Comprehensive FAIRCHILD DORNIER 328 Specifications for Aircraft Enthusiasts

FAIRCHILD DORNIER 328 Specs refer to the technical data and specifications of the Fairchild Dornier 328, a regional airliner developed by German manufacturer Fairchild Dornier.

These specifications define the aircraft’s performance, dimensions, and operational characteristics, providing crucial information for pilots, engineers, and aviation enthusiasts. The Fairchild Dornier 328 Specs encompass various aspects, including:

• Dimensions: Length, wingspan, height, and cabin size
• Weights: Maximum takeoff weight, landing weight, and empty weight
• Performance: Speed, range, climb rate, and service ceiling
• Engines: Type, thrust, and fuel consumption
• Avionics: Navigation, communication, and flight control systems

Understanding the Fairchild Dornier 328 Specs is essential for efficient operation, maintenance, and safety of the aircraft. It enables pilots to determine performance capabilities, limitations, and handling characteristics. Engineers rely on these specs for structural analysis, weight distribution, and fuel management. Aviation enthusiasts appreciate the technical details, gaining insights into the aircraft’s design and engineering marvel.

FAIRCHILD DORNIER 328 Specs

The Fairchild Dornier 328 Specs encapsulate the technical data and specifications that define the aircraft’s performance, dimensions, and operational characteristics. Five key aspects to consider include:

• Dimensions: Length, wingspan, height, cabin size
• Weights: Maximum takeoff weight, landing weight, empty weight
• Performance: Speed, range, climb rate, service ceiling
• Engines: Type, thrust, fuel consumption
• Avionics: Navigation, communication, flight control systems

These aspects are interconnected and provide a comprehensive understanding of the aircraft’s capabilities and limitations. For instance, the dimensions determine the aircraft’s physical size and cabin capacity, while the weights affect its performance and fuel efficiency. The performance characteristics, such as speed and range, define the aircraft’s operational envelope and mission suitability. The engines provide the necessary thrust for takeoff and flight, and their fuel consumption dictates the aircraft’s range and operating costs. Finally, the avionics systems ensure safe and efficient navigation, communication, and flight control.

Understanding these key aspects is crucial for pilots, engineers, and aviation enthusiasts to operate, maintain, and appreciate the Fairchild Dornier 328 aircraft effectively.

Dimensions

The dimensions of an aircraft, including length, wingspan, height, and cabin size, are critical components of the FAIRCHILD DORNIER 328 Specs. These dimensions determine the aircraft’s physical size, weight, and capacity, directly influencing its performance and operational capabilities.

The length of the aircraft, from nose to tail, affects its overall weight and balance. A longer fuselage can accommodate more passengers or cargo, increasing the aircraft’s payload capacity. The wingspan, or the distance between the wingtips, determines the aircraft’s lift and stability. A larger wingspan provides greater lift, allowing the aircraft to carry more weight or fly at higher altitudes. The height of the aircraft, from the ground to the top of the vertical stabilizer, affects its ground clearance and ability to operate in confined spaces. A taller aircraft may require specialized infrastructure, such as taller hangars or loading bridges.

Cabin size is a crucial aspect of the FAIRCHILD DORNIER 328 Specs, as it determines the aircraft’s passenger capacity and comfort. The cabin length, width, and height dictate the number of seats, the seat pitch, and the overall passenger experience. A larger cabin can accommodate more passengers, but it also affects the aircraft’s weight and fuel consumption.

Understanding the connection between dimensions and FAIRCHILD DORNIER 328 Specs is essential for aircraft design, operation, and maintenance. These dimensions influence the aircraft’s performance, efficiency, and suitability for different missions and operational environments.

Weights

Within the FAIRCHILD DORNIER 328 Specs, the weights of the aircraft play a crucial role in determining its performance and operational capabilities. Three key weight measurements are considered: maximum takeoff weight, landing weight, and empty weight.

Maximum takeoff weight (MTOW) represents the maximum allowable weight of the aircraft at takeoff, including fuel, passengers, cargo, and crew. It is a critical factor in determining the aircraft’s structural integrity, engine thrust requirements, and takeoff performance. Exceeding the MTOW can compromise the aircraft’s safety and handling characteristics.

Landing weight (MLW) refers to the maximum permissible weight of the aircraft during landing. It is typically lower than the MTOW to account for fuel consumption during the flight and to ensure a safe landing within the available runway length. MLW influences the aircraft’s landing speed, braking distance, and overall stability during the landing phase.

Empty weight (OEW) represents the weight of the aircraft without any payload, including fuel, passengers, or cargo. It comprises the weight of the airframe, engines, avionics, and other essential components. OEW is a fundamental parameter for calculating the aircraft’s payload capacity and fuel efficiency.

Understanding the relationship between weights and FAIRCHILD DORNIER 328 Specs is essential for several reasons. Firstly, it enables pilots to calculate the aircraft’s takeoff and landing performance accurately, ensuring safe and efficient operation. Secondly, engineers rely on weight data for structural analysis, weight and balance calculations, and maintenance schedules. Finally, weight management is crucial for optimizing fuel consumption, reducing operating costs, and maximizing the aircraft’s payload capacity.

Performance

Within the context of FAIRCHILD DORNIER 328 Specs, the aircraft’s performance characteristics play a vital role in determining its operational capabilities and suitability for various missions. Four key performance parameters are considered: speed, range, climb rate, and service ceiling.

• Speed: The speed of the aircraft, typically measured in knots (kts) or Mach number, is a critical factor in determining its efficiency and mission effectiveness. Higher speeds enable faster travel times, reducing journey durations and increasing productivity. For the FAIRCHILD DORNIER 328, its maximum operating speed and cruise speed are important specifications that define its performance envelope.
• Range: The range of the aircraft, measured in nautical miles (NM), represents the maximum distance it can travel without refueling. It is influenced by factors such as fuel capacity, engine efficiency, and aircraft weight. The range capability of the FAIRCHILD DORNIER 328 determines its suitability for long-distance routes or operations from remote locations.
• Climb rate: The climb rate of the aircraft, measured in feet per minute (fpm), indicates its ability to ascend vertically. A higher climb rate enables the aircraft to reach its cruising altitude more quickly, saving time and fuel. The FAIRCHILD DORNIER 328’s climb rate is a crucial factor in its takeoff performance and obstacle clearance capabilities.
• Service ceiling: The service ceiling of the aircraft, measured in feet above sea level (ASL), represents the maximum altitude at which it can maintain controlled flight. This parameter is influenced by engine power, aerodynamic design, and atmospheric conditions. The service ceiling of the FAIRCHILD DORNIER 328 defines its operational altitude limits and determines its suitability for high-altitude operations or mountainous terrain.

Understanding the interrelation between performance parameters and FAIRCHILD DORNIER 328 Specs is essential for mission planning, aircraft utilization, and safety considerations. By optimizing these performance characteristics, operators can maximize the aircraft’s capabilities, efficiency, and safety within the specified operating envelope.

Engines

Within the realm of FAIRCHILD DORNIER 328 Specs, the aircraft’s engines play a pivotal role in defining its performance, efficiency, and operational capabilities. Three key engine-related aspects are considered: type, thrust, and fuel consumption.

• Engine Type
  The type of engine employed in the FAIRCHILD DORNIER 328 significantly influences its overall performance characteristics. Turboprop engines, commonly used in regional aircraft, combine a gas turbine with a propeller to generate thrust. Turbofan engines, often found in larger commercial aircraft, utilize a fan to increase thrust efficiency. Understanding the engine type is crucial for maintenance, fuel management, and performance optimization.
• Thrust
  Thrust, measured in pounds-force (lbf) or kilonewtons (kN), represents the force generated by the engines to propel the aircraft forward. Adequate thrust is essential for takeoff, climb, and maintaining altitude during flight. The FAIRCHILD DORNIER 328’s engine thrust specifications determine its payload capacity, takeoff distance, and overall climb performance.
• Fuel Consumption
  Fuel consumption, typically measured in gallons per hour (GPH) or kilograms per hour (kg/hr), is a critical factor affecting the aircraft’s operating costs and range. Efficient engines minimize fuel consumption, reducing fuel costs and extending the aircraft’s range. The FAIRCHILD DORNIER 328’s fuel consumption specifications guide flight planning, fuel budgeting, and mission endurance calculations.

The interplay between engine type, thrust, and fuel consumption is fundamental to understanding the FAIRCHILD DORNIER 328’s performance envelope and operational capabilities. Optimizing these engine-related factors ensures efficient, reliable, and cost-effective aircraft operation.

Avionics

Within the context of FAIRCHILD DORNIER 328 Specs, avionics systems play a crucial role in ensuring safe, efficient, and precise aircraft operation. Avionics encompass a wide range of electronic systems responsible for navigation, communication, and flight control.

• Navigation Systems
  Navigation systems provide pilots with real-time information about the aircraft’s position, altitude, and course. These systems utilize various technologies such as GPS, inertial navigation systems (INS), and radio navigation aids to determine the aircraft’s location and guide it along its intended flight path.
• Communication Systems
  Communication systems enable pilots to communicate with air traffic control, ground personnel, and other aircraft. These systems include radios, transponders, and data link systems that facilitate the exchange of critical information, ensuring coordination and safety during flight.
• Flight Control Systems
  Flight control systems are responsible for controlling the aircraft’s flight surfaces, such as ailerons, elevators, and rudder. These systems utilize sensors, actuators, and computers to interpret pilot inputs and adjust the aircraft’s attitude, altitude, and direction of flight.

The integration of these avionics systems in the FAIRCHILD DORNIER 328 enhances its operational capabilities, improves safety, and reduces pilot workload. Advanced avionics systems can provide pilots with situational awareness, automate flight procedures, and enhance communication efficiency. Understanding the specifications and capabilities of these systems is crucial for pilots, maintenance engineers, and anyone involved in the operation and maintenance of the FAIRCHILD DORNIER 328 aircraft.

FAQs

This section addresses frequently asked questions regarding the specifications of the Fairchild Dornier 328 aircraft.

Question 1: What are the dimensions of the Fairchild Dornier 328?

Answer: The Fairchild Dornier 328 has the following dimensions:

• Length: 20.1 meters (65.9 feet)
• Wingspan: 26.9 meters (88.3 feet)
• Height: 7.3 meters (24 feet)
• Cabin length: 17.6 meters (57.7 feet)
• Cabin width: 2.1 meters (6.9 feet)

Question 2: What is the maximum takeoff weight of the Fairchild Dornier 328?

Answer: The maximum takeoff weight of the Fairchild Dornier 328 is 16,900 kilograms (37,258 pounds).

Question 3: What type of engines does the Fairchild Dornier 328 use?

Answer: The Fairchild Dornier 328 is powered by two Pratt & Whitney Canada PW115A turboprop engines.

Question 4: What is the range of the Fairchild Dornier 328?

Answer: The range of the Fairchild Dornier 328 with maximum payload is approximately 1,200 nautical miles (2,222 kilometers).

Question 5: What avionics systems are featured in the Fairchild Dornier 328?

Answer: The Fairchild Dornier 328 is equipped with advanced avionics systems, including a Honeywell Primus 1000 integrated flight deck, dual GPS/INS navigation systems, and a weather radar.

Question 6: What is the passenger capacity of the Fairchild Dornier 328?

Answer: The Fairchild Dornier 328 has a standard passenger capacity of 32 to 33, with a maximum capacity of 39.

These FAQs provide a comprehensive overview of the key specifications of the Fairchild Dornier 328 aircraft.

Transition to the next article section:

For further information on the Fairchild Dornier 328 and its capabilities, refer to the aircraft’s flight manual or consult with an aviation expert.

Tips for Understanding FAIRCHILD DORNIER 328 Specs

Grasping the specifications of the Fairchild Dornier 328 aircraft is crucial for various aviation professionals. Here are some tips to effectively comprehend and utilize these specifications:

Tip 1: Familiarize Yourself with Key Parameters
Identify and understand the significance of essential parameters within the FAIRCHILD DORNIER 328 Specs, such as dimensions, weights, performance, engines, and avionics. Each parameter provides specific insights into the aircraft’s capabilities and operational characteristics.Tip 2: Utilize Comprehensive Resources
Refer to the aircraft’s flight manual, maintenance manuals, and other official documentation for accurate and detailed FAIRCHILD DORNIER 328 Specs. These resources provide comprehensive information directly from the aircraft manufacturer.Tip 3: Seek Expert Guidance
Consult with experienced pilots, engineers, or aviation professionals who have in-depth knowledge of the Fairchild Dornier 328. Their practical insights can complement your understanding of the aircraft’s specifications.Tip 4: Attend Training Programs
Consider enrolling in specialized training programs or workshops that focus on the FAIRCHILD DORNIER 328 Specs. These programs provide structured learning and hands-on experience with the aircraft’s systems and specifications.Tip 5: Use Spec Sheets for Quick Reference
Create or obtain spec sheets that summarize the key FAIRCHILD DORNIER 328 Specs. Keep these sheets readily available for quick reference during operations, maintenance, or mission planning.Tip 6: Consider Operational Scenarios
Relate the FAIRCHILD DORNIER 328 Specs to real-world operational scenarios. This practical approach helps you understand how specifications impact aircraft performance, safety, and efficiency in different situations.Tip 7: Stay Updated with Modifications
Be aware of any modifications or upgrades made to the Fairchild Dornier 328 aircraft. These modifications may alter certain specifications and require updated knowledge and training.Tip 8: Promote Knowledge Sharing
Share your understanding and insights on FAIRCHILD DORNIER 328 Specs with colleagues and fellow aviation enthusiasts. Collaborative knowledge sharing enhances overall comprehension and safety within the aviation community.

By following these tips, you can effectively understand, utilize, and contribute to the knowledge surrounding FAIRCHILD DORNIER 328 Specs, ensuring safe and efficient operation of this aircraft.

Transition to the article’s conclusion:

Understanding FAIRCHILD DORNIER 328 Specs is essential for maximizing the aircraft’s capabilities and ensuring its safe and efficient operation. By embracing these tips, you can enhance your knowledge and contribute to the overall safety and success of Fairchild Dornier 328 operations.

Conclusion

The FAIRCHILD DORNIER 328 Specs encapsulate a comprehensive set of parameters that define the aircraft’s performance, dimensions, and operational characteristics. Understanding these specifications is crucial for pilots, engineers, maintenance personnel, and aviation enthusiasts to ensure safe, efficient, and optimal operation of the Fairchild Dornier 328 aircraft.

Throughout this exploration, we have highlighted the significance of key aspects such as dimensions, weights, performance, engines, and avionics. Each specification contributes to the aircraft’s capabilities and limitations, impacting factors such as payload capacity, range, speed, fuel consumption, and overall safety. By delving into these specs, we gain a deeper appreciation for the engineering marvel and precision involved in aircraft design and operation.

As aviation technology continues to advance, it is imperative for professionals to stay abreast of the latest specifications and modifications to ensure the continued safety and efficiency of aircraft operations. The FAIRCHILD DORNIER 328 Specs serve as a valuable reference point for all those involved in the operation, maintenance, and appreciation of this exceptional aircraft.