GE Aerospace And NASA Partnering On Flight Tests To Accelerate Industry's Understanding Of Contrails; Advances LiDAR Technology For Improved Contrail Analysis; Provides Insights For Development Of New Aircraft Engines
GE Aerospace And NASA Partnering On Flight Tests To Accelerate Industry's Understanding Of Contrails; Advances LiDAR Technology For Improved Contrail Analysis; Provides Insights For Development Of New Aircraft Engines
For GE Aerospace, this represents new operating methods for its 747 Flying Test Bed, expanding capabilities ahead of flight tests planned this decade to evaluate performance of new commercial engine technologies. Open Fan, advanced combustion designs, and other propulsion systems are being developed through CFM International's Revolutionary Innovation for Sustainable Engines (RISE)* program.- Advances LiDAR technology for improved contrail analysis
- Provides insights for development of new aircraft engines
- Industry actively collaborating to understand contrail science with aim to reduce emissions
- 先进的激光雷达概念用于改进航迹分析
- 为新飞机发动机的开发提供见解
- 行业板块积极合作以理解航迹科学,旨在减少排放
CINCINNATI, Nov. 15, 2024 /PRNewswire/ -- GE Aerospace (NYSE:GE) and NASA are partnering on a series of unique flight tests to help further the aviation industry's understanding of contrails, using new test methods and technologies.
辛辛那提,2024年11月15日 /PRNewswire/ -- GE航空(纽交所:GE)与NASA合作进行一系列独特的飞行测试,以进一步提升航空行业对航迹的理解,使用新的测试方法和科技。
Contrails are clouds made of ice particles, which can be created when airplanes fly through cold, humid air. Persistent contrails are estimated to have a warming climate impact. Flight tests will support industry research efforts to better understand contrail science and enable new technology development that can reduce non-CO2 emissions.
航迹是由冰粒组成的云,当飞机飞行穿过寒冷潮湿的空气时会形成。持久的航迹被估计具有温暖气候的影响。飞行测试将支持行业的研究努力,更好地理解航迹科学,并实现能够减少非二氧化碳排放的新科技开发。
Flights for the Contrail Optical Depth Experiment (CODEX) will be conducted the week of November 18 from Virginia. NASA Langley Research Center's G-III aircraft will follow GE Aerospace's Flying Test Bed in the sky and scan the aircraft wake with Light Detection and Ranging (LiDAR) technology. This will advance the use of LiDAR by NASA to generate three-dimensional imaging of contrails to better characterize how contrails form and how they behave over time.
航迹光学深度实验(CODEX)的飞行将于11月18日那周在弗吉尼亚进行。NASA兰利研究中心的G-III飞机将跟随GE航空的飞行测试平台,利用激光探测与测距(LiDAR)技术扫描飞机尾迹。这将推进NASA使用激光雷达生成航迹的三维成像,以更好地表征航迹的形成及其随时间的行为。
For GE Aerospace, this represents new operating methods for its 747 Flying Test Bed, expanding capabilities ahead of flight tests planned this decade to evaluate performance of new commercial engine technologies. Open Fan, advanced combustion designs, and other propulsion systems are being developed through CFM International's Revolutionary Innovation for Sustainable Engines (RISE)* program.
对于GE航空而言,这代表着其747飞行测试平台的新操作方法,扩展了能力,为本十年计划的飞行测试做好准备,以评估新商业发动机技术的性能。开放风扇、先进的燃烧设计以及通过CFm国际公司的可持续发动机革命性创新(RISE)*计划开发的其他推进系统。
