NASA, Boeing to develop most powerful rocket for Mars

0
327

July 4, 2014

NASA and Boeing have inked a $2.8 billion deal to develop a giant rocket which is set to be the largest and most powerful ever built, paving the way for manned missions to Mars.

July 4, 2014

NASA and Boeing have inked a $2.8 billion deal to develop a giant rocket which is set to be the largest and most powerful ever built, paving the way for manned missions to Mars.

This file image provided by NASA's Hubble Space Telescope shows a close-up of the red planet Mars when it was closest to the Hubble Space Telescope — just 55 million miles (88 million kilometres) away taken with Hubble's Wide Field and Planetary Camera 2.

Boeing has finalized a contract with NASA to develop the core stage of the Space Launch System (SLS), the most powerful rocket ever built.

In addition, Boeing has been tasked to study the SLS Exploration Upper Stage, which will further expand mission range and payload capabilities.

The agreement comes as NASA and the Boeing team complete the Critical Design Review (CDR) on the core stage — the last major review before full production begins.

“Our teams have dedicated themselves to ensuring that the SLS — the largest ever — will be built safely, affordably and on time,” Virginia Barnes, Boeing SLS vice president and programme manager said in a statement.

“We are passionate about NASA’s mission to explore deep space. It’s a very personal mission, as well as a national mandate,” said Ms. Barnes.

During the CDR, which began last month, experts examined and confirmed the final design of the rocket’s cryogenic stages that will hold liquefied hydrogen and oxygen.

This milestone marks NASA’s first CDR on a deep-space human exploration launch vehicle since 1961, when the Saturn V rocket underwent a similar design review as the U.S. sought to land an astronaut on the Moon.

Scheduled for its initial test flight in 2017, the SLS is designed to be flexible and evolvable to meet a variety of crew and cargo mission needs.

The initial flight-test configuration will provide a 77-tonne capacity, and the final evolved two-stage configuration will provide a lift capability of more than 143 tonnes.


Courtesy: PTI