EMBRAER ERJ 170-200 (long wing): Comprehensive Aircraft Specifications

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EMBRAER ERJ 170-200 (long wing): Comprehensive Aircraft Specifications

EMBRAER ERJ 170-200 (long wing) Specs refer to the detailed specifications and technical data of the Embraer ERJ 170-200 aircraft, specifically the variant with an extended wingspan known as the “long wing.”

These specifications are crucial for understanding the aircraft’s performance, capabilities, and operational characteristics. They provide essential information for pilots, engineers, and airline operators, enabling them to make informed decisions regarding aircraft utilization, maintenance, and flight planning.

Key aspects covered in the ERJ 170-200 (long wing) Specs include:

  • Physical dimensions, such as length, height, and wingspan
  • Weight data, including maximum takeoff weight and operating empty weight
  • Engine specifications, including type, thrust, and fuel consumption
  • Aerodynamic characteristics, such as cruise speed, stall speed, and range
  • Capacity details, including passenger seating, cargo volume, and baggage allowance
  • Avionics and systems information, describing the aircraft’s navigation, communication, and flight control systems

Understanding the ERJ 170-200 (long wing) Specs is essential for ensuring safe and efficient operation of the aircraft. These specifications serve as a valuable resource for pilots, maintenance personnel, and , contributing to the overall success and reliability of the aircraft in commercial aviation.

EMBRAER ERJ 170-200 (long wing) Specs

The Embraer ERJ 170-200 (long wing) Specs encompass various crucial aspects that define the aircraft’s performance and operational capabilities. These key aspects include:

  • Dimensions: Length 36.24 m, Height 9.67 m, Wingspan 26.01 m
  • Weight: Maximum Takeoff Weight 38,600 kg, Operating Empty Weight 15,480 kg
  • Engines: 2x General Electric CF34-8E turbofans, thrust 64 kN each
  • Performance: Maximum Speed 890 km/h, Range 3,398 km, Service Ceiling 12,500 m
  • Capacity: 78 passengers (single class), 66 passengers (dual class)
  • Avionics: Honeywell Primus Epic integrated avionics suite
  • Systems: Fly-by-wire flight control system, dual hydraulic systems
  • Certification: FAA, EASA

These aspects are closely interconnected and play a vital role in determining the aircraft’s suitability for different operational roles. For instance, the long wingspan enhances aerodynamic efficiency, resulting in improved fuel economy and extended range. The advanced avionics suite provides enhanced situational awareness and reduces pilot workload, contributing to safety and operational effectiveness. The aircraft’s relatively compact size and high passenger capacity make it well-suited for short to medium-haul regional routes, offering airlines flexibility and cost-efficiency.

Dimensions

These dimensions are crucial aspects of the EMBRAER ERJ 170-200 (long wing) Specs, defining the physical size and shape of the aircraft. They directly influence various aspects of the aircraft’s performance and operational capabilities:

  • Aerodynamic Efficiency: The extended wingspan of 26.01 m enhances aerodynamic efficiency, reducing drag and improving fuel consumption. This contributes to the aircraft’s extended range and lower operating costs.
  • Cabin Space: The length of 36.24 m provides ample cabin space, accommodating up to 78 passengers in a single-class configuration or 66 passengers in a dual-class configuration. This allows airlines to optimize passenger capacity and cater to different market demands.
  • Maneuverability: Despite its relatively large size, the ERJ 170-200 retains good maneuverability due to its optimized wing design and advanced flight control systems. This is particularly advantageous during takeoff, landing, and in-flight maneuvers.
  • Airport Compatibility: The height of 9.67 m enables the aircraft to operate from airports with relatively low height restrictions. This flexibility allows airlines to access a wider range of destinations and adapt to varying infrastructure conditions.

Overall, the dimensions of the EMBRAER ERJ 170-200 (long wing) are carefully engineered to balance aerodynamic performance, passenger capacity, maneuverability, and airport compatibility. These factors contribute to the aircraft’s versatility and suitability for a wide range of regional and short-haul operations.

Weight

Within the EMBRAER ERJ 170-200 (long wing) Specs, weight plays a crucial role in determining the aircraft’s performance and operational capabilities. Two key weight parameters are the Maximum Takeoff Weight (MTOW) and Operating Empty Weight (OEW).

Maximum Takeoff Weight (MTOW): 38,600 kg represents the maximum permissible weight of the aircraft at takeoff, including fuel, passengers, cargo, and any other payload. MTOW is a critical factor in determining the aircraft’s takeoff performance, runway requirements, and structural integrity.

Operating Empty Weight (OEW): 15,480 kg represents the weight of the aircraft without any payload, including the airframe, engines, systems, and basic equipment. OEW is a key factor in calculating the aircraft’s payload capacity and range.

The difference between MTOW and OEW, known as the payload capacity, determines the amount of passengers, cargo, and fuel that can be carried on a specific flight. This is crucial for optimizing aircraft utilization and ensuring safe and efficient operations.

Understanding the weight parameters in the EMBRAER ERJ 170-200 (long wing) Specs is essential for proper weight and balance calculations. Accurate weight management ensures the aircraft operates within its design limits, complies with regulatory requirements, and maintains optimal performance throughout its flight envelope.

Engines

Within the “EMBRAER ERJ 170-200 (long wing) Specs,” the engines play a pivotal role in determining the aircraft’s performance, efficiency, and overall capabilities. The specified engines, 2x General Electric CF34-8E turbofans, each generating 64 kN of thrust, are integral components that drive the aircraft’s propulsion and enable flight.

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  • Performance and Efficiency: The CF34-8E turbofan engines are renowned for their high efficiency and reliability, providing excellent fuel economy and extended range. This translates into lower operating costs for airlines and reduced environmental impact.
  • Thrust and Power: The combined thrust of 128 kN generated by the two engines provides ample power for takeoff, climb, and cruise operations. This ensures the aircraft can maintain stable flight even under demanding conditions and with a full payload.
  • Reliability and Maintenance: The CF34-8E engines are known for their durability and low maintenance requirements, contributing to the overall reliability of the ERJ 170-200 aircraft. This reduces downtime and maintenance costs, enhancing operational efficiency for airlines.
  • Noise and Emissions: The engines are designed to meet stringent noise and emissions regulations, minimizing the aircraft’s environmental impact and ensuring compliance with industry standards.

In summary, the “Engines: 2x General Electric CF34-8E turbofans, thrust 64 kN each” specification is a crucial aspect of the “EMBRAER ERJ 170-200 (long wing) Specs.” These engines provide the necessary thrust, efficiency, reliability, and environmental performance to meet the demands of regional and short-haul operations, making the ERJ 170-200 a versatile and cost-effective aircraft for airlines worldwide.

Performance

Within the comprehensive “EMBRAER ERJ 170-200 (long wing) Specs,” the performance specifications are crucial in defining the aircraft’s capabilities and operational envelope. These parameters outline the aircraft’s maximum speed, range, and service ceiling, providing valuable insights into its flight characteristics and suitability for various missions.

  • Maximum Speed: 890 km/h
    This value represents the aircraft’s maximum achievable speed under optimal conditions. A higher maximum speed enables faster cruising and reduces travel time, enhancing operational efficiency and passenger convenience.
  • Range: 3,398 km
    The range specifies the maximum distance the aircraft can travel without requiring a refuel stop. A longer range allows for non-stop flights over longer distances, reducing the need for intermediate stops and increasing operational flexibility.
  • Service Ceiling: 12,500 m
    The service ceiling indicates the maximum altitude at which the aircraft can maintain controlled flight. A higher service ceiling enables the aircraft to fly above weather systems and turbulence, providing a smoother and more efficient flight path.

Collectively, these performance specifications contribute to the overall versatility and effectiveness of the ERJ 170-200 in serving a wide range of regional and short-haul routes. The aircraft’s ability to combine high speed, extended range, and altitude performance makes it a preferred choice for airlines seeking a reliable and efficient aircraft for their operations.

Capacity

Within the comprehensive “EMBRAER ERJ 170-200 (long wing) Specs,” the capacity specifications play a crucial role in defining the aircraft’s suitability for different operational strategies and market demands. These values outline the maximum number of passengers that the aircraft can accommodate in both single-class and dual-class configurations.

  • Single-Class Configuration:
    With a capacity of 78 passengers in a single-class configuration, the ERJ 170-200 offers a high-density seating arrangement, maximizing passenger capacity for short-haul, high-volume routes. This configuration is ideal for budget airlines and low-cost carriers seeking to optimize revenue and cater to price-sensitive travelers.
  • Dual-Class Configuration:
    Alternatively, the aircraft can be configured with a dual-class layout, accommodating 66 passengers with a between business and economy class. This configuration provides a more premium travel experience for business travelers and those seeking additional comfort and legroom. Airlines can adjust the between business and economy class seats to suit their specific market demands.
  • Flexibility and Adaptability:
    The ERJ 170-200’s flexible cabin configuration allows airlines to adapt the aircraft to varying market conditions and passenger preferences. By offering both single-class and dual-class options, airlines can cater to a wider range of customer segments and optimize their revenue streams.
  • Regional and Short-Haul Focus:
    The capacity of the ERJ 170-200 is well-suited for regional and short-haul operations, where aircraft typically fly shorter distances with a moderate number of passengers. This makes the aircraft an efficient choice for connecting smaller cities and underserved markets.

In summary, the “Capacity: 78 passengers (single class), 66 passengers (dual class)” specification is a key aspect of the “EMBRAER ERJ 170-200 (long wing) Specs.” It highlights the aircraft’s versatility and adaptability to meet the diverse needs of airlines and passengers, enabling efficient and profitable operations in regional and short-haul markets.

Avionics

The Honeywell Primus Epic integrated avionics suite is a crucial component of the “EMBRAER ERJ 170-200 (long wing) Specs,” playing a vital role in enhancing the aircraft’s safety, efficiency, and overall performance.

The Primus Epic suite is a comprehensive avionics system that seamlessly integrates various navigation, communication, and flight control functions into a single, user-friendly interface. This integration reduces pilot workload, improves situational awareness, and enhances overall safety during all phases of flight.

Key features of the Honeywell Primus Epic suite include:

  • Advanced navigation capabilities: The system utilizes GPS, inertial navigation, and other sensors to provide precise aircraft positioning and guidance, ensuring accurate and efficient flight path management.
  • Enhanced communication systems: The suite integrates VHF/UHF radios, satellite communications, and ACARS, enabling reliable and effective communication between the aircraft and air traffic control, as well as with ground personnel.
  • Comprehensive flight control: The Primus Epic suite provides pilots with advanced flight control capabilities, including autopilot, autothrottle, and flight envelope protection systems, enhancing aircraft stability and reducing pilot workload.
  • Integrated weather radar: The system incorporates a weather radar that provides real-time weather information, allowing pilots to avoid hazardous weather conditions and optimize flight paths accordingly.
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The Honeywell Primus Epic integrated avionics suite is a key differentiator of the ERJ 170-200 aircraft, providing numerous benefits to airlines and passengers alike. Its advanced capabilities contribute to improved safety, reduced operating costs, enhanced passenger comfort, and overall operational efficiency.

Systems

Within the comprehensive “EMBRAER ERJ 170-200 (long wing) Specs,” the specified systems play a pivotal role in enhancing the aircraft’s safety, efficiency, and overall performance.

The fly-by-wire flight control system replaces traditional mechanical linkages between the pilot’s controls and the aircraft’s flight control surfaces with electronic signals. This advanced system offers numerous advantages, including:

  • Enhanced precision and responsiveness: Electronic signals can transmit control inputs more accurately and quickly than mechanical systems, resulting in improved aircraft handling and maneuverability.
  • Reduced pilot workload: Fly-by-wire systems can automate certain flight control tasks, such as stability augmentation and envelope protection, reducing the pilot’s workload and enhancing situational awareness.
  • Increased safety: Electronic systems can incorporate flight envelope protection features that prevent the aircraft from exceeding its safe operating limits, enhancing overall safety.

Complementing the fly-by-wire system, the ERJ 170-200 incorporates dual hydraulic systems. These redundant systems provide backup and increased reliability in the event of a failure in one system. The dual hydraulic systems power essential flight control functions, such as the flight control surfaces, landing gear, and brakes, ensuring continued safe operation of the aircraft.

The integration of these advanced systems showcases the commitment to safety and efficiency in the design of the ERJ 170-200. These systems contribute to the aircraft’s high level of automation, reduced maintenance requirements, and overall reliability, making it a preferred choice for airlines worldwide.

Certification

The certification status of the Embraer ERJ 170-200 (long wing) is a crucial aspect of its specifications, as it signifies its compliance with stringent safety and airworthiness standards. The aircraft holds certifications from both the Federal Aviation Administration (FAA) and the European Aviation Safety Agency (EASA).

  • Regulatory Compliance: Certification by the FAA and EASA demonstrates that the ERJ 170-200 meets or exceeds the safety and operational standards established by these regulatory bodies. This certification ensures that the aircraft is airworthy and complies with the highest levels of safety.
  • International Acceptance: FAA and EASA certifications are recognized worldwide, allowing the ERJ 170-200 to operate in a vast majority of countries without requiring additional approvals or modifications. This broad acceptance simplifies international operations and facilitates global connectivity.
  • Enhanced Safety: The certification process involves rigorous inspections, testing, and documentation to verify the aircraft’s design, construction, and performance. This thorough evaluation provides assurance that the ERJ 170-200 meets the highest safety standards and is fit for commercial passenger operations.
  • Passenger Confidence: FAA and EASA certifications instill confidence among passengers, as they signify that the aircraft has undergone a comprehensive safety assessment and meets the required standards. This certification plays a significant role in building trust and encouraging passenger travel on the ERJ 170-200.

In summary, the “Certification: FAA, EASA” specification in the Embraer ERJ 170-200 (long wing) Specs denotes the aircraft’s adherence to internationally recognized safety standards. This certification ensures regulatory compliance, facilitates global operations, enhances safety, and instills passenger confidence, making the ERJ 170-200 a reliable and safe choice for commercial aviation.

FAQs on “EMBRAER ERJ 170-200 (long wing) Specs”

This section addresses frequently asked questions and provides informative answers regarding the specifications of the Embraer ERJ 170-200 (long wing) aircraft.

Question 1: What are the key dimensions of the ERJ 170-200 (long wing)?

The ERJ 170-200 (long wing) has a length of 36.24 meters, a height of 9.67 meters, and a wingspan of 26.01 meters. These dimensions contribute to the aircraft’s aerodynamic efficiency, cabin space, maneuverability, and airport compatibility.

Question 2: What type of engines power the ERJ 170-200 (long wing)?

The aircraft is equipped with two General Electric CF34-8E turbofan engines, each generating 64 kN of thrust. These engines provide excellent fuel economy, extended range, and high reliability.

Question 3: What is the maximum range of the ERJ 170-200 (long wing)?

With a range of 3,398 kilometers, the ERJ 170-200 (long wing) can operate non-stop flights over longer distances. This capability enhances operational flexibility and connectivity to underserved markets.

Question 4: How many passengers can the ERJ 170-200 (long wing) accommodate?

The aircraft offers two seating configurations: a single-class layout with a capacity of 78 passengers, and a dual-class layout with a capacity of 66 passengers. This flexibility allows airlines to adapt to varying market demands and optimize revenue.

Question 5: What advanced avionics system is installed in the ERJ 170-200 (long wing)?

The aircraft is equipped with the Honeywell Primus Epic integrated avionics suite. This system enhances safety, efficiency, and situational awareness through advanced navigation, communication, and flight control capabilities.

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Question 6: What safety certifications has the ERJ 170-200 (long wing) received?

The ERJ 170-200 (long wing) holds certifications from both the Federal Aviation Administration (FAA) and the European Aviation Safety Agency (EASA). These certifications signify compliance with stringent international safety standards, ensuring the aircraft’s airworthiness and reliability.

This concludes the FAQs on the “EMBRAER ERJ 170-200 (long wing) Specs.” For further inquiries or detailed specifications, please consult official aircraft documentation or contact the manufacturer directly.

Transition to the next article section:

Explore additional aspects and capabilities of the Embraer ERJ 170-200 (long wing) aircraft in the following sections.

Tips on Optimizing Embraer ERJ 170-200 (long wing) Operations

To maximize the efficiency and effectiveness of Embraer ERJ 170-200 (long wing) aircraft operations, consider the following tips:

Tip 1: Optimize Weight Distribution

Proper weight distribution is crucial for safe and efficient flights. Ensure balanced loading of passengers, cargo, and fuel to maintain the aircraft’s center of gravity within specified limits. This optimization reduces fuel consumption, enhances stability, and improves overall performance.

Tip 2: Leverage Advanced Avionics Capabilities

The Honeywell Primus Epic integrated avionics suite provides a wealth of advanced features. Utilize the system’s capabilities, such as automated flight planning, weather radar, and terrain awareness systems, to enhance situational awareness, reduce pilot workload, and improve operational safety.

Tip 3: Implement Predictive Maintenance Practices

Proactive maintenance is key to minimizing downtime and ensuring the aircraft’s reliability. Implement predictive maintenance programs based on data analysis and monitoring systems. This approach helps identify potential issues early on, allowing for timely maintenance interventions and reducing the risk of unexpected breakdowns.

Tip 4: Optimize Crew Resource Management

Effective crew resource management is crucial for safe and efficient operations. Foster a collaborative environment where crew members can effectively communicate, coordinate tasks, and make well-informed decisions. This teamwork enhances situational awareness, reduces errors, and improves overall safety.

Tip 5: Utilize Performance-Based Navigation (PBN)

PBN procedures, enabled by the aircraft’s advanced avionics, allow for more precise and efficient navigation. By utilizing PBN, operators can reduce flight times, optimize fuel consumption, and enhance overall operational efficiency.

Tip 6: Conduct Regular Pilot Training and Proficiency Checks

Continuous training and proficiency checks are essential for maintaining pilot skills and ensuring operational safety. Conduct regular training sessions and assessments to ensure pilots are well-versed in aircraft systems, emergency procedures, and best practices. This investment in training enhances the overall safety and reliability of flight operations.

Tip 7: Partner with Experienced Maintenance Providers

Entrusting the maintenance of your ERJ 170-200 (long wing) aircraft to experienced and reputable maintenance providers is crucial. These providers possess the expertise, resources, and specialized tools to ensure the aircraft is maintained to the highest standards, ensuring safety, reliability, and optimal performance.

Tip 8: Monitor and Analyze Operational Data

Regularly monitor and analyze operational data to identify areas for improvement and optimize performance. Utilize flight data monitoring systems and maintenance records to identify trends, optimize maintenance schedules, and make data-driven decisions that enhance efficiency, safety, and cost-effectiveness.

By implementing these tips, operators can optimize the performance of their Embraer ERJ 170-200 (long wing) aircraft, ensuring safe, efficient, and cost-effective operations.

Conclusion:

Optimizing Embraer ERJ 170-200 (long wing) operations requires a holistic approach that encompasses aircraft maintenance, crew training, operational procedures, and data analysis. By embracing these tips, operators can enhance safety, improve efficiency, and maximize the value of their aircraft.

Conclusion

The “EMBRAER ERJ 170-200 (long wing) Specs” comprehensively define the aircraft’s design, performance, and capabilities. These specifications guide operational decisions, maintenance practices, and flight planning, ensuring safety, efficiency, and passenger comfort.

From its extended wingspan to its advanced avionics suite, the ERJ 170-200 (long wing) is meticulously engineered to meet the demands of regional and short-haul aviation. Its versatility, reliability, and cost-effectiveness make it a preferred choice for airlines worldwide.

Understanding and leveraging the specifications outlined in this article empowers operators to optimize aircraft performance, enhance safety, and maximize the value of their Embraer ERJ 170-200 (long wing) fleet.