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Boeing 737 MAX 7 vs. Airbus A220-100

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737 MAX 7

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A220-100

Price (USD)
$90 Million$81 Million
First Flight
20182013
Body Type
Narrow-bodyNarrow-body
Length
35 m116 ft
35 m114 ft
Wingspan
35 m117 ft
35 m115 ft
Wing Area
127 m²1,367 ft²
112 m²1,208 ft²
Fuselage Width
3 m12 ft
3 m11 ft
Height
12 m40 ft
11 m37 ft
Max Takeoff Weight
80,000 kg176,370 lbs
63,100 kg139,112 lbs
Number of Engines
22
Engine Options
CFMI LEAP-1BPratt & Whitney PW1500G
Max Thrust Per Engine
130 kN29,300 lbf
103 kN23,000 lbf
Max Total Thrust
260 kN58,600 lbf
207 kN46,000 lbf
Fuel Capacity
25,800 l6,816 gal
21,805 l5,760 gal
Range
7,130 km3,850 nm
6,390 km3,450 nm
Cruise Speed
839 km/h521 mph
870 km/h541 mph
Typical Seating
153 pax120 pax
Max Seating
172 pax135 pax

What Are the Differences Between the Boeing 737 MAX 7 and Airbus A220-100

Boeing 737 MAX 7 vs Airbus A220-100 Size Comparison

  • At 35.60 meters, the Boeing 737 MAX 7 is 0.60 meters longer than the Airbus A220-100.
  • With a wingspan of 35.90 meters, the Boeing 737 MAX 7 is 0.80 meters wider from wingtip to wingtip.
  • The Boeing 737 MAX 7 and Airbus A220-100 have heights of 12.30 meters and 11.50 meters respectively - making the Boeing 737 MAX 7 0.80 meters taller.

Boeing 737 MAX 7 vs Airbus A220-100 Range

  • Boeing 737 MAX 7’s range of 7,130 kilometers is greater than Airbus A220-100’s range of 6,390 kilometers. Therefore, the Boeing 737 MAX 7 can fly nonstop approximately 740 kilometers further.
  • The Boeing 737 MAX 7 can hold 6,816 gallons of fuel, which is 1,056 gallons more than the Airbus A220-100’s tank capacity of 5,760 gallons.

Boeing 737 MAX 7 vs Airbus A220-100 Seating

  • In a typical seating configuration, the Boeing 737 MAX 7 can accommodate 153 passengers, which is about 33 passengers more than Airbus A220-100’s seating capacity.
  • The Boeing 737 MAX 7’s max seating capacity is 172 passengers, compared to 135 passengers of the Airbus A220-100.

About the Boeing 737 MAX 7

The Boeing 737 MAX 7 is a narrow-body, twin-jet aircraft, and the smallest variant in the re-engineered 737 MAX family. The MAX 7 was originally announced in 2016, but has yet to fly for an airline as of 2023. It had its first flight on March 16, 2018, from the Boeing factory in Washington. The MAX 7 variant will reportedly get certification from the U.S. Federal Aviation Administration by April 2024, which will allow carriers to start flying the aircraft in late 2024. Southwest Airlines is expected to be the launch operator for the MAX 7. The 737 MAX 7 is designed to offer enhanced range and capacity for short to medium-haul flights, catering to airlines seeking a modern and flexible solution for their fleets. It is based on the original 737-700, and features very minor modifications in terms of size. It is expected to fly 1,000 nautical miles farther than the -700 with, 18% lower fuel costs per seat.

At 116.7 feet (35.6 meters) in length with a wingspan of 117.8 feet (35.9 meters), the 737 MAX 7 is adept at operating in diverse airport environments, including those with runway and size constraints. The aircraft typically seats 153 passengers, providing a blend of comfort and efficiency that is attractive for airlines operating regional routes. Powered by two CFM International LEAP-1B engines, the MAX 7 achieves a total thrust of 58,600 lbf (260.0 kN). It has a fuel capacity of 6,816 US gallons (25,800 liters), supporting a range of 3,850 nautical miles (7,130 kilometers). With a cruise speed of 521 mph (839 km/h), the 737 MAX 7 offers airlines an efficient means to cover short and medium distances.

Competitors for the MAX 7 include aircraft from Airbus like the A319neo and A220, and the E2 series from Embraer. Airlines such as Southwest Airlines and WestJet have selected the Boeing 737 MAX 7 for its operational flexibility and economic performance. The aircraft's capability to efficiently serve a range of regional routes makes it a valuable addition to airline fleets, especially for carriers looking to optimize their domestic and short-haul networks.

About the Airbus A220-100

The Airbus A220-100, originally designated as the Bombardier CS100, is a twin-engine, narrow-body aircraft designed for short to medium-haul flights. This jetliner, which accommodates 100-120 passengers in a typical configuration, first took to the skies in 2013 and began commercial service in 2016. It was developed by Bombardier Aerospace and later integrated into the Airbus family, representing a significant advancement in regional jet efficiency and design.

Constructed primarily from advanced materials, the A220-100 features a fuselage with a high proportion of composites, complemented by aluminum-lithium alloys. This innovative use of materials contributes to the aircraft's reduced weight, enhancing fuel efficiency and operational performance. The A220-100 is powered by Pratt & Whitney PW1500G turbofan engines, capable of delivering 46,000 lbf of thrust. This power enables the aircraft to achieve a maximum takeoff weight of approximately 144,000 lbs and a range of up to 3,450 nautical miles.

The aircraft measures 114.8 feet in length with a wingspan of 115.2 feet. Its design includes a wing area optimized for aerodynamic efficiency, making it suitable for operation at various airport types, including those with shorter runways. The A220-100's flight deck features advanced avionics and Airbus's renowned fly-by-wire system, enhancing pilot control and flight safety.

Airlines worldwide have recognized the Airbus A220-100's versatility and efficiency, incorporating it into their fleets for a diverse range of routes. Swiss International Air Lines was the launch customer for the A220-100, utilizing it for European routes. Other operators, such as AirBaltic and Korean Air, have employed the aircraft for its advantageous blend of range, efficiency, and passenger comfort, suitable for both short-haul and regional routes.

The A220-100's introduction to the market signified a shift in the narrow-body aircraft sector, focusing on operational efficiency and adaptability. Its ability to serve various route lengths with a smaller passenger capacity fills a unique niche in the commercial aviation market. The ongoing production and operation of the A220-100 underscore its continued importance in the industry, particularly for airlines looking to optimize their fleets for efficiency and reduced environmental impact.

As of the latest available data, the A220-100 continues to be a valuable asset for airlines, offering a modern solution for regional air travel. Its presence in the global aviation market reflects the industry's ongoing evolution towards more versatile and environmentally conscious aircraft designs.

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Values shown may not be 100% accurate, as some metrics are averages or only represent certain production years and configurations. Engine specs are based on the best options available.

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