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Pendulum Motion in Main Parachute Clusters (2015)

Ray, Eric S. ; Machin, Ricardo A.

In: CASI

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Publication Date: 2019-07-13

Description: The coupled dynamics of a cluster of parachutes to a payload are notoriously difficult to predict. Often the payload is designed to be insensitive to the range of attitude and rates that might occur, but spacecraft generally do not have the mass and volume budgeted for this robust of a design. The National Aeronautics and Space Administration (NASA) Orion Capsule Parachute Assembly System (CPAS) implements a cluster of three mains for landing. During testing of the Engineering Development Unit (EDU) design, it was discovered that with a cluster of two mains (a fault tolerance required for human rating) the capsule coupled to the parachute cluster could get into a limit cycle pendulum motion which would exceed the spacecraft landing capability. This pendulum phenomenon could not be predicted with the existing models and simulations. A three phased effort has been undertaken to understand the consequence of the pendulum motion observed, and explore potential design changes that would mitigate this phenomenon. This paper will review the early analysis that was performed of the pendulum motion observed during EDU testing, summarize the analysis ongoing to understand the root cause of the pendulum phenomenon, and discuss the modeling and testing that is being pursued to identify design changes that would mitigate the risk.

Keywords: Spacecraft Design, Testing and Performance; Aerodynamics

Type: JSC-CN-33125 , AIAA Aerodynamic Decelerator System; Mar 30, 2015 - Apr 02, 2015; Daytona Beach, FL; United States

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Subscale Test Program for the Orion Conical Ribbon Drogue Parachute (2011)

Longmire, Ellen ; Sengupta, Anita ; Schwing, Allen ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: A subscale wind tunnel test program for Orion's conical ribbon drogue parachute is under development. The desired goals of the program are to quantify aerodynamic performance of the parachute in the wake of the entry vehicle, including understanding of the coupling of the parachute and command module dynamics, and an improved understanding of the load distribution within the textile elements of the parachute. The test program is ten percent of full scale conducted in a 3x2.1 m (10x7 ft) closed loop subsonic wind tunnel. The subscale test program is uniquely suited to probing the aerodynamic and structural environment in both a quantitative and qualitative manner. Non-intrusive diagnostics, including Particle Image Velocimetry for wake velocity surveys, high speed pressure transducers for canopy pressure distribution, and a high speed photogrammetric reconstruction, will be used to quantify the parachute's performance.

Keywords: Aircraft Design, Testing and Performance

Type: AIAA Aerodynamic Decelerator Systems Conference; May 23, 2011; Dublin; Ireland

Format: text

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Aerodynamic Decelerator System Design (2010)

Machin, Ricardo

In: CASI

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Publication Date: 2019-07-13

Description: No abstract available

Keywords: Aircraft Design, Testing and Performance

Type: JSC-CN-26439 , NASA/JAXA Collaborative DSMC Development; May 16, 2012 - May 17, 2012; Houston, TX; United States

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Orion Boiler Plate Airdrop Test System (2013)

Machin, Ricardo A. ; Evans, Carol T.

In: CASI

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Publication Date: 2019-07-13

Description: On the 29th of February 2012 the Orion Capsule Parachute Assembly System (CPAS) project attempted to perform an airdrop test of a boilerplate test article for the second time. The first attempt (Cluster Development Test 2, July 2008) to deliver a similar boilerplate from a C-17 using the Low Velocity Air Drop (LVAD) technique resulted in the programmer parachute failing to properly inflate, the test article failing to achieve the desired test initiation conditions, and the test article a total loss. This paper will pick up where the CDT-2 failure investigation left off, describing the test technique that was adopted, and outline the modeling that was performed to gain confidence that the second attempt would be successful. The second boiler plate test (Cluster Development Test 3-3) was indeed a complete success and has subsequently been repeated several times, allowing the CPAS project to proceed with the full scale system level development testing required to integrate the hardware to the first Entry Flight Test vehicle as well as go into the Critical Design Review with minimum risk and a mature design.

Keywords: Launch Vehicles and Launch Operations

Type: JSC-CN-27860 , 22nd AIAA Aerodynamic Decelerator Systems; Mar 25, 2013 - Mar 28, 2013; Daytona Beach, FL; United States

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Human Rating the Orion Parachute System (2011)

Machin, Ricardo A. ; Evans, Carol T. ; Fisher, Timothy E. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Human rating begins with design. Converging on the requirements and identifying the risks as early as possible in the design process is essential. Understanding of the interaction between the recovery system and the spacecraft will in large part dictate the achievable reliability of the final design. Component and complete system full-scale flight testing is critical to assure a realistic evaluation of the performance and reliability of the parachute system. However, because testing is so often difficult and expensive, comprehensive analysis of test results and correlation to accurate modeling completes the human rating process. The National Aeronautics and Space Administration (NASA) Orion program uses parachutes to stabilize and decelerate the Crew Exploration Vehicle (CEV) spacecraft during subsonic flight in order to deliver a safe water landing. This paper describes the approach that CEV Parachute Assembly System (CPAS) will take to human rate the parachute recovery system for the CEV.

Keywords: Space Transportation and Safety

Type: JSC-CN-22974 , 21st AIAA Aerodynamic Decelerator Systems Technology Conference and Seminar; May 23, 2011 - May 26, 2011; Dublin; Ireland

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Cluster Development Test 2: An Assessment of a Failed Test (2009)

Machin, Ricardo A. ; Evans, Carol T.

In: CASI

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Publication Date: 2019-07-13

Description: On 31 July 2008 the National Aeronautics and Space Administration Crew Exploration Vehicle Parachute Assembly System team conducted the final planned cluster test of the first generation parachute recovery system design. The two primary test objectives were to demonstrate the operation of the complete parachute system deployed from a full scale capsule simulator and to demonstrate the test technique of separating the capsule simulator from the Low Velocity Air Drop pallet used to extract the test article from a United States Air Force C-17 aircraft. The capsule simulator was the Parachute Test Vehicle with an accurate heat shield outer mold line and forward bay compartment of the Crew Exploration Vehicle Command Module. The Parachute Test Vehicle separated cleanly from the pallet following extraction, but failed to reach test conditions resulting in the failure of the test and the loss of the test assets. No personnel were injured. This paper will discuss the design of the test and the findings of the team that investigated the test, including a discussion of what were determined to be the root causes of the failure.

Keywords: Spacecraft Design, Testing and Performance

Type: JSC-17945 , 20th AIAA Aerodynamic Decelerator Systems; May 04, 2009 - May 07, 2009; Washington; United States

Format: application/pdf

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The Parachute System Recovery of the Orion Pad Abort Test 1 (2011)

Machin, Ricardo ; Evans, Carol ; Morris, Aaron ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The Orion Pad Abort Test 1 was conducted at the US Army White Sands Missile range in May 2010. The capsule was successfully recovered using the original design for the parachute recovery system, referred to as the CEV Parachute Assembly System (CPAS). The CPAS was designed to a set of requirements identified prior to the development of the PA-1 test; these requirements were not entirely consistent with the design of the PA-1 test. This presentation will describe the original CPAS design, how the system was modified to accommodate the PA-1 requirements, and what special analysis had to be performed to demonstrate positive margins for the CPAS. The presentation will also discuss the post test analysis and how it compares to the models that were used to design the system.

Keywords: Space Transportation and Safety

Type: JSC-CN-22494 , 49th AIAA Aerospace Sciences Meeting, Including the New Horizons Forum and Aerospace Exposition; Jan 04, 2011 - Jan 07, 2011; Orlando, FL; United States

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Low Velocity Airdrop Tests of an X-38 Backup Parachute Design (2007)

Machin, Ricardo A. ; Stein, Jenny M. ; Hillebrandt, F. David ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The NASA Johnson Space Center's X-38 program designed a new backup parachute system to recover the 25,000 lb X-38 prototype for the Crew Return Vehicle spacecraft. Due to weight and cost constraints, the main backup parachute design incorporated rapid and low cost fabrication techniques using off-the-shelf materials. Near the vent, the canopy was constructed of continuous ribbons, to provide more damage tolerance. The remainder of the canopy was a constructed with a continuous ringslot design. After cancellation of the X-38 program, the parachute design was resized, built, and drop tested for Natick Soldiers Center's Low Velocity Air Drop (LVAD) program to deliver cargo loads up to 22,000 lbs from altitudes as low as 500 feet above the ground. Drop tests results showed that the 500-foot LVAD parachute deployment conditions cause severe skirt inversion and inflation problems for large parachutes. The bag strip occurred at a high angle of attack, causing skirt inversion before the parachute could inflate. The addition of a short reefing line prevented the skirt inversion. Using a lower porosity in the vent area, than is normally used in large parachutes, improved inflation. The drop testing demonstrated that the parachute design could be refined to meet the requirements for the 500-foot LVAD mission.

Keywords: Aeronautics (General)

Type: 18th AIAA Aerodynamic Decelerator Systems Technology Conference; May 23, 2005 - May 26, 2005; Munich; Germany

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Developing the Parachute System for NASA's Orion: An Overview at Inception (2007)

Taylor, Anthony P. ; Machin, Ricardo ; Royall, Paul

In: CASI

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Publication Date: 2019-07-13

Description: As the Crew Exploration Vehicle (CEV) program developed, NASA decided to provide the parachute portion of the landing system as Government Furnished Equipment (GFE) and designated NASA Johnson Space Center (JSC) as the responsible NASA center based on JSC s past experience with the X-38 program. JSC subsequently chose to have the Engineering Support contractor Jacobs Sverdrup to manage the overall program development. After a detailed source selection process Jacobs chose Irvin Aerospace Inc (Irvin) to provide the parachutes and mortars for the CEV Parachute Assembly System (CPAS). Thus the CPAS development team, including JSC, Jacobs and Irvin has been formed. While development flight testing will have just begun at the time this paper is submitted, a number of significant design decisions relative to the architecture for the manned spacecraft will have been completed. This paper will present an overview of the approach CPAS is taking to providing the parachute system for CEV, including: system requirements, the preliminary design solution, and the planned/completed flight testing.

Keywords: Spacecraft Design, Testing and Performance

Type: 19th AIAA Aerodynamic Decelerator Systems; May 21, 2007 - May 24, 2007; Williamsburg, VA; United States

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Design and Testing of the X-38 Spacecraft Primary Parafoil (2000)

Machin, Ricardo A.

In: Other Sources

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Publication Date: 2019-07-10

Description: In August of 1995 the NASA began testing large ram-air parafoils for potential use in the landing phase of spacecraft recovery. This effort eventually became a part of the X-38 project, a technology demonstrator for the International Space Station Emergency Crew Return Vehicle. This paper traces how the original parafoil, used in the U.S. Army Graded Precision Air Delivery System (GPADS), was modified to improve the initial deployment dynamics. A discussion of how test experience with 750 sq ft parafoils has been used to scale up to the full-scale 5500 sq ft and 7500 sq ft parafoils is presented. In particular, the development of two techniques that have greatly improved the repeatability of the parafoil initial deployment and decreased the first stage deployment dynamics are discussed: a first stage upper surface energy modulator and floor vents. Comparisons of trends and results from the various scale parachutes are presented as well as constraints that at times have driven the direction that the design has taken.

Keywords: Space Transportation and Safety

Type: AIAA Paper 2000-4312 , JSC-CN-6377

Format: text

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