the aviation industry. It is known for its reliability, efficiency, and versatility. While production of the aircraft has been discontinued, the 717-200 remains in service with several airlines around the world, and is likely to continue to be a popular choice for years to come.
BOEING 717-200 Specs
The Boeing 717-200 is a twin-engine jet airliner with a range of up to 2,000 nautical miles (3,700 km) and a capacity of up to 106 passengers. Key aspects of the Boeing 717-200 specs include:
- Length: 124 ft 10 in (38.05 m)
- Wingspan: 93 ft 9 in (28.62 m)
- Height: 29 ft 1 in (8.86 m)
- Maximum takeoff weight: 118,000 lb (53,525 kg)
- Cruising speed: 530 mph (850 km/h)
- Range: 2,000 nautical miles (3,700 km)
- Engines: Two Rolls-Royce BR715 turbofan engines
These specifications make the Boeing 717-200 an ideal aircraft for short-haul flights and regional travel. It is also a popular choice for cargo and corporate travel. The 717-200 is known for its reliability, efficiency, and versatility.
Length
The length of the Boeing 717-200 is a key aspect of its specifications, as it determines the aircraft’s capacity, range, and performance. The 717-200’s length of 124 ft 10 in (38.05 m) allows it to accommodate up to 106 passengers in a single-class configuration, or a combination of passengers and cargo.
- Capacity: The 717-200’s length allows it to accommodate up to 106 passengers in a single-class configuration, or a combination of passengers and cargo. This makes it an ideal aircraft for short-haul flights and regional travel, where demand may not be high enough to justify a larger aircraft.
- Range: The 717-200’s length also contributes to its range of 2,000 nautical miles (3,700 km). This range allows the aircraft to operate on a variety of routes, including short-haul flights and longer regional flights.
- Performance: The 717-200’s length gives it a good balance of performance and efficiency. The aircraft is able to take off and land on relatively short runways, making it suitable for operation at smaller airports. It also has a relatively low fuel consumption, making it an economical choice for airlines.
Overall, the length of the Boeing 717-200 is a key aspect of its specifications, as it determines the aircraft’s capacity, range, and performance. The 717-200’s length of 124 ft 10 in (38.05 m) makes it an ideal aircraft for short-haul flights and regional travel.
Wingspan
The wingspan of the Boeing 717-200 is a key aspect of its specifications, as it determines the aircraft’s lift, range, and maneuverability. The 717-200’s wingspan of 93 ft 9 in (28.62 m) is relatively large for an aircraft of its size, which gives it a number of advantages.
- Lift: The large wingspan of the 717-200 gives it a high lift-to-drag ratio, which means that it can generate a lot of lift with relatively little drag. This makes the aircraft very efficient, and allows it to take off and land on relatively short runways.
- Range: The large wingspan of the 717-200 also contributes to its range of 2,000 nautical miles (3,700 km). This range allows the aircraft to operate on a variety of routes, including short-haul flights and longer regional flights.
- Maneuverability: The large wingspan of the 717-200 gives it good maneuverability, which makes it easy to fly and land. This is important for an aircraft that is often used on short-haul flights and regional travel.
Overall, the wingspan of the Boeing 717-200 is a key aspect of its specifications, as it determines the aircraft’s lift, range, and maneuverability. The 717-200’s wingspan of 93 ft 9 in (28.62 m) is relatively large for an aircraft of its size, which gives it a number of advantages.
Height
The height of the Boeing 717-200 is a key aspect of its specifications, as it determines the aircraft’s ability to operate at different airports and in different weather conditions. The 717-200’s height of 29 ft 1 in (8.86 m) is relatively low for an aircraft of its size, which gives it a number of advantages.
One advantage of the 717-200’s low height is that it makes the aircraft easier to load and unload. This is important for an aircraft that is often used on short-haul flights, where turnaround time is critical. The 717-200’s low height also makes it easier to maneuver in tight spaces, such as at smaller airports or in congested airspace.
Another advantage of the 717-200’s low height is that it reduces drag. This makes the aircraft more efficient, and allows it to burn less fuel. The 717-200’s low height also makes it less susceptible to crosswinds, which can make it easier to land in windy conditions.Overall, the height of the Boeing 717-200 is a key aspect of its specifications, as it determines the aircraft’s ability to operate at different airports and in different weather conditions. The 717-200’s height of 29 ft 1 in (8.86 m) is relatively low for an aircraft of its size, which gives it a number of advantages, including easier loading and unloading, better maneuverability, reduced drag, and less susceptibility to crosswinds.
Maximum takeoff weight
The maximum takeoff weight (MTOW) of an aircraft is the maximum weight at which it is certified to take off. The MTOW is determined by a number of factors, including the aircraft’s structural strength, engine power, and landing gear design. The MTOW of the Boeing 717-200 is 118,000 lb (53,525 kg).
- Structural strength: The MTOW is limited by the aircraft’s structural strength. The aircraft’s wings, fuselage, and landing gear must be strong enough to withstand the forces of takeoff and landing. The MTOW is also limited by the aircraft’s engines. The engines must be powerful enough to generate enough thrust to lift the aircraft off the ground.
- Landing gear design: The MTOW is also limited by the aircraft’s landing gear design. The landing gear must be strong enough to support the aircraft’s weight and to absorb the shock of landing. The MTOW is also affected by the aircraft’s wing design. The wings must be large enough to generate enough lift to keep the aircraft in the air.
- Fuel capacity: The MTOW is also affected by the aircraft’s fuel capacity. The aircraft’s fuel capacity determines how far the aircraft can fly without refueling. The MTOW is also affected by the aircraft’s payload. The payload is the weight of the passengers, cargo, and baggage that the aircraft is carrying.
The MTOW is an important specification for the Boeing 717-200. It determines the aircraft’s maximum payload and range. The MTOW is also used to calculate the aircraft’s takeoff and landing performance.
Cruising speed
The cruising speed of the Boeing 717-200 is an important aspect of its specifications because it determines the aircraft’s efficiency and range. The 717-200’s cruising speed of 530 mph (850 km/h) is relatively high for an aircraft of its size, which gives it a number of advantages.
One advantage of the 717-200’s high cruising speed is that it reduces travel time. This is important for passengers who are traveling on short-haul flights, where time is of the essence. The 717-200’s high cruising speed also makes it a good choice for airlines that operate on routes where time is a critical factor.
Another advantage of the 717-200’s high cruising speed is that it increases the aircraft’s range. The 717-200’s range of 2,000 nautical miles (3,700 km) is relatively long for an aircraft of its size, which makes it suitable for a variety of routes. The 717-200’s high cruising speed also makes it a good choice for airlines that operate on routes where range is a critical factor.
Overall, the cruising speed of the Boeing 717-200 is an important aspect of its specifications. The 717-200’s cruising speed of 530 mph (850 km/h) is relatively high for an aircraft of its size, which gives it a number of advantages, including reduced travel time and increased range.
Range
The range of an aircraft is an important specification, as it determines the distance that the aircraft can fly without refueling. The Boeing 717-200 has a range of 2,000 nautical miles (3,700 km), which makes it suitable for a variety of short-haul and regional routes.
The range of the 717-200 is determined by a number of factors, including the aircraft’s fuel capacity, engine efficiency, and aerodynamic design. The 717-200 has a relatively large fuel capacity, which allows it to fly longer distances without refueling. The aircraft also has efficient engines, which help to reduce fuel consumption. The 717-200’s aerodynamic design is also optimized for efficiency, which helps to reduce drag and further increase range.
The range of the 717-200 is an important factor for airlines when selecting an aircraft for their fleet. Airlines that operate on short-haul and regional routes need an aircraft with a range that is sufficient to meet the demands of their routes. The 717-200’s range of 2,000 nautical miles (3,700 km) makes it a good choice for airlines that operate on these types of routes.
Overall, the range of the Boeing 717-200 is an important specification that determines the aircraft’s suitability for different routes. The 717-200’s range of 2,000 nautical miles (3,700 km) makes it a good choice for short-haul and regional routes, and it is a popular choice for airlines that operate on these types of routes.
Engines
The engines play a crucial role in the performance and efficiency of the Boeing 717-200 aircraft. The two Rolls-Royce BR715 turbofan engines provide the necessary thrust to propel the aircraft through the air and contribute to its overall flight performance.
- Fuel Efficiency: The BR715 engines are known for their fuel efficiency, which directly impacts the operating costs of the aircraft. The engines incorporate advanced technologies that optimize fuel consumption, reducing emissions and lowering operational expenses for airlines.
- Reliability: Rolls-Royce engines are renowned for their reliability and durability in the aviation industry. The BR715 engines are designed to meet stringent safety and performance standards, ensuring consistent and dependable operation of the Boeing 717-200.
- Power and Performance: The BR715 engines generate ample thrust to power the aircraft, enabling it to achieve its cruising speed and maintain altitude efficiently. These engines contribute to the overall performance of the aircraft, allowing it to meet the demands of short-haul and regional routes.
- Noise Reduction: The BR715 engines incorporate noise reduction technologies that minimize the environmental impact of the aircraft. They operate at lower noise levels, reducing the acoustic footprint of the Boeing 717-200, making it a quieter aircraft for communities near airports.
In summary, the two Rolls-Royce BR715 turbofan engines are integral to the Boeing 717-200’s specifications, contributing to its fuel efficiency, reliability, power and performance, and noise reduction capabilities. These engines play a vital role in the aircraft’s overall performance and operational efficiency, making it a suitable choice for short-haul and regional air travel.
FAQs on Boeing 717-200 Specifications
This section addresses frequently asked questions and misconceptions about the Boeing 717-200 aircraft’s specifications, providing clear and informative answers based on reliable sources.
Question 1: What is the maximum takeoff weight of the Boeing 717-200?
Answer: The maximum takeoff weight (MTOW) of the Boeing 717-200 is 118,000 lb (53,525 kg). This weight limit is determined by structural strength, engine power, and landing gear design, ensuring the aircraft’s safe operation during takeoff and landing.
Question 2: What is the cruising speed of the Boeing 717-200?
Answer: The Boeing 717-200 has a cruising speed of 530 mph (850 km/h). This relatively high cruising speed enables efficient travel time, making it a suitable choice for short-haul and regional routes where time optimization is important.
Question 3: What is the range of the Boeing 717-200?
Answer: The Boeing 717-200 has a range of 2,000 nautical miles (3,700 km). This range capability allows the aircraft to operate on a variety of routes, including short-haul flights and longer regional flights, providing flexibility and efficiency for airline operations.
Question 4: What type of engines power the Boeing 717-200?
Answer: The Boeing 717-200 is powered by two Rolls-Royce BR715 turbofan engines. These engines are known for their fuel efficiency, reliability, and performance, contributing to the aircraft’s overall efficiency and operational capabilities.
Question 5: What is the wingspan of the Boeing 717-200?
Answer: The wingspan of the Boeing 717-200 is 93 ft 9 in (28.62 m). This relatively large wingspan enhances the aircraft’s lift-to-drag ratio, providing efficient flight performance, shorter takeoff and landing distances, and maneuverability.
Question 6: What is the height of the Boeing 717-200?
Answer: The height of the Boeing 717-200 is 29 ft 1 in (8.86 m). This low height facilitates easier loading and unloading of passengers and cargo, enhanced maneuverability in congested spaces, and reduced drag, contributing to overall operational efficiency.
In summary, the Boeing 717-200 aircraft specifications are designed to meet the demands of short-haul and regional air travel, emphasizing fuel efficiency, reliability, performance, and operational flexibility. These specifications make the Boeing 717-200 a suitable choice for airlines seeking efficient and versatile aircraft for their fleet.
Proceed to the next section for further exploration of the Boeing 717-200.
Tips for Maximizing Boeing 717-200 Specifications
The Boeing 717-200 aircraft offers a range of impressive specifications tailored for efficient and reliable short-haul and regional operations. To fully leverage these capabilities, consider the following tips:
Tip 1: Optimize Payload and Range: Carefully plan weight distribution and passenger/cargo load to maximize payload while considering the aircraft’s range limitations. This ensures efficient fuel consumption and optimal performance.
Tip 2: Enhance Aerodynamic Efficiency: Implement regular maintenance procedures to maintain a clean and smooth aircraft exterior. This reduces drag and improves overall aerodynamic efficiency, resulting in fuel savings and enhanced performance.
Tip 3: Leverage Engine Performance: Ensure regular servicing and maintenance of the Rolls-Royce BR715 engines to maintain optimal performance. This includes monitoring engine parameters and adhering to recommended maintenance schedules, maximizing fuel efficiency and reliability.
Tip 4: Utilize Advanced Flight Planning: Employ advanced flight planning tools to optimize routes and altitudes. This helps reduce fuel consumption, minimize flight time, and enhance overall operational efficiency.
Tip 5: Enhance Crew Training: Provide comprehensive training to flight crews on efficient operating procedures and performance optimization techniques. Well-trained crews can maximize the aircraft’s capabilities and contribute to safe and efficient operations.
Tip 6: Implement Predictive Maintenance: Utilize predictive maintenance technologies to monitor aircraft systems and components. This enables proactive maintenance, reducing unscheduled downtime, and ensuring optimal performance and reliability.
Tip 7: Optimize Cabin Configuration: Configure the aircraft’s cabin for maximum passenger comfort and efficiency. This includes optimizing seat pitch, providing ample legroom, and ensuring adequate storage space, enhancing passenger satisfaction and overall travel experience.
Tip 8: Leverage Data Analytics: Collect and analyze operational data to identify areas for improvement. This data-driven approach helps optimize maintenance schedules, enhance fuel efficiency, and improve overall aircraft performance.
By incorporating these tips, airlines and operators can maximize the capabilities of their Boeing 717-200 aircraft, ensuring efficient, reliable, and cost-effective operations.
Explore the next section for further insights into the Boeing 717-200.
Conclusion
The Boeing 717-200 aircraft stands as a testament to innovative engineering, providing exceptional specifications tailored for short-haul and regional operations. Its efficient and reliable performance, coupled with its versatility and passenger comfort, make it a valuable asset for airlines worldwide.
Throughout this exploration of the Boeing 717-200 specifications, we have delved into the intricacies of its design, performance capabilities, and operational efficiency. From its impressive range and low operating costs to its advanced engines and aerodynamic efficiency, the Boeing 717-200 continues to prove its worth in the aviation industry.
As the future of air travel evolves, the Boeing 717-200’s specifications will remain a benchmark for efficiency, reliability, and passenger comfort. Its continued presence in the skies is a testament to its enduring value, adaptability, and the enduring legacy of Boeing’s engineering excellence.