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4 ways Columbia could have been saved. From NASA's Kennedy Space Center Home Page
NASA's Kennedy Space Center Home Page ^ | 04 February 03 | Mitchel Tighe

Posted on 02/04/2003 9:40:32 PM PST by Mitchel Tighe

I have been pulling my hair out watching both the NASA press conferences and also the stupid reporters questions after the absolute tragedy of the Columbia disaster. They all say there was no way to save the ship... That is Nonsense!!

Remember the Challenger disaster where the launch control director was yelling RTLS RTLS after the explosion at 83 seconds? RTLS stands for Return To Launch Site. If 83 seconds was good enough for Challenger. Why wasn't 80 (or more) seconds good enough for Columbia?

If I can find this, then people at NASA know this. Husband and McCool could have easily executed any of these.

There are 4 types of launch aborts that could have saved Columbia. Here is the URL, scroll about half way down.

http://science.ksc.nasa.gov/shuttle/technology/sts-newsref/mission_profile.html

Look under ABORTS and you will see the following:

ABORTS Selection of an ascent abort mode may become necessary if there is a failure that affects vehicle performance, such as the failure of a space shuttle main engine or an orbital maneuvering system. Other failures requiring early termination of a flight, such as a cabin leak, might require the selection of an abort mode. There are two basic types of ascent abort modes for space shuttle missions: intact aborts and contingency aborts. Intact aborts are designed to provide a safe return of the orbiter to a planned landing site. Contingency aborts are designed to permit flight crew survival following more severe failures when an intact abort is not possible. A contingency abort would generally result in a ditch operation.

There are four types of intact aborts: abort to orbit, abort once around, transatlantic landing and return to launch site.

The ATO mode is designed to allow the vehicle to achieve a temporary orbit that is lower than the nominal orbit. This mode requires less performance and allows time to evaluate problems and then choose either an early deorbit maneuver or an orbital maneuvering system thrusting maneuver to raise the orbit and continue the mission.

The AOA is designed to allow the vehicle to fly once around the Earth and make a normal entry and landing. This mode generally involves two orbital maneuvering system thrusting sequences, with the second sequence being a deorbit maneuver. The entry sequence would be similar to a normal entry.

The TAL mode is designed to permit an intact landing on the other side of the Atlantic Ocean. This mode results in a ballistic trajectory, which does not require an orbital maneuvering system maneuver.

The RTLS mode involves flying downrange to dissipate propellant and then turning around under power to return directly to a landing at or near the launch site.

There is a definite order of preference for the various abort modes. The type of failure and the time of the failure determine which type of abort is selected. In cases where performance loss is the only factor, the preferred modes would be ATO, AOA, TAL and RTLS, in that order. The mode chosen is the highest one that can be completed with the remaining vehicle performance. In the case of some support system failures, such as cabin leaks or vehicle cooling problems, the preferred mode might be the one that will end the mission most quickly. In these cases, TAL or RTLS might be preferable to AOA or ATO. A contingency abort is never chosen if another abort option exists.

The Mission Control Center-Houston is prime for calling these aborts because it has a more precise knowledge of the orbiter's position than the crew can obtain from onboard systems. Before main engine cutoff, Mission Control makes periodic calls to the crew to tell them which abort mode is (or is not) available. If ground communications are lost, the flight crew has onboard methods, such as cue cards, dedicated displays and display information, to determine the current abort region.

Which abort mode is selected depends on the cause and timing of the failure causing the abort and which mode is safest or improves mission success. If the problem is a space shuttle main engine failure, the flight crew and Mission Control Center select the best option available at the time a space shuttle main engine fails.

If the problem is a system failure that jeopardizes the vehicle, the fastest abort mode that results in the earliest vehicle landing is chosen. RTLS and TAL are the quickest options (35 minutes), whereas an AOA requires approximately 90 minutes. Which of these is selected depends on the time of the failure with three good space shuttle main engines.

The flight crew selects the abort mode by positioning an abort mode switch and depressing an abort push button.

RETURN TO LAUNCH SITE OVERVIEW The RTLS abort mode is designed to allow the return of the orbiter, crew, and payload to the launch site, Kennedy Space Center. approximately 25 minutes after lift-off. The RTLS profile is designed to accommodate the loss of thrust from one space shuttle main engine between lift-off and approximately four minutes 20 seconds, at which time not enough main propulsion system propellant remains to return to the launch site. An RTLS can be considered to consist of three stages-a powered stage, during which the space shuttle main engines are still thrusting; an ET separation phase; and the glide phase, during which the orbiter glides to a landing at the Kennedy Space Center. The powered RTLS phase begins with the crew selection of the RTLS abort, which is done after solid rocket booster separation. The crew selects the abort mode by positioning the abort rotary switch to RTLS and depressing the abort push button. The time at which the RTLS is selected depends on the reason for the abort. For example, a three-engine RTLS is selected at the last moment, approximately three minutes 34 seconds into the mission; whereas an RTLS chosen due to an engine out at lift-off is selected at the earliest time, approximately two minutes 20 seconds into the mission (after solid rocket booster separation).

After RTLS is selected, the vehicle continues downrange to dissipate excess main propulsion system propellant. The goal is to leave only enough main propulsion system propellant to be able to turn the vehicle around, fly back towards the Kennedy Space Center.and achieve the proper main engine cutoff conditions so the vehicle can glide to the Kennedy Space Center.after external tank separation. During the downrange phase, a pitch-around maneuver is initiated (the time depends in part on the time of a space shuttle main engine failure) to orient the orbiter/external tank configuration to a heads up attitude, pointing toward the launch site. At this time, the vehicle is still moving away from the launch site, but the space shuttle main engines are now thrusting to null the downrange velocity. In addition, excess orbital maneuvering system and reaction control system propellants are dumped by continuous orbital maneuvering system and reaction control system engine thrustings to improve the orbiter weight and center of gravity for the glide phase and landing.

The vehicle will reach the desired main engine cutoff point with less than 2 percent excess propellant remaining in the external tank. At main engine cutoff minus 20 seconds, a pitch-down maneuver (called powered pitch-down) takes the mated vehicle to the required external tank separation attitude and pitch rate. After main engine cutoff has been commanded, the external tank separation sequence begins, including a reaction control system translation that ensures that the orbiter does not recontact the external tank and that the orbiter has achieved the necessary pitch attitude to begin the glide phase of the RTLS.

After the reaction control system translation maneuver has been completed, the glide phase of the RTLS begins. From then on, the RTLS is handled similarly to a normal entry.

TRANSATLANTIC LANDING ABORT OVERVIEW The TAL abort mode was developed to improve the options available when a space shuttle main engine fails after the last RTLS opportunity but before the first time that an AOA can be accomplished with only two space shuttle main engines or when a major orbiter system failure, for example, a large cabin pressure leak or cooling system failure, occurs after the last RTLS opportunity, making it imperative to land as quickly as possible.

In a TAL abort, the vehicle continues on a ballistic trajectory across the Atlantic Ocean to land at a predetermined runway. Landing occurs approximately 45 minutes after launch. The landing site is selected near the nominal ascent ground track of the orbiter in order to make the most efficient use of space shuttle main engine propellant. The landing site also must have the necessary runway length, weather conditions and U.S. State Department approval. Currently, the three landing sites that have been identified for a due east launch are Moron,, Spain; Dakar, Senegal; and Ben Guerur, Morocco (on the west coast of Africa).

To select the TAL abort mode, the crew must place the abort rotary switch in the TAL/AOA position and depress the abort push button before main engine cutoff. (Depressing it after main engine cutoff selects the AOA abort mode.) The TAL abort mode begins sending commands to steer the vehicle toward the plane of the landing site. It also rolls the vehicle heads up before main engine cutoff and sends commands to begin an orbital maneuvering system propellant dump (by burning the propellants through the orbital maneuvering system engines and the reaction control system engines). This dump is necessary to increase vehicle performance (by decreasing weight), to place the center of gravity in the proper place for vehicle control, and to decrease the vehicle's landing weight.

TAL is handled like a nominal entry.

ABORT TO ORBIT OVERVIEW An ATO is an abort mode used to boost the orbiter to a safe orbital altitude when performance has been lost and it is impossible to reach the planned orbital altitude. If a space shuttle main engine fails in a region that results in a main engine cutoff under speed, the Mission Control Center will determine that an abort mode is necessary and will inform the crew. The orbital maneuvering system engines would be used to place the orbiter in a circular orbit.

ABORT ONCE AROUND OVERVIEW The AOA abort mode is used in cases in which vehicle performance has been lost to such an extent that either it is impossible to achieve a viable orbit or not enough orbital maneuvering system propellant is available to accomplish the orbital maneuvering system thrusting maneuver to place the orbiter on orbit and the deorbit thrusting maneuver. In addition, an AOA is used in cases in which a major systems problem (cabin leak, loss of cooling) makes it necessary to land quickly. In the AOA abort mode, one orbital maneuvering system thrusting sequence is made to adjust the post-main engine cutoff orbit so a second orbital maneuvering system thrusting sequence will result in the vehicle deorbiting and landing at the AOA landing site (White Sands, N.M.; Edwards Air Force Base; or the Kennedy Space Center.. Thus, an AOA results in the orbiter circling the Earth once and landing approximately 90 minutes after lift-off. After the deorbit thrusting sequence has been executed, the flight crew flies to a landing at the planned site much as it would for a nominal entry.


TOPICS: News/Current Events
KEYWORDS: aoa; ato; challenger; columbia; nasa; rtls; tal
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To: Mitchel Tighe
Mitchel Tighe,Who are you?
21 posted on 02/04/2003 10:01:48 PM PST by fatima
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To: Tennessee_Bob
No Tennesse, I'm not name calling, and it is not my first time here... My old PW under the diminuative of my name, as I logged in prior didn't work.

May I ask where your quote came from?

And I'm no conspiracy theorist. If the Scientists at NASA can explain away this, that would be ok. I'm just curious.

And your one day later quote may be right
22 posted on 02/04/2003 10:02:01 PM PST by Mitchel Tighe
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To: Mitchel Tighe
NASA has repeatedly said they did not see the foam falling off until the taping of the liftoff was reviewed.... well AFTER Columbia was in orbit. Nothing could have been done at that point...unless the bottom of the shuttle was inspected--which for the shuttle crews is impossible, they could not have known of the suspected damage.

Even if damage had been seen from ground telescopes, it was irrepairable up there; the shuttle and crew had no choice but to come back down--as they'd of run out of air before anything could of possibly gotten to them, and the space station was impossible to reach--at a much higher orbit.

Everything appears now like God had better things for them to do other than in this world....

23 posted on 02/04/2003 10:02:04 PM PST by AnalogReigns
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To: Brett66
docking collars anyone?

oops we left ours on the ground and filled the shuttle bay with experiment modules.

snooker
24 posted on 02/04/2003 10:02:11 PM PST by snooker
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To: deport

25 posted on 02/04/2003 10:02:31 PM PST by Howlin
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To: Mitchel Tighe
They DIDN'T look at the tape of the lift off until the NEXT day...it was way too late. Had they seen this as it happened, they could have landed at one of their emergency sites.
26 posted on 02/04/2003 10:03:36 PM PST by Jewels1091
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To: Howlin
I bet this new guy snaps before 200 posts? Wager anyone??? ;0)
27 posted on 02/04/2003 10:03:39 PM PST by Chad Fairbanks ('I WISH, at some point, that you would address those damned armadillos in your trousers." - JustShe)
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To: All
They just recently tested a shuttle cam that rides on the external tank and gives video all the way to orbit. Why not position a couple of these cams closer to the wing areas on future flights? This would give them a much better chance of seeing potential problems on the way to orbit. It could've been beneficial in this instance.
28 posted on 02/04/2003 10:04:04 PM PST by Brett66
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To: fatima
Who, who, who, who?
Who are you?
Who, who, who, who?
Who are you?
Who, who, who, who?
Who are you?
Who, who, who, who?
29 posted on 02/04/2003 10:04:07 PM PST by Tennessee_Bob (I woke up in a Soho doorway, a policeman knew my name, He said "You can go sleep at home tonight...")
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To: Tennessee_Bob
You thinking retread????
30 posted on 02/04/2003 10:04:43 PM PST by Chad Fairbanks ('I WISH, at some point, that you would address those damned armadillos in your trousers." - JustShe)
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To: Mitchel Tighe
Welcome to FreeRepublic. : )
31 posted on 02/04/2003 10:04:44 PM PST by Fpimentel
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To: M. Thatcher
Nope Margaret, MPA...regrets

If all of you are ok with the "review next day, then that is ok by me. I hope that is the case and that the brave 7 did not die in vain.
32 posted on 02/04/2003 10:04:44 PM PST by Mitchel Tighe
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To: snooker
They would have to go eva to get the supplies. I'm not thinking of conventional solutions here, I'm thinking of something that would be attempted in desperation.
33 posted on 02/04/2003 10:05:52 PM PST by Brett66
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To: Mitchel Tighe
http://www.msnbc.com/news/867926.asp?0sl=-10

34 posted on 02/04/2003 10:07:12 PM PST by Tennessee_Bob (I woke up in a Soho doorway, a policeman knew my name, He said "You can go sleep at home tonight...")
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To: Mitchel Tighe
and it is not my first time here

Who were you?

35 posted on 02/04/2003 10:07:15 PM PST by Howlin
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To: Howlin; Chad Fairbanks
who who who who...

Oh, wait, did that one already.
36 posted on 02/04/2003 10:08:16 PM PST by Tennessee_Bob (I woke up in a Soho doorway, a policeman knew my name, He said "You can go sleep at home tonight...")
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To: Mitchel Tighe
You ask a good question. Go with the flow, dude.
37 posted on 02/04/2003 10:08:24 PM PST by Fred Mertz
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To: Mitchel Tighe
I have read a post from one Freeper, a former NASA executive, suggesting that one problem may have been the heavy weight of the Columbia vehicle. Columbia, being the oldest shuttle, was considerably heavier than newer shuttles. The post stated that heavy re-entry weight would tend to create more stress and heat upon re-entry. If this is true, and if NASA knew that the vehicle sustained damage which would make re-entry more dangerous, might the situation have been improved if the crew were instructed to toss out all unessential items, such as experiments, unneeded equipment, everything in the cargo bay, etc., before initiating re-entry, in order to reduce vehicle weight and stress?
38 posted on 02/04/2003 10:08:57 PM PST by nvskibum (curious...)
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To: Chad Fairbanks
Hmmm....don't know...at this point...could be
39 posted on 02/04/2003 10:09:21 PM PST by Tennessee_Bob (Suppose they're not armadillos, but possums?)
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Comment #40 Removed by Moderator


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