Ultimate Guide to Embraer E195-E2 Specifications

EMBRAER E195-E2 Specs refer to the detailed technical specifications and characteristics of the Embraer E195-E2 aircraft, a commercial passenger jet produced by the Brazilian aerospace company Embraer.

The Embraer E195-E2 is known for its efficiency, advanced technology, and passenger comfort. It features a spacious cabin, modern avionics, and fuel-efficient engines, making it a popular choice for regional and low-cost airlines. Understanding the E195-E2’s specifications is essential for evaluating its performance, capabilities, and suitability for different operational requirements.

In this article, we will explore the key specifications of the Embraer E195-E2, including its dimensions, weight, engine performance, fuel capacity, range, and passenger capacity. We will also discuss the significance of these specifications and how they contribute to the aircraft’s overall performance and efficiency.

EMBRAER E195-E2 Specs

The Embraer E195-E2 is a versatile and high-performing aircraft, and its specifications play a crucial role in determining its capabilities and efficiency. Here are eight key aspects of the E195-E2’s specifications that are worth exploring:

• Length: 41.5 meters
• Wingspan: 35.1 meters
• Height: 10.9 meters
• Maximum Takeoff Weight: 61,500 kilograms
• Range: 5,300 kilometers
• Passenger Capacity: 146
• Fuel Capacity: 13,370 liters
• Engines: Two Pratt & Whitney PW1900G geared turbofan engines

These specifications highlight the E195-E2’s efficiency, passenger comfort, and operational capabilities. Its spacious cabin and high passenger capacity make it suitable for short- to medium-haul flights, while its fuel efficiency and long range allow for cost-effective operations. The advanced engines and modern avionics contribute to the aircraft’s performance, reliability, and ease of maintenance.

Length

The length of the Embraer E195-E2, measuring 41.5 meters, is a significant aspect of its specifications that influences various aspects of the aircraft’s performance and operational capabilities.

• Cabin Space and Passenger Capacity: The length of the E195-E2 contributes to its spacious cabin, allowing for a comfortable andpassenger experience. With a maximum seating capacity of 146 passengers, the aircraft offers ample legroom and headroom, enhancing passenger comfort on short- to medium-haul flights.
• Aerodynamic Efficiency: The length of the aircraft also plays a role in its aerodynamic efficiency. The elongated fuselage helps to reduce drag, leading to improved fuel economy and increased range. This efficiency translates into lower operating costs for airlines and a reduced environmental impact.
• Takeoff and Landing Performance: The length of the E195-E2’s fuselage impacts its takeoff and landing performance. The longer fuselage provides greater stability during takeoff and landing, allowing the aircraft to operate from shorter runways. This flexibility is particularly advantageous for regional airports with limited runway lengths.
• Cargo Capacity: The length of the aircraft also influences its cargo capacity. The E195-E2 offers a generous cargo hold capacity, enabling it to accommodate a substantial amount of baggage and freight. This capability makes the aircraft suitable for both passenger and cargo operations, providing airlines with operational versatility.

In summary, the length of 41.5 meters for the Embraer E195-E2 is a key specification that contributes to the aircraft’s passenger comfort, aerodynamic efficiency, takeoff and landing performance, and cargo capacity. These factors collectively enhance the aircraft’s overall performance and operational capabilities, making it a versatile and efficient choice for regional and low-cost carriers.

Wingspan

In the context of the Embraer E195-E2, the wingspan, measuring 35.1 meters, plays a crucial role in determining the aircraft’s performance, efficiency, and overall flight characteristics. Here are four key facets that highlight the significance of the E195-E2’s wingspan:

• Lift and Aerodynamic Efficiency:

  The wingspan of an aircraft is directly related to the amount of lift it generates. The E195-E2’s 35.1-meter wingspan provides ample surface area to create sufficient lift, allowing the aircraft to take off and maintain stable flight. The larger wingspan also contributes to improved aerodynamic efficiency, reducing drag and optimizing fuel consumption.

• Stability and Maneuverability:

  The wingspan also influences the aircraft’s stability and maneuverability. The E195-E2’s wide wingspan enhances its stability, making it less susceptible to turbulence and providing a smoother ride for passengers. Additionally, the increased wingspan allows for better maneuverability, enabling the aircraft to perform precise turns and navigate airspace effectively.

• Takeoff and Landing Performance:

  The wingspan of an aircraft affects its takeoff and landing performance. The E195-E2’s 35.1-meter wingspan provides greater lift at lower speeds, enabling it to take off from shorter runways. Similarly, during landing, the increased wingspan allows for a more gradual descent and controlled touchdown, enhancing safety and passenger comfort.

• Range and Fuel Efficiency:

  The wingspan of an aircraft also impacts its range and fuel efficiency. The E195-E2’s wide wingspan allows for a more efficient distribution of weight, reducing drag and maximizing lift-to-drag ratio. This results in improved fuel efficiency, enabling the aircraft to cover longer distances while consuming less fuel.

In summary, the wingspan of 35.1 meters for the Embraer E195-E2 is a critical specification that contributes to the aircraft’s lift generation, aerodynamic efficiency, stability, maneuverability, takeoff and landing performance, range, and fuel efficiency. These factors collectively enhance the aircraft’s overall performance and make it a suitable choice for regional and low-cost carriers seeking a combination of efficiency, reliability, and passenger comfort.

Height

The height of the Embraer E195-E2, measuring 10.9 meters, is a crucial specification that plays a significant role in the aircraft’s overall design, performance, and operational capabilities. Here’s an exploration of the connection between “Height: 10.9 meters” and “EMBRAER E195-E2 Specs”:

Cabin Space and Passenger Comfort:
The height of the E195-E2 directly influences the spaciousness and comfort of its cabin. The 10.9-meter height provides ample headroom and legroom for passengers, creating a more pleasant and comfortable travel experience, particularly on longer flights.

Aerodynamic Efficiency and Performance:
The aircraft’s height also affects its aerodynamic efficiency and overall performance. The taller profile of the E195-E2 contributes to reduced drag and improved lift-to-drag ratio. This enhanced aerodynamic efficiency translates into lower fuel consumption and increased range, making the aircraft more economical to operate.

Ground Clearance and Airport Compatibility:
The height of the E195-E2 is carefully designed to ensure compatibility with existing airport infrastructure, such as hangars, terminals, and ground handling equipment. The 10.9-meter height allows the aircraft to operate efficiently at a wide range of airports, including those with height restrictions.

Cargo Capacity and Loading Flexibility:
The height of the E195-E2 also influences the aircraft’s cargo capacity and loading flexibility. The taller fuselage allows for a larger cargo hold, accommodating more baggage, freight, and other items. This increased cargo capacity enhances the aircraft’s versatility and makes it suitable for both passenger and cargo operations.

In summary, the height of 10.9 meters for the Embraer E195-E2 is a key specification that significantly impacts the aircraft’s cabin space, aerodynamic efficiency, airport compatibility, and cargo capacity. Understanding the connection between “Height: 10.9 meters” and “EMBRAER E195-E2 Specs” provides valuable insights into the aircraft’s design, performance, and operational capabilities, making it a preferred choice for airlines seeking a balance of efficiency, comfort, and versatility.

Maximum Takeoff Weight

The maximum takeoff weight (MTOW) of an aircraft is a crucial specification that defines the aircraft’s structural strength, engine power, and overall performance capabilities. In the case of the Embraer E195-E2, its MTOW of 61,500 kilograms is a key aspect that influences various facets of its operation and efficiency.

• Structural Integrity and Safety:

  The MTOW of an aircraft directly affects its structural design and safety features. The E195-E2’s MTOW of 61,500 kilograms necessitates a robust airframe and landing gear system capable of withstanding the stresses and forces encountered during takeoff, climb, and landing. This strong structure ensures the aircraft’s structural integrity and contributes to the safety of passengers and crew.

• Engine Power and Performance:

  The MTOW also influences the aircraft’s engine power and performance requirements. The E195-E2’s MTOW of 61,500 kilograms demands powerful engines capable of generating sufficient thrust to lift the aircraft off the ground and maintain stable flight. The aircraft’s two Pratt & Whitney PW1900G geared turbofan engines are specifically designed to meet this performance demand, providing the necessary thrust and efficiency.

• Fuel Efficiency and Range:

  The MTOW of an aircraft has a direct impact on its fuel efficiency and range. The E195-E2’s MTOW of 61,500 kilograms requires careful fuel management to optimize its range and payload capacity. The aircraft’s advanced fuel-saving technologies, such as its high-efficiency engines and aerodynamic design, work in conjunction to maximize fuel efficiency and extend its operating range.

• Payload and Passenger Capacity:

  The MTOW of an aircraft determines its payload and passenger capacity. The E195-E2’s MTOW of 61,500 kilograms allows for a generous payload capacity, enabling it to accommodate a maximum of 146 passengers in a comfortable cabin configuration. This capacity makes the E195-E2 suitable for various operational scenarios, including high-density short-haul routes and regional flights with a mix of passengers and cargo.

In summary, the maximum takeoff weight of 61,500 kilograms for the Embraer E195-E2 is a critical specification that influences the aircraft’s structural integrity, engine power, fuel efficiency, range, payload capacity, and passenger capacity. Understanding the connection between “Maximum Takeoff Weight: 61,500 kilograms” and “EMBRAER E195-E2 Specs” provides valuable insights into the aircraft’s design, performance, and operational capabilities.

Range

The range of an aircraft, measured in kilometers or nautical miles, represents the maximum distance it can travel without requiring a stopover for refueling. In the context of the Embraer E195-E2, its range of 5,300 kilometers is a significant specification that influences its operational capabilities and suitability for various routes.

• Extended Operational Reach:

  The E195-E2’s range of 5,300 kilometers enables it to connect cities and regions that were previously inaccessible with smaller aircraft. This extended range opens up new possibilities for direct flights, reducing travel time and providing greater convenience for passengers.

• Optimized Fuel Efficiency:

  Achieving a range of 5,300 kilometers requires careful attention to fuel efficiency. The E195-E2 incorporates advanced technologies, such as its high-bypass ratio engines and aerodynamic design, to minimize fuel consumption and maximize its range.

• Reduced Operational Costs:

  By flying longer distances without the need for refueling stops, the E195-E2 reduces operational costs for airlines. This efficiency translates into lower fuel expenses and increased profitability, making it an attractive option for cost-conscious carriers.

• Versatility and Flexibility:

  The E195-E2’s range of 5,300 kilometers provides airlines with greater flexibility in route planning. It can operate on both short-haul and medium-haul flights, adapting to changing market demands and seasonal variations in traffic.

In summary, the range of 5,300 kilometers for the Embraer E195-E2 is a key specification that enhances its operational reach, optimizes fuel efficiency, reduces operational costs, and provides versatility for airlines. This extended range makes it an ideal aircraft for connecting regional destinations and expanding flight networks, while also contributing to the overall efficiency and profitability of airline operations.

Passenger Capacity

The passenger capacity of an aircraft is a crucial specification that directly influences its operational capabilities and market positioning. In the case of the Embraer E195-E2, its passenger capacity of 146 is a key aspect that defines its role in the aviation industry.

The E195-E2’s passenger capacity of 146 positions it as a versatile aircraft capable of serving a wide range of routes and markets. Its spacious cabin can accommodate a comfortable number of passengers, offering ample legroom and headroom for a pleasant travel experience. This capacity makes it suitable for both short-haul and medium-haul flights, catering to the needs of both regional and low-cost carriers.

The high passenger capacity of the E195-E2 also contributes to its economic efficiency. By carrying more passengers per flight, airlines can optimize their revenue and reduce operating costs. This efficiency translates into lower ticket prices for passengers, making air travel more accessible and affordable.

Furthermore, the E195-E2’s passenger capacity aligns with the growing demand for regional air travel. As air transportation expands to connect smaller cities and underserved areas, aircraft with capacities like the E195-E2 play a vital role in providing essential connectivity and supporting economic development.

In summary, the passenger capacity of 146 for the Embraer E195-E2 is a key specification that reflects its versatility, economic efficiency, and alignment with the evolving needs of the aviation industry. Understanding this connection provides valuable insights into the aircraft’s market positioning, operational capabilities, and its role in shaping the future of air travel.

Fuel Capacity

The fuel capacity of an aircraft, measured in liters or gallons, represents the maximum amount of fuel it can carry. In the context of the Embraer E195-E2, its fuel capacity of 13,370 liters is a key specification that influences its range, efficiency, and operational capabilities.

• Extended Range: The E195-E2’s fuel capacity of 13,370 liters enables it to cover longer distances without the need for refueling stops. This extended range opens up new possibilities for direct flights, reduces travel time, and provides greater flexibility in route planning.
• Optimized Fuel Efficiency: Achieving a fuel capacity of 13,370 liters requires careful attention to fuel efficiency. The E195-E2 incorporates advanced technologies, such as its high-bypass ratio engines and aerodynamic design, to minimize fuel consumption and maximize its range.
• Reduced Operational Costs: By flying longer distances with fewer refueling stops, the E195-E2 reduces operational costs for airlines. This efficiency translates into lower fuel expenses and increased profitability.
• Environmental Impact: The fuel capacity of an aircraft also influences its environmental impact. The E195-E2’s fuel efficiency and reduced fuel consumption contribute to lower carbon emissions, making it a more environmentally friendly aircraft.

In summary, the fuel capacity of 13,370 liters for the Embraer E195-E2 is a key specification that enhances its range, optimizes fuel efficiency, reduces operational costs, and contributes to a reduced environmental impact. Understanding the connection between “Fuel Capacity: 13,370 liters” and “EMBRAER E195-E2 Specs” provides valuable insights into the aircraft’s performance, efficiency, and environmental friendliness.

Engines

The Embraer E195-E2 aircraft is equipped with two Pratt & Whitney PW1900G geared turbofan engines, a key component that significantly influences the aircraft’s performance, efficiency, and operational capabilities. Here are four crucial aspects that highlight the connection between “Engines: Two Pratt & Whitney PW1900G geared turbofan engines” and “EMBRAER E195-E2 Specs”:

• Enhanced Fuel Efficiency: The PW1900G engines are renowned for their exceptional fuel efficiency, achieved through advanced design features such as a high bypass ratio and optimized core architecture. This efficiency directly contributes to reduced operating costs for airlines and a lower environmental impact.
• Increased Thrust and Performance: The geared turbofan technology employed in the PW1900G engines provides increased thrust and improved performance. This translates into better takeoff capabilities, shorter climb times, and higher cruise speeds, enhancing the aircraft’s overall flight performance.
• Reduced Noise and Emissions: The PW1900G engines incorporate advanced noise-reduction technologies, resulting in significantly lower noise levels during takeoff, climb, and landing. Additionally, these engines meet stringent environmental regulations, minimizing the aircraft’s carbon footprint.
• Improved Reliability and Maintainability: The PW1900G engines are designed with a focus on reliability and ease of maintenance. They feature advanced health monitoring systems and extended maintenance intervals, reducing the need for unscheduled downtime and ensuring a high level of operational readiness.

In summary, the connection between “Engines: Two Pratt & Whitney PW1900G geared turbofan engines” and “EMBRAER E195-E2 Specs” underscores the critical role of these engines in enhancing the aircraft’s fuel efficiency, performance, environmental friendliness, and operational reliability. These factors collectively contribute to the E195-E2’s status as a highly capable and efficient regional aircraft.

Frequently Asked Questions about the Embraer E195-E2

This section aims to address common questions and provide informative answers regarding the technical specifications and capabilities of the Embraer E195-E2 aircraft.

Question 1: What is the maximum range of the Embraer E195-E2?

Answer: The Embraer E195-E2 has a maximum range of 5,300 kilometers (2,850 nautical miles), enabling it to operate on both short-haul and medium-haul routes.

Question 2: How many passengers can the Embraer E195-E2 accommodate?

Answer: The Embraer E195-E2 has a maximum passenger capacity of 146, offering a comfortable and spacious cabin experience for regional and low-cost carriers.

Question 3: What type of engines power the Embraer E195-E2?

Answer: The Embraer E195-E2 is equipped with two Pratt & Whitney PW1900G geared turbofan engines, known for their fuel efficiency, high performance, and reduced noise levels.

Question 4: What is the fuel capacity of the Embraer E195-E2?

Answer: The Embraer E195-E2 has a fuel capacity of 13,370 liters (3,535 US gallons), providing extended range and reduced fuel consumption.

Question 5: What is the maximum takeoff weight of the Embraer E195-E2?

Answer: The Embraer E195-E2 has a maximum takeoff weight of 61,500 kilograms (135,580 pounds), allowing for efficient payload and passenger capacity.

Question 6: What is the wingspan of the Embraer E195-E2?

Answer: The Embraer E195-E2 has a wingspan of 35.1 meters (115 feet), contributing to its aerodynamic efficiency and stability during takeoff and landing.

In summary, the Embraer E195-E2’s specifications are meticulously designed to provide a balance of efficiency, performance, and passenger comfort. These aircraft are tailored to meet the demands of regional and low-cost carriers, offering a versatile and economical solution for short- to medium-haul operations.

By understanding the key specifications of the Embraer E195-E2, airlines and potential customers can make informed decisions based on their specific operational requirements and passenger needs.

Tips on Embraer E195-E2 Aircraft Specifications

When evaluating the Embraer E195-E2 aircraft and its specifications, consider the following tips to gain a comprehensive understanding and make informed decisions:

Tip 1: Determine Operational Requirements: Before examining the specifications, define your operational needs. Consider factors such as passenger capacity, range requirements, and airport infrastructure limitations to narrow down the most suitable aircraft configuration.

Tip 2: Assess Range and Fuel Efficiency: The E195-E2’s range and fuel efficiency are crucial for optimizing operating costs and meeting passenger demand. Evaluate the aircraft’s maximum range and fuel capacity to ensure alignment with your intended routes and desired cost structure.

Tip 3: Consider Passenger Capacity and Comfort: The E195-E2’s passenger capacity and cabin configuration directly impact passenger experience and profitability. Determine the optimal seating arrangement and amenities to meet your specific market needs and maximize revenue generation.

Tip 4: Evaluate Engine Performance and Reliability: The aircraft’s engines play a vital role in overall performance and maintenance costs. Research the E195-E2’s engine specifications, including thrust, fuel consumption, and maintenance intervals, to ensure they align with your operational requirements.

Tip 5: Analyze Dimensions and Weight: The E195-E2’s physical dimensions and weight influence its maneuverability, takeoff and landing performance, and airport compatibility. Verify that the aircraft’s dimensions and weight meet the specific requirements of your intended operating environment.

Tip 6: Seek Expert Advice: Consult with aviation professionals, industry analysts, or Embraer representatives to gain a deeper understanding of the E195-E2’s specifications and their implications for your operations. Expert insights can help you make well-informed decisions.

Tip 7: Compare with Competitors: Benchmark the E195-E2’s specifications against comparable aircraft in the market. This comparison will provide valuable insights into the aircraft’s strengths, weaknesses, and competitive positioning.

Tip 8: Stay Updated with Industry Trends: The aviation industry is constantly evolving, and aircraft specifications may change over time. Stay informed about the latest technological advancements and regulatory changes to ensure your understanding of the E195-E2’s specifications remains current.

By following these tips, you can effectively evaluate the Embraer E195-E2’s specifications and make informed decisions that align with your operational goals and business objectives.

Conclusion

In summary, the Embraer E195-E2 aircraft stands as a testament to the continuous advancements in regional aviation. Its meticulously crafted specifications, encompassing range, fuel efficiency, passenger capacity, engine performance, dimensions, and weight, empower operators with a versatile and economical solution. Understanding these specifications is paramount for airlines seeking to optimize their operations and cater to the evolving demands of the aviation industry.

As the aviation landscape continues to evolve, the Embraer E195-E2 is poised to remain a key player in the regional jet market. Its efficiency, reliability, and passenger-centric design make it an attractive proposition for airlines worldwide. By leveraging the aircraft’s capabilities and aligning them with specific operational requirements, carriers can unlock new opportunities for growth and profitability.