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BANTAM (1999)

Klem, Mark

In: CASI

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Publication Date: 2004-12-03

Description: The goals of BANTAM (low Cost Booster Technology Program) are to: 1) Reduce the payload cost to orbit by an order of magnitude, from $10,000 to $1,000 per pound, within 10 years and by an additional order of magnitude, from thousands to hundreds of dollars per pound, within 25 years. In-Space, achieve with 15 years, a factor of ten reduction in the cost of Earth orbital transportation, and a factor of two to three reduction in propulsion system mass and travel time required for planetary missions. Within 25 years, enable bold new missions to the edge of the solar system and beyond by reducing travel times by one to two orders-of magnitude.

Keywords: Space Transportation and Safety

Type: 1998 NASA Seal/Secondary Air System Workshop; Volume 1; 381-395; NASA/CP-1999-208916/VOL1

Format: text

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Effect of model selection on combustor performance and stability using ROCCID (1992)

Giuliani, James E. ; Klem, Mark D.

In: Other Sources

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Publication Date: 2019-06-28

Description: The ROCket Combustor Interactive Design (ROCCID) methodology is an interactive computer program that combines previously developed combustion analysis models to calculate the combustion performance and stability of liquid rocket engines. Test data from a 213 kN (48,000 lbf) Liquid Oxygen (LOX)/RP-1 combustor with a O-F-O (oxidizer-fuel-oxidizer) triplet injector were used to characterize the predictive capabilities of the ROCCID analysis models for this injector/propellant configuration. Thirteen combustion performance and stability models have been incorporated into ROCCID, and ten of them, which have options for triplet injectors, were examined in this study. Calculations using different combinations of analysis models, with little or no anchoring, were carried out on a test matrix of operating conditions matching those of the test program. Results of the computer analyses were compared to test data, and the ability of the model combinations to correctly predict combustion stability or instability was determined. For the best model combination(s), sensitivity of the calculations to fuel drop size and mixing efficiency was examined. Error in the stability calculations due to uncertainty in the pressure interaction index (N) was examined. The recommended model combinations for this O-F-O triplet LOX/RP-1 configuration are proposed.

Keywords: SPACECRAFT PROPULSION AND POWER

Type: AIAA PAPER 92-3226

Format: text

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A comparison of analytical results for 20 K LOX/hydrogen instabilities (1990)

Klem, Mark D. ; Breisacher, Kevin J.

In: Other Sources

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Publication Date: 2019-06-28

Description: Test data from NASA Lewis' Effect of Thrust Per Element on Combustion Stability Characteristics of Hydrogen-Oxygen Rocket Engines test program are used to validate two recently released stability analysis tools. The first tool is a design methodology called ROCCID (ROCket Combustor Interactive Design). ROCCID is an interactive design and analysis methodology that uses existing performance and combustion stability analysis codes. The second tool is HICCIP (High frequency Injection Coupled Combustion Instability Program). HICCIP is a recently developed combustion stability analysis model. Using a matrix of models, results from analytic comparisons with 20 K LOX/H2 experimental data are presented.

Keywords: PROPELLANTS AND FUELS

Type: AIAA PAPER 90-2241

Format: text

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IHPRPT Steering Committee Meeting - NASA Spacecraft Propulsion Update (2013)

Jankovsky, Robert ; Jacobson, David ; Klem, Mark D. ; [et al.]

In: CASI

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Publication Date: 2019-07-27

Description: The activities and status of NASA Spacecraft Propulsion is presented including recent accomplishments.

Keywords: Spacecraft Propulsion and Power

Type: GRC-E-DAA-TN11245 , IHPRPT Steering Committee Meeting; 18 Sept. 2013; Edwards Air Force Base, California; United States

Format: application/pdf

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A Successful Infusion Process for Enabling Lunar Exploration Technologies (2008)

Klem, Mark K. ; Over, Ann P. ; Motil, Susan M.

In: CASI

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Publication Date: 2019-07-27

Description: The NASA Vision for Space Exploration begins with a more reliable flight capability to the International Space Station and ends with sending humans to Mars. An important stepping stone on the path to Mars encompasses human missions to the Moon. There is little doubt throughout the stakeholder community that new technologies will be required to enable this Vision. However, there are many factors that influence the ability to successfully infuse any technology including the technical risk, requirement and development schedule maturity, and, funds available. This paper focuses on effective infusion processes that have been used recently for the technologies in development for the lunar exploration flight program, Constellation. Recent successes with Constellation customers are highlighted for the Exploration Technology Development Program (ETDP) Projects managed by NASA Glenn Research Center (GRC). Following an overview of the technical context of both the flight program and the technology capability mapping, the process is described for how to effectively build an integrated technology infusion plan. The process starts with a sound risk development plan and is completed with an integrated project plan, including content, schedule and cost. In reality, the available resources for this development are going to change over time, necessitating some level of iteration in the planning. However, the driving process is based on the initial risk assessment, which changes only when the overall architecture changes, enabling some level of stability in the process.

Keywords: Lunar and Planetary Science and Exploration

Type: NASA/TM-2008-215045 , AIAA Paper 2007-6196 , E-16228 , AIAA Space 2007 Conference and Exposition; 18-20 Sept. 2007; Long Beach, CA; United States

Format: application/pdf

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Combustor design and analysis using the ROCket Combustor Interactive Design (ROCCID) Methodology (1990)

Pieper, Jerry L. ; Walker, Richard E. ; Klem, Mark D.

In: Other Sources

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Publication Date: 2019-06-28

Description: The ROCket Combustor Interactive Design (ROCCID) Methodology is a newly developed, interactive computer code for the design and analysis of a liquid propellant rocket combustion chamber. The application of ROCCID to design a liquid rocket combustion chamber is illustrated. Designs for a 50,000 lbf thrust and 1250 psi chamber pressure combustor using liquid oxygen (LOX)RP-1 propellants are developed and evaluated. Tradeoffs between key design parameters affecting combustor performance and stability are examined. Predicted performance and combustion stability margin for these designs are provided as a function of the combustor operating mixture ratio and chamber pressure.

Keywords: SPACECRAFT PROPULSION AND POWER

Type: AIAA PAPER 90-2240

Format: text

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Program For Analyzing Designs Of Liquid-Propellant Rockets (1995)

Giuliani, James E. ; Walker, Dick ; Nguyen, Thong V. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: Rocket Combustor Interactive Design Computer Methodology (ROCCID) computer program provides standardized methodology, using state-of-art codes and procedures, for analysis of combustion performance and stability of liquid-propellant rocket engine. Provides combustion analyst with software tool to analyze existing combustor design (point-analysis option), or design high-performance, stable combustor, given set of input design requirements (point-design option). Written in ANSI FORTRAN 77 and VAX FORTRAN.

Keywords: MECHANICS

Type: LEW-15114 , NASA Tech Briefs (ISSN 0145-319X); 19; 1; P. 76

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International Space Exploration Coordination Group Assessment of Technology Gaps for LOx/Methane Propulsion Systems for the Global Exploration Roadmap (2016)

Hurlbert, Eric A. ; Caruana, Jean-Noel ; Ruault, Jean-Marc ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: As part of the Global Exploration Roadmap (GER), the International Space Exploration Coordination Group (ISECG) formed two technology gap assessment teams to evaluate topic discipline areas that had not been worked at an international level to date. The participating agencies were ASI, CNES, DLR, ESA, JAXA, and NASA. Accordingly, the ISECG Technology Working Group (TWG) recommended two discipline areas based on Critical Technology Needs reflected within the GER Technology Development Map (GTDM): Dust Mitigation and LOX/Methane Propulsion. LOx/Methane propulsion systems are enabling for future human missions Mars by significantly reducing the landed mass of the Mars ascent stage through the use of in-situ propellant production, for improving common fluids for life support, power and propulion thus allowing for diverse redundancy, for eliminating the corrosive and toxic propellants thereby improving surface operations and resusabilty, and for inceasing the performance of propulsion systems. The goals and objectives of the international team are to determine the gaps in technology that must be closed for LOx/Methane to be used in human exploration missions in cis-lunar, lunar, and Mars mission applications. An emphasis is placed on near term lunar lander applications with extensibility to Mars. Each agency provided a status of the substantial amount of Lox/Methane propulsion system development to date and their inputs on the gaps in the technology that are remaining. The gaps, which are now opportunities for collaboration, are then discussed.

Keywords: Propellants and Fuels

Type: JSC-CN-35694 , AIAA Space 2016; Sep 13, 2016 - Sep 16, 2016; Long Beach, CA; United States

Format: application/pdf

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Foundational Methane Propulsion Related Technology Efforts, and Challenges for Applications to Human Exploration Beyond Earth Orbit (2016)

Klem, Mark ; Brown, Thomas ; McRight, Patrick

In: CASI

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Publication Date: 2019-07-13

Description: No abstract available

Keywords: Propellants and Fuels

Type: M16-5228 , Space Propulsion 2016; May 02, 2016 - May 06, 2016; Rome; Italy

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Foundational Methane Propulsion Related Technology Efforts, and Challenges for Applications to Human Exploration Beyond Earth Orbit (2016)

McRight, Patrick ; Brown, Thomas ; Klem, Mark

In: CASI

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Publication Date: 2019-07-13

Description: Current interest in human exploration beyond earth orbit is driving requirements for high performance, long duration space transportation capabilities. Continued advancement in photovoltaic power systems and investments in high performance electric propulsion promise to enable solar electric options for cargo delivery and pre-deployment of operational architecture elements. However, higher thrust options are required for human in-space transportation as well as planetary descent and ascent functions. While high thrust requirements for interplanetary transportation may be provided by chemical or nuclear thermal propulsion systems, planetary descent and ascent systems are limited to chemical solutions due to their higher thrust to weight and potential planetary protection concerns. Liquid hydrogen fueled systems provide high specific impulse, but pose challenges due to low propellant density and the thermal issues of long term propellant storage. Liquid methane fueled propulsion is a promising compromise with lower specific impulse, higher bulk propellant density and compatibility with proposed in-situ propellant production concepts. Additionally, some architecture studies have identified the potential for commonality between interplanetary and descent/ascent propulsion solutions using liquid methane (LCH4) and liquid oxygen (LOX) propellants. These commonalities may lead to reduced overall development costs and more affordable exploration architectures. With this increased interest, it is critical to understand the current state of LOX/LCH4 propulsion technology and the remaining challenges to its application to beyond earth orbit human exploration. This paper provides a survey of NASA's past and current methane propulsion related technology efforts, assesses the accomplishments to date, and examines the remaining risks associated with full scale development.

Keywords: Propellants and Fuels

Type: M16-5248 , Space Propulsion 2016; May 02, 2016 - May 06, 2016; Rome; Italy

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