Definitive ATR ATR-72-201 Specifications and Performance

Posted on

Definitive ATR ATR-72-201 Specifications and Performance

The ATR ATR-72-201, a twin-engine turboprop airliner, stands out for its impressive specifications that cater to regional aviation needs. This aircraft boasts a maximum takeoff weight of 22,500 kg and a length of 27.17 meters, enabling it to accommodate up to 72 passengers comfortably. Its wingspan of 27.05 meters contributes to its stability and efficiency during flight.

The ATR ATR-72-201 is renowned for its exceptional performance, powered by two Pratt & Whitney Canada PW127F turboprop engines. These engines deliver a maximum power output of 2,750 shaft horsepower each, providing ample thrust to propel the aircraft to a maximum speed of 276 knots (511 km/h). Its advanced avionics suite enhances safety and navigation, ensuring a smooth and reliable flying experience.

The ATR ATR-72-201 has garnered significant recognition for its cost-effectiveness and versatility. Airlines appreciate its low operating costs and ability to operate on shorter runways, making it suitable for serving regional airports and communities. Its spacious cabin provides a comfortable travel experience for passengers, contributing to its overall popularity.

ATR ATR-72-201 Specs

The ATR ATR-72-201 stands apart in the aviation industry due to its meticulous specifications that cater to the demands of regional transportation. Let’s delve into five key aspects that define this aircraft:

  • Seating Capacity: Comfortably accommodates up to 72 passengers.
  • Range: Impressive range of 900 nautical miles, connecting distant communities.
  • Fuel Efficiency: Advanced turboprop engines optimize fuel consumption, reducing operating costs.
  • Short-field Performance: Capable of operating on shorter runways, making it accessible to regional airports.
  • Advanced Avionics: State-of-the-art avionics enhance safety and navigation.

These specifications combine to make the ATR ATR-72-201 an indispensable asset for regional airlines. Its spacious cabin provides a comfortable travel experience for passengers, while its operational efficiency reduces costs for airlines. The aircraft’s ability to operate on shorter runways opens up connectivity options for smaller communities, fostering economic growth and social development. Moreover, the advanced avionics suite ensures a safe and reliable flying experience, meeting the highest industry standards.

Seating Capacity

The seating capacity of the ATR ATR-72-201 is a significant aspect of its specifications, directly impacting its operational capabilities and passenger comfort.

  • Spacious Cabin: The ATR ATR-72-201 boasts a, providing ample legroom and headroom for passengers, ensuring a comfortable travel experience, especially on longer flights.
  • Regional Connectivity: The aircraft’s seating capacity is optimized for regional routes, where it can efficiently transport a significant number of passengers between smaller cities and towns. This connectivity is crucial for fostering regional economic development and social integration.
  • Operational Flexibility: The ATR ATR-72-201’s seating capacity allows airlines to adjust their flight schedules and aircraft deployment based on passenger demand, optimizing their operations and reducing empty seats.
  • Cost-Effective Configuration: Compared to larger aircraft, the ATR ATR-72-201’s seating capacity strikes a balance between passenger capacity and operational costs, making it an economical choice for regional airlines.

In summary, the seating capacity of the ATR ATR-72-201 is a key specification that contributes to its suitability for regional aviation. It enables comfortable passenger travel, supports regional connectivity, provides operational flexibility, and optimizes cost-effectiveness.

Range

The range of the ATR ATR-72-201, an impressive 900 nautical miles, plays a crucial role in fulfilling the aircraft’s purpose of connecting distant communities. This specification directly impacts regional connectivity, operational efficiency, and the overall value proposition of the aircraft.

  • Regional Connectivity: The ATR ATR-72-201’s range enables it to operate flights between smaller cities and towns that may not have direct connections to major hubs. This connectivity is essential for regional economic development, providing access to essential services, education, and employment opportunities.
  • Operational Efficiency: The aircraft’s range allows airlines to optimize their flight schedules and reduce the need for stopovers, saving time and fuel. This operational efficiency translates into lower operating costs and increased profitability for airlines.
  • Value Proposition: The ATR ATR-72-201’s range enhances its value proposition by providing airlines with the flexibility to offer direct flights between underserved markets. This connectivity attracts passengers and generates revenue, making the aircraft a valuable asset for regional airlines.
  • Community Development: By connecting distant communities, the ATR ATR-72-201 fosters social and economic development. Improved accessibility promotes tourism, trade, and cultural exchange, contributing to the overall well-being of the regions it serves.
Read:  Uncover the Secrets of the Boeing E-3D Sentry Cockpit: A Journey into Aviation Technology

In conclusion, the range of 900 nautical miles is an integral part of the ATR ATR-72-201’s specifications, enabling it to fulfill its role as a vital link between distant communities. This range contributes to regional connectivity, operational efficiency, value proposition, and community development, making the aircraft an indispensable asset for regional aviation.

Fuel Efficiency

Fuel efficiency is a crucial aspect of the ATR ATR-72-201’s specifications, directly impacting operational costs and environmental sustainability. The aircraft’s advanced turboprop engines are designed to optimize fuel consumption, leading to significant cost savings for airlines and reduced emissions, contributing to the overall value proposition of the aircraft.

  • Reduced Operating Costs: The ATR ATR-72-201’s fuel efficiency translates into lower operating costs for airlines. With optimized fuel consumption, airlines can save on fuel expenses, a major component of operating costs, leading to increased profitability and financial sustainability.
  • Environmental Sustainability: The aircraft’s fuel efficiency also contributes to environmental sustainability. Lower fuel consumption results in reduced carbon emissions, helping airlines meet environmental regulations and contribute to global efforts to mitigate climate change.
  • Increased Range: The ATR ATR-72-201’s fuel efficiency allows for increased range, enabling airlines to operate longer flights without the need for additional fuel stops. This extended range enhances the aircraft’s operational flexibility and connectivity options.
  • Competitive Advantage: In a competitive aviation industry, fuel efficiency is a key differentiator. Airlines that operate the ATR ATR-72-201 gain a competitive advantage by reducing operating costs, enhancing environmental sustainability, and offering flexible flight options.

In conclusion, the fuel efficiency of the ATR ATR-72-201, achieved through advanced turboprop engines, is an integral part of the aircraft’s specifications. It contributes to reduced operating costs, environmental sustainability, increased range, and a competitive advantage for airlines. These factors combined make the ATR ATR-72-201 a compelling choice for regional aviation, meeting the demands of both airlines and passengers.

Short-field Performance

The ATR ATR-72-201’s short-field performance is a crucial component of its specifications, enabling it to operate on shorter runways and access regional airports that may not be accessible to larger aircraft. This capability plays a vital role in regional connectivity and the overall value proposition of the aircraft.

Regional airports often have shorter runways due to space constraints or geographical limitations. The ATR ATR-72-201’s ability to operate on these runways allows airlines to provide essential air services to smaller communities that would otherwise be difficult or impossible to reach. This connectivity is vital for economic development, healthcare access, education, and social integration in remote areas.

The ATR ATR-72-201’s short-field performance is achieved through a combination of design features and advanced technology. Its high-lift wings and powerful turboprop engines provide the necessary lift and thrust to take off and land on shorter runways. This capability makes the aircraft an ideal choice for regional operators looking to expand their network and offer convenient air travel options to underserved communities.

Read:  The Ultimate Guide to CESSNA 162 SkyCatcher Specifications

In summary, the ATR ATR-72-201’s short-field performance is an essential specification that enables the aircraft to connect remote communities and foster regional development. Its ability to operate on shorter runways makes it a valuable asset for regional airlines and contributes to the overall accessibility and sustainability of air transportation.

Advanced Avionics

Advanced avionics play a pivotal role within the ATR ATR-72-201’s specifications, significantly contributing to its safety, navigation capabilities, and overall operational efficiency. The integration of state-of-the-art avionics systems in the ATR ATR-72-201 is not merely an added feature but a fundamental aspect of its design, ensuring the aircraft meets the highest standards of modern aviation.

The ATR ATR-72-201’s advanced avionics suite comprises a comprehensive range of cutting-edge technologies that enhance situational awareness, improve navigation accuracy, and provide pilots with real-time data and support during flight operations. This advanced avionics system acts as the aircraft’s central nervous system, seamlessly integrating various sensors, displays, and communication systems to provide pilots with a comprehensive overview of the aircraft’s status and surroundings.

The practical significance of advanced avionics in the ATR ATR-72-201 is evident in its ability to improve flight safety. Enhanced navigation capabilities, precise instrument readings, and real-time weather updates empower pilots to make informed decisions, particularly in challenging weather conditions or during complex maneuvers. Furthermore, advanced avionics systems can provide early warnings of potential hazards, allowing pilots to take proactive measures to ensure the safety of the aircraft and its occupants.

In summary, the integration of advanced avionics in the ATR ATR-72-201 is not merely a specification but a testament to the aircraft’s commitment to safety, efficiency, and technological innovation. These avionics systems play a crucial role in enhancing situational awareness, improving navigation accuracy, and providing pilots with the tools they need to operate the aircraft safely and efficiently. As the aviation industry continues to evolve, the ATR ATR-72-201’s advanced avionics suite will undoubtedly remain a cornerstone of its success.

FAQs on ATR ATR-72-201 Specs

The ATR ATR-72-201, a highly capable regional aircraft, raises several common inquiries regarding its specifications. This section aims to provide clear and concise answers to these frequently asked questions.

Question 1: What is the seating capacity of the ATR ATR-72-201?

The ATR ATR-72-201 offers a versatile cabin configuration that can accommodate up to 72 passengers, making it suitable for a wide range of regional operations.

Question 2: What is the range of the ATR ATR-72-201?

The ATR ATR-72-201 boasts an impressive range of 900 nautical miles (1,667 kilometers), enabling it to connect distant communities and regional hubs efficiently.

Question 3: How fuel-efficient is the ATR ATR-72-201?

The ATR ATR-72-201 is renowned for its exceptional fuel efficiency, achieved through advanced turboprop engines. This efficiency translates into reduced operating costs and a decreased environmental impact.

Question 4: Can the ATR ATR-72-201 operate on short runways?

Yes, the ATR ATR-72-201 excels in short-field performance, making it accessible to regional airports with shorter runways. This capability enhances its connectivity options and supports the development of underserved communities.

Question 5: How advanced are the avionics systems in the ATR ATR-72-201?

The ATR ATR-72-201 incorporates state-of-the-art avionics systems, providing pilots with enhanced situational awareness, precise navigation, and real-time data. These advanced avionics contribute to increased safety and operational efficiency.

Read:  Detailed Specs of the British Aerospace BAe-146-100 Aircraft

Question 6: What is the maximum takeoff weight of the ATR ATR-72-201?

The ATR ATR-72-201 has a maximum takeoff weight of 22,500 kilograms (49,604 pounds), allowing it to carry a substantial payload while maintaining optimal performance.

In summary, the ATR ATR-72-201’s specifications are carefully designed to meet the demands of regional aviation, offering a combination of passenger capacity, range, fuel efficiency, short-field performance, advanced avionics, and operational flexibility.

Tips on Optimizing ATR ATR-72-201 Specs for Regional Aviation

The ATR ATR-72-201 stands as an exceptional aircraft for regional aviation, and fully leveraging its specifications can maximize its potential. Here are some valuable tips to consider:

Tip 1: Maximize Seating Capacity: Utilize the ATR ATR-72-201’s 72-passenger seating capacity to accommodate a significant number of passengers, optimizing revenue and catering to peak travel demands.

Tip 2: Prioritize Fuel Efficiency: The aircraft’s advanced turboprop engines provide excellent fuel efficiency. Capitalize on this advantage to reduce operating costs, enhance sustainability, and extend the aircraft’s range for longer flights or reach remote destinations.

Tip 3: Utilize Short-Field Performance: Leverage the ATR ATR-72-201’s ability to operate on shorter runways. This capability opens up access to regional airports, enabling airlines to connect underserved communities and expand their network.

Tip 4: Integrate Advanced Avionics: The aircraft’s state-of-the-art avionics systems provide enhanced safety and navigation capabilities. Utilize these systems to improve situational awareness, reduce pilot workload, and optimize flight operations.

Tip 5: Optimize Maintenance and Support: Develop a comprehensive maintenance and support plan tailored to the ATR ATR-72-201’s specifications. Regular maintenance, timely inspections, and access to reliable spare parts will ensure the aircraft’s longevity and operational efficiency.

By implementing these tips, airlines and operators can harness the full potential of the ATR ATR-72-201’s specifications, maximizing its performance, efficiency, and contribution to regional aviation.

Optimizing the ATR ATR-72-201’s specifications leads to enhanced profitability, improved connectivity, and the ability to meet the unique demands of regional air travel. By embracing these tips, airlines can unlock the aircraft’s true value and deliver exceptional service to their passengers.

ATR ATR-72-201 Specs

The ATR ATR-72-201 emerges as a remarkable aircraft, meticulously engineered to excel in regional aviation. Its specifications, including exceptional seating capacity, impressive range, remarkable fuel efficiency, short-field performance, and advanced avionics, collectively position it as an indispensable asset for regional airlines.

Operators who harness the full potential of the ATR ATR-72-201’s specifications will undoubtedly reap the benefits of enhanced profitability, expanded connectivity, and the ability to meet the unique demands of regional air travel. This aircraft stands as a testament to the continuous innovation and dedication to providing efficient and accessible air transportation solutions.