EMBRAER Xingu Specs

Essential EMBRAER Xingu Specs: A Comprehensive Guide

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Essential EMBRAER Xingu Specs: A Comprehensive Guide

EMBRAER Xingu Specs refer to the technical specifications and capabilities of the Embraer EMB-120 Xingu, a twin-turboprop regional airliner manufactured by the Brazilian aerospace company Embraer.

The EMB-120 Xingu is renowned for its versatility, reliability, and efficiency in regional air transportation. It offers a comfortable cabin configuration, advanced avionics systems, and impressive performance capabilities. With its ability to operate on short and unpaved runways, the Xingu is well-suited for serving remote communities and smaller airports.

Key specifications of the EMB-120 Xingu include:

  • Length: 20.06 meters (65.8 feet)
  • Wingspan: 20.63 meters (67.7 feet)
  • Height: 6.35 meters (20.8 feet)
  • Maximum takeoff weight: 11,340 kilograms (25,000 pounds)
  • Cruising speed: 531 kilometers per hour (330 miles per hour)
  • Range: 1,334 kilometers (830 miles)
  • Seating capacity: 30 passengers (standard configuration)

EMBRAER Xingu Specs

EMBRAER Xingu Specs encompasses various crucial aspects that define the technical capabilities and operational characteristics of the aircraft. Here are 8 key aspects succinctly described:

  • Seating Capacity: 30 passengers
  • Range: 1,334 kilometers (830 miles)
  • Cruising Speed: 531 kilometers per hour (330 miles per hour)
  • Maximum Takeoff Weight: 11,340 kilograms (25,000 pounds)
  • Length: 20.06 meters (65.8 feet)
  • Height: 6.35 meters (20.8 feet)
  • Wingspan: 20.63 meters (67.7 feet)
  • Unpaved Runway Capability: Suitable for remote operations

These aspects collectively contribute to the Xingu’s versatility and efficiency in regional air transportation. Its spacious cabin configuration ensures passenger comfort, while its impressive range and cruising speed enable efficient connections between smaller communities and larger hubs. The aircraft’s ability to operate on unpaved runways further enhances its accessibility, making it an ideal choice for serving underserved regions.

Seating Capacity

The seating capacity of 30 passengers is a defining aspect of the Embraer Xingu’s specifications. It significantly impacts the aircraft’s operational capabilities and market positioning within the regional aviation industry.

A 30-passenger capacity places the Xingu in the category of small to medium-sized regional airliners. This capacity is well-suited for serving routes with moderate passenger demand, typically connecting smaller communities to larger hubs or regional centers. The Xingu’s ability to operate on shorter runways and unpaved surfaces further enhances its accessibility to underserved regions.

The seating capacity also affects the aircraft’s economics. With a smaller passenger load, the Xingu can achieve greater fuel efficiency and lower operating costs compared to larger regional jets. This cost-effectiveness makes it an attractive option for airlines operating in markets with lower passenger volumes or on routes with specific operational constraints.

In summary, the 30-passenger seating capacity is a key component of the Embraer Xingu’s specifications, influencing its operational flexibility, market positioning, and economic viability in the regional aviation sector.

Range

The range of 1,334 kilometers (830 miles) specified for the Embraer Xingu is a crucial aspect of its technical capabilities and operational performance within the regional aviation industry. Range refers to the maximum distance an aircraft can travel without requiring refueling. In the case of the Xingu, its range of 1,334 kilometers enables it to connect a wide range of destinations, including smaller communities and remote regions, without the need for intermediate stops.

The Xingu’s range is particularly significant for regional air transportation due to the often dispersed nature of communities and the limited availability of larger airports with longer runways. Its ability to operate on shorter runways and unpaved surfaces further enhances its accessibility to underserved regions, making it a valuable asset for providing essential air services to remote areas.

From a practical standpoint, the Xingu’s range allows airlines to optimize their route planning and network connectivity. With a range of 1,334 kilometers, the Xingu can efficiently serve routes between smaller cities and larger hubs, providing convenient and time-saving connections for passengers traveling within a region. Additionally, the aircraft’s range enables airlines to explore new market opportunities and expand their network reach, particularly in regions with limited infrastructure and longer distances between population centers.

In summary, the range of 1,334 kilometers (830 miles) is a key component of the Embraer Xingu’s specifications, directly impacting its operational flexibility, market accessibility, and the provision of essential air services to underserved communities.

Cruising Speed

The cruising speed of 531 kilometers per hour (330 miles per hour) specified for the Embraer Xingu is a significant aspect of its technical capabilities and operational performance within the regional aviation industry. Cruising speed refers to the speed at which an aircraft travels during the majority of its flight, typically at a constant altitude and power setting.

  • Efficient and Timely Travel: The Xingu’s cruising speed enables it to cover distances between destinations quickly and efficiently. This speed is particularly important for regional air transportation, where time-saving connections are essential for passengers traveling between smaller communities and larger hubs.
  • Optimized Flight Planning: The aircraft’s cruising speed allows airlines to plan flight schedules effectively, ensuring on-time arrivals and departures. This predictability and reliability are crucial for regional air transportation, where maintaining accurate timetables is essential for passenger convenience and satisfaction.
  • Enhanced Passenger Comfort: The Xingu’s cruising speed contributes to a more comfortable passenger experience. By traveling at a higher speed, the aircraft reduces the overall flight time, minimizing discomfort and fatigue for passengers, especially on longer routes.
  • Network Connectivity: The Xingu’s cruising speed enables airlines to expand their network reach and connect a wider range of destinations within a region. With its ability to cover longer distances efficiently, the Xingu can facilitate new routes and provide essential air services to underserved communities.
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In summary, the cruising speed of 531 kilometers per hour (330 miles per hour) is a key component of the Embraer Xingu’s specifications, directly impacting its operational efficiency, flight planning optimization, passenger comfort, and network connectivity within the regional aviation sector.

Maximum Takeoff Weight

The maximum takeoff weight (MTOW) of 11,340 kilograms (25,000 pounds) specified for the Embraer Xingu is a crucial aspect of its technical capabilities and operational performance within the regional aviation industry. MTOW refers to the maximum allowable weight of an aircraft at the start of its takeoff roll.

The MTOW of the Xingu directly influences several key aspects of its operation:

  • Payload Capacity: The MTOW determines the maximum weight of passengers, cargo, and fuel that the aircraft can carry. A higher MTOW allows for greater payload capacity, enabling the Xingu to accommodate more passengers and/or cargo on each flight.
  • Takeoff Performance: The MTOW affects the aircraft’s takeoff performance, including its acceleration, climb rate, and required runway length. A higher MTOW requires more thrust and a longer runway for takeoff.
  • Range and Endurance: The MTOW also influences the aircraft’s range and endurance. A higher MTOW typically reduces the aircraft’s range and endurance due to the increased fuel consumption required for takeoff and climb.

The MTOW of 11,340 kilograms (25,000 pounds) is carefully engineered to optimize the Xingu’s performance for regional air transportation. It allows the aircraft to carry a significant payload while maintaining adequate takeoff and climb performance. This balance is essential for efficient and reliable operations, especially in challenging environments such as high-altitude airports or short runways.

In summary, the maximum takeoff weight of 11,340 kilograms (25,000 pounds) is a key component of the Embraer Xingu’s specifications, directly impacting its payload capacity, takeoff performance, range, and endurance, ultimately contributing to its effectiveness in regional air transportation.

Length

The length of the Embraer Xingu, measuring 20.06 meters (65.8 feet), holds significant importance within the aircraft’s technical specifications and operational capabilities.

  • Cabin Space and Passenger Capacity: The length of the Xingu directly influences the size and layout of its cabin, determining the aircraft’s passenger capacity. A longer fuselage allows for a more spacious cabin, enabling comfortable seating arrangements and accommodating a greater number of passengers.
  • Aerodynamic Efficiency and Performance: The length of the aircraft also affects its aerodynamic efficiency and performance. A longer fuselage typically provides better laminar flow over the aircraft’s surface, reducing drag and improving fuel efficiency. Additionally, a longer fuselage contributes to stability and control, enhancing the aircraft’s handling characteristics.
  • Takeoff and Landing Performance: The length of the Xingu impacts its takeoff and landing performance. A longer fuselage requires a longer runway for takeoff and landing, as the aircraft needs more distance to accelerate and decelerate. However, a longer fuselage also provides greater stability during takeoff and landing, reducing the risk of tailstrikes.
  • Cargo Capacity and Versatility: The length of the Xingu influences its cargo capacity and versatility. A longer fuselage provides more space for cargo storage, allowing the aircraft to accommodate a variety of cargo types and configurations. This versatility makes the Xingu suitable for both passenger and cargo operations.

In summary, the length of 20.06 meters (65.8 feet) specified for the Embraer Xingu is a key factor that shapes the aircraft’s cabin space, aerodynamic efficiency, performance, and cargo capacity, contributing to its overall effectiveness in regional air transportation.

Height

The height of the Embraer Xingu, measuring 6.35 meters (20.8 feet), plays a crucial role in shaping the aircraft’s overall specifications and operational capabilities.

  • Cabin Comfort and Passenger Experience: The height of the Xingu’s cabin directly influences passenger comfort and experience. A taller cabin provides more headroom and a sense of spaciousness, reducing fatigue and enhancing overall comfort during flights.
  • Cargo Capacity and Versatility: The height of the Xingu also affects its cargo capacity and versatility. A taller cabin allows for the accommodation of larger cargo items, making the aircraft suitable for a wider range of cargo operations. Additionally, the increased height facilitates the loading and unloading of cargo, improving operational efficiency.
  • Ground Handling and Airport Compatibility: The height of the Xingu must be considered in relation to ground handling equipment and airport infrastructure. A taller aircraft may require specialized ground handling equipment, such as taller passenger boarding stairs or cargo loaders. Additionally, the aircraft’s height must be compatible with the height of hangars and other airport facilities.
  • Aerodynamic Performance and Stability: The height of the Xingu impacts its aerodynamic performance and stability. A taller aircraft typically has a higher center of gravity, which can affect its stability and handling characteristics. However, the Xingu’s design incorporates advanced aerodynamic features to mitigate these effects and ensure safe and stable flight.
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In summary, the height of 6.35 meters (20.8 feet) specified for the Embraer Xingu is a key factor that influences cabin comfort, cargo capacity, ground handling compatibility, and aerodynamic performance, contributing to the aircraft’s overall effectiveness in regional air transportation.

Wingspan

The wingspan of the Embraer Xingu, measuring 20.63 meters (67.7 feet), plays a crucial role in determining the aircraft’s overall specifications and operational capabilities.

  • Aerodynamic Efficiency and Performance: The wingspan directly influences the aircraft’s aerodynamic efficiency and performance. A larger wingspan provides greater lift, allowing the aircraft to fly at lower speeds and consume less fuel. Additionally, a larger wingspan improves stability and reduces drag, resulting in better overall performance.
  • Takeoff and Landing Performance: The wingspan also affects the aircraft’s takeoff and landing performance. A larger wingspan provides more lift at lower speeds, enabling shorter takeoff and landing distances. This is particularly important for regional operations where runways may be shorter or unpaved.
  • Maneuverability and Handling: The wingspan influences the aircraft’s maneuverability and handling characteristics. A wider wingspan typically provides greater stability and control, making the aircraft easier to handle, especially during takeoff, landing, and in turbulent conditions.
  • Structural Integrity and Weight: The wingspan must be carefully engineered to ensure structural integrity and minimize weight. A larger wingspan requires stronger and heavier wings, which can impact the aircraft’s overall weight and performance.

In summary, the wingspan of 20.63 meters (67.7 feet) specified for the Embraer Xingu is a key factor that shapes the aircraft’s aerodynamic efficiency, takeoff and landing performance, maneuverability, and structural integrity, contributing to its overall effectiveness in regional air transportation.

Unpaved Runway Capability

The “Unpaved Runway Capability: Suitable for remote operations” specification is a crucial aspect of the Embraer Xingu’s capabilities, enabling it to operate in challenging and remote environments. This capability is achieved through a combination of design features and technological advancements.

  • Rugged Landing Gear: The Xingu is equipped with reinforced landing gear specifically designed to withstand the rough and uneven surfaces of unpaved runways. The shock-absorbing struts and large tires provide stability and prevent damage to the aircraft during landing and takeoff.
  • Powerful Engines: The Xingu’s Pratt & Whitney Canada PW306 turboprop engines deliver exceptional power, allowing the aircraft to generate the necessary thrust for takeoff and climb, even on unpaved surfaces. The engines are also equipped with advanced propellers that provide increased thrust and efficiency.
  • Advanced Avionics: The Xingu features a state-of-the-art avionics suite that includes a terrain awareness and warning system (TAWS). This system provides real-time information about the aircraft’s surroundings, including terrain elevation and obstacles, enhancing safety during operations on unpaved runways.
  • Short Takeoff and Landing (STOL) Performance: The Xingu’s aerodynamic design and powerful engines enable it to perform short takeoffs and landings (STOL). This capability is essential for operating in remote areas with limited runway length or challenging terrain.

The combination of these features makes the Embraer Xingu uniquely suited for remote operations. It can provide essential air transportation services to underserved communities, facilitate humanitarian missions, and support various industrial activities in remote regions.

FAQs on Embraer Xingu Specs

This section addresses frequently asked questions regarding the technical specifications and capabilities of the Embraer Xingu, providing concise and informative answers.

1. What is the Embraer Xingu’s maximum takeoff weight?

The Embraer Xingu has a maximum takeoff weight of 11,340 kilograms (25,000 pounds). This weight includes the aircraft’s operating weight, payload, and fuel.

2. What is the Xingu’s wingspan?

The Embraer Xingu’s wingspan measures 20.63 meters (67.7 feet). This wingspan contributes to the aircraft’s aerodynamic efficiency and stability.

3. Can the Xingu operate on unpaved runways?

Yes, the Embraer Xingu is suitable for operating on unpaved runways. It features reinforced landing gear, powerful engines, and advanced avionics that enable safe and efficient operations on challenging surfaces.

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4. What is the Xingu’s cruising speed?

The Embraer Xingu has a cruising speed of 531 kilometers per hour (330 miles per hour). This speed allows the aircraft to efficiently cover distances and maintain accurate flight schedules.

5. How many passengers can the Xingu accommodate?

The standard configuration of the Embraer Xingu accommodates 30 passengers. This capacity makes it suitable for regional air transportation and connecting smaller communities.

6. What is the Xingu’s range?

The Embraer Xingu has a range of 1,334 kilometers (830 miles). This range enables the aircraft to connect a wide range of destinations without the need for intermediate stops.

Overall, the Embraer Xingu’s specifications are optimized for regional air transportation, offering a combination of efficiency, versatility, and operational capabilities.

Transition to the next article section:

This concludes our exploration of the Embraer Xingu’s specifications. In the next section, we will delve into the aircraft’s performance and operational characteristics.

Tips to Optimize Embraer Xingu Performance

To maximize the performance and efficiency of the Embraer Xingu aircraft, consider the following tips:

Tip 1: Optimize Payload Distribution

Properly distribute weight throughout the aircraft’s cabin and cargo compartments. Balanced weight distribution improves stability and reduces fuel consumption during flight.

Tip 2: Utilize Proper Flaps and Slat Settings

Adjust flap and slat settings according to the specific flight phase (takeoff, climb, cruise, descent, and landing) to optimize lift, reduce drag, and improve overall aircraft performance.

Tip 3: Monitor Engine Performance

Regularly monitor engine parameters, such as fuel flow, exhaust gas temperature, and oil pressure, to ensure optimal engine operation and prevent potential issues.

Tip 4: Perform Regular Maintenance

Adhere to the recommended maintenance schedule to keep the aircraft in good condition and prevent unexpected downtime. Regular inspections and servicing can identify and address potential problems early on.

Tip 5: Train Pilots Effectively

Provide comprehensive training to pilots on Xingu’s systems, emergency procedures, and performance characteristics to ensure safe and efficient aircraft operation.

Tip 6: Use Advanced Avionics Features

Utilize the Xingu’s advanced avionics systems, such as the terrain awareness and warning system (TAWS), to enhance situational awareness and improve safety during flight.

Tip 7: Optimize Flight Planning

Plan flight routes efficiently, considering factors such as weather conditions, airspace restrictions, and optimal altitudes to minimize fuel consumption and improve overall flight time.

Tip 8: Monitor Weather Conditions

Stay informed about weather conditions along the flight path and make necessary adjustments to the flight plan to avoid adverse weather, turbulence, or other potential hazards.

By implementing these tips, operators can optimize the performance of their Embraer Xingu aircraft, ensuring efficient operations, enhanced safety, and reduced operating costs.

Conclusion:

Optimizing the performance of the Embraer Xingu aircraft requires a combination of technical expertise, operational efficiency, and adherence to best practices. By following these tips, operators can maximize the aircraft’s capabilities, ensuring safe, efficient, and cost-effective regional air transportation.

Conclusion

Through an in-depth exploration of the Embraer Xingu’s specifications, we gained valuable insights into the aircraft’s capabilities and its impact on regional air transportation. The Xingu’s optimal seating capacity, impressive range, efficient cruising speed, and robust takeoff weight make it an ideal choice for connecting smaller communities and serving underserved regions.

Moreover, its compact size, adaptability to unpaved runways, and advanced avionics systems further enhance its versatility and accessibility. By understanding these specifications, operators and industry professionals can harness the full potential of the Embraer Xingu, contributing to the advancement of regional aviation and the provision of essential air services to remote and growing communities.