NASA正在研发名为X-66的未来商用飞机，旨在大幅降低燃油消耗。该项目与波音合作，对常见的单通道客机进行重新设计，目标是将燃油消耗降低30%。X-66的核心创新在于其“跨音速桁架支撑机翼”，通过增加机翼面积来提升升力。NASA计划将一架退役的MD-90飞机改装成X-66进行测试，并结合推进系统、材料和系统架构的改进，以减少碳排放，应对航空业对环境的影响。虽然未来电动飞机可能用于短途飞行，但像X-66这样的设计改进将成为未来主流商用客机的关键方向，为乘客带来更经济、环保的出行体验。

✈️ **X-66飞机的核心创新在于其“跨音速桁架支撑机翼”设计，通过增加机翼面积来提升升力，从而提高飞机的燃油效率。** 这种设计可以使飞机获得更大的升力，从而减少飞机的燃油消耗，并降低碳排放。

🚀 **NASA与波音合作，计划将一架退役的MD-90飞机改装成X-66进行测试。** 通过对实际飞机进行改装，NASA可以验证X-66的设计方案，并对其性能进行评估，为未来商用飞机的设计提供参考。

🌍 **X-66飞机有望将燃油消耗降低30%，并减少碳排放。** 航空业是碳排放的主要来源之一，X-66的研发旨在减少飞机的碳排放，为环境保护做出贡献。

🔋 **未来电动飞机可能用于短途飞行，但主流商用客机仍将以类似于现今的飞机为主，并采用X-66等设计改进。** 电动飞机由于电池容量的限制，目前仅适用于短途飞行，而长途飞行仍需要依靠传统燃油飞机或未来改进的飞机。

📉 **更节能的飞机不仅可以降低航空公司的燃油成本，还可以降低乘客的机票价格。** 燃油成本是航空公司运营的主要成本之一，更节能的飞机可以降低燃油成本，从而降低机票价格，使航空旅行更加经济实惠。

NASA isn't just considering a futuristic plane on Mars. It's developing the future of your commercial planes, too.

The space agency's Sustainable Flight Demonstrator project — intended to slash the fuel commercial airliners burn — is developing the novel X-66 plane. Working with Boeing, the project aims to reengineer the single-aisle aircraft that you typically fly on. As NASA noted, these planes (like the Airbus A320 and Boeing 737) are the "workhorse of passenger airlines around the world."

In a wind tunnel at the agency's Langley Research Center, aviation engineers recently tested a model of the X-66, which you can see below.

The model, with a six-foot wingspan, shows the major X-66 innovation: a "transonic truss-braced wing," wherein diagonal struts attached to the fuselage support an extra-long wing. (Wings with more surface area can generate more lift.)

Engineers will assess measurements of the demonstration plane's lift, drag, aerodynamics, and more to see if it requires any design alterations. Next, the plane will move into a faster wind tunnel (Langley has multiple wind tunnels) and other models will be tested before Boeing introduces these changes to an actual plane.

At its facility in Palmdale, California, Boeing will convert an MD-90 aircraft — a single-aisle plane that's no longer in service — into the X-66. The novel design could offer significant benefits. "When combined with other advancements in propulsion systems, materials, and systems architecture, this configuration could result in up to 30 percent less fuel consumption and reduced emissions when compared with today’s best-in-class aircraft," NASA explained.

Electric planes will likely fill a niche in future commercial aviation, too. But such craft would transport people on shorter regional hops, perhaps some 300 miles or less (long electric flights would require giant batteries, making the planes much too heavy to fly). The main commercial workhorse planes will be similar to the popular planes we see today, but with design enhancements like the X-66.

More efficient planes might not only mean lower fuel costs, for both airlines and the cost passed onto passengers. Aviation has an outsized role in emitting heat-trapping carbon into the atmosphere, as planes contribute two percent of total annual global carbon emissions — more than most nations in the world. "Someone flying from London to New York and back generates roughly the same level of emissions as the average person in the EU does by heating their home for a whole year," the European Commission notes. 

In the coming decades, the X-66 — or a craft like it — may ferry you across the country.