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1

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Influence of interplanetary trajectory selection on Mars atmospheric entry velocity (1993)

Powell, Richard W. ; Striepe, Scott A. ; Fowler, Wallace T. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: Many current manned Mars mission studies are using low lift-to-drag ratio (L/D) vehicles to aerobrake at both Mars and Earth. The use of these low L/D vehicles could limit the allowable velocity at the atmospheric interface. This paper will demonstrate that if entry velocity constraints are incorporated into the interplanetary analysis of aerobraking Mars missions, many opportunities can be achieved for a small increase in initial mass in low-Earth orbit (IMLEO). These opportunities result from varying the initial launch date and the encounter dates and possibly using a powered Venus swingby on either the inbound or outbound transfer. This paper demonstrates this technique by using three atmospheric entry velocity ranges at Mars arrival (6.0-8.5, 6.4-8.1, and 7.2-7.3 km/s), unconstrained Mars entry velocities, and an Earth return entry velocity below 14 km/s. The results indicate that, by carefully selecting the interplanetary trajectory, an optimum IMLEO mission can be found for even highly restrictive entry velocity missions in practically all of the 15 yr studied.

Keywords: ASTRODYNAMICS

Type: Journal of Spacecraft and Rockets (ISSN 0022-4650); 30; 4; p. 426-430.

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2

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Influence of interplanetary trajectory selection on Earth atmospheric entry velocity of Mars missions (1993)

Braun, Robert D. ; Powell, Richard W. ; Striepe, Scott A. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: Many current manned Mars mission studies are using low lift-to-drag ratio vehicles to aerobrake at both Mars and Earth. This paper will demonstrate that if entry velocity constraints are incorporated into the interplanetary analysis of aerobraking Mars missions, more opportunities can be achieved for only a small increase in initial mass in low-Earth orbit (IMLEO). These additional opportunities result from varying the initial launch date and the encounter dates and possibly using a powered Venus swingby on either the inbound or outbound transfer. This paper not only presents unconstrained entry velocity missions but also includes results for entry velocities below 12.5 and 14 km/s on Earth return and between 6.0-8.5 km/s at Mars arrival. The results indicate that, regardless of the Mars entry velocity range selected, an Earth entry velocity below 14 km/s is easily attainable for a minimal IMLEO increase. Although there are fewer 12.5 km/s Earth entry velocity missions possible, both Mars entry velocity constraint cases have over 50 percent of their missions requiring a negligible IMLEO increase.

Keywords: ASTRODYNAMICS

Type: Journal of Spacecraft and Rockets (ISSN 0022-4650); 30; 4; p. 420-425.

Format: text

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3

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Earth aerobraking strategies for manned return from Mars (1992)

Powell, Richard W. ; Braun, Robert D. ; Lyne, J. E.

In: Other Sources

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Publication Date: 2011-08-24

Keywords: ASTRODYNAMICS

Type: Journal of Spacecraft and Rockets (ISSN 0022-4650); 29; 3, Ma; 297-304

Format: text

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4

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Predictor-corrector guidance algorithm for use in high-energy aerobraking system studies (1992)

Powell, Richard W. ; Braun, Robert D.

In: Other Sources

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Publication Date: 2011-08-24

Keywords: ASTRODYNAMICS

Type: Journal of Guidance, Control, and Dynamics (ISSN 0731-5090); 15; 3, Ma; 672-678

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5

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Aerodynamic requirements of a manned Mars aerobraking transfer vehicle (1991)

Braun, Robert D. ; Powell, Richard W.

In: Other Sources

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Publication Date: 2011-08-19

Keywords: ASTRODYNAMICS

Type: Journal of Spacecraft and Rockets (ISSN 0022-4650); 28; 361-367

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6

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Interplanetary trajectory optimization of Mars aerobraking missions with constrained atmospheric entry velocities (1991)

Fowler, Wallace T. ; Braun, Robert D. ; Powell, Richard W. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Many current manned Mars mission studies are using low lift-to-drag ratio (L/D) vehicles to aerobrake at both Mars and earth. The use of these low L/D vehicles imposes constraints on the allowable velocity at the atmospheric interface. This paper will demonstrate that if these entry velocity constraints are incorporated into the interplanetary analysis, more opportunities can be achieved for a small increase in initial LEO mass. These additional opportunities result from varying the initial launch date, the encounter dates, and possibly using a powered Venus swingby on either the inbound or outbound transfer. This paper presents results for three atmospheric entry velocity ranges at Mars arrival and one velocity limitation upon Earth return. The results indicate that by carefully selecting the interplanetary trajectory, an optimum initial LEO mass mission can be found for even highly restrictive entry velocity missions in practically all of the 15 years studied.

Keywords: ASTRODYNAMICS

Type: AAS PAPER 91-421

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7

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Aspects of parking orbit selection in a manned Mars mission (1992)

Powell, Richard W. ; Braun, Robert D. ; Desai, Prasun N.

In: CASI

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Publication Date: 2019-06-28

Description: For any round-trip Mars mission, the selection of a parking orbit at Mars must consider the precession caused by the oblateness of the planet. This precession will affect the departure condition for Earth return and, therefore, the initial mass required in low Earth orbit (LEO). In this investigation, which considers precession effects, minimum initial LEO masses were obtained for parking orbits characterized by having near-equatorial inclinations, high eccentricities, and three-dimensional departure burns (i.e., a burn with an in-plane and an out-of-plane velocity increment component). However, because near-equatorial inclination orbits have poor planetary coverage characteristics, they are not desirable from a science viewpoint. To enhance the potential for satisfying science requirements along with landing site accessibility, a penalty in the initial LEO mass is required. This study shows that there are a set of orbits characterized by low to moderate essentricities (e = 0.2 to 0.5) and nonequatorial inclinations (i = 70 to 140 deg) that reduce this initial LEO mass penalty. Therefore, careful selection of a parking orbit at Mars can enhance the potential for satisfying science requirements with minimal mass penalties.

Keywords: ASTRODYNAMICS

Type: NASA-TP-3256 , L-17115 , NAS 1.60:3256

Format: application/pdf

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8

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A predictor-corrector guidance algorithm for use in high-energy aerobraking system studies (1991)

Powell, Richard W. ; Braun, Robert D.

In: Other Sources

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Publication Date: 2019-06-28

Description: A three-degree-of-freedom predictor-corrector guidance algorithm has been developed specifically for use in high-energy aerobraking performance evaluations. The present study reports on both the development and capabilities of this guidance algorithm to the design of manned Mars aero-braking vehicles. Atmospheric simulations are performed to demonstrate the applicability of this algorithm and to evaluate the effect of atmospheric uncertainties upon the mission requirements. The off-nominal conditions simulated result from atmospheric density and aerodynamic characteristic mispredictions. The guidance algorithm is also used to provide relief from the high deceleration levels typically encountered in a high-energy aerobraking mission profile. Through this analysis, bank-angle modulation is shown to be an effective means of providing deceleration relief. Furthermore, the capability of the guidance algorithm to manage off-nominal vehicle aerodynamic and atmospheric density variations is demonstrated.

Keywords: ASTRODYNAMICS

Type: AIAA PAPER 91-0058

Format: text

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9

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Earth aerobraking strategies for manned return from Mars (1991)

Braun, Robert D. ; Powell, Richard W. ; Lyne, J. E.

In: Other Sources

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Publication Date: 2019-06-28

Description: The atmospheric flight environment of manned return from Mars is evaluated by analyzing the earth-return entry corridor. To identify and quantify the effects of various atmospheric exit conditions on the mission, the differences beween the capture to a specific orbit and the direct entry to a target splashdown site are investigated. The differences are quantified in terms of the airbrake lift-drag ratio requirements, the stagnation-point heating, and the significance of off-nominal atmospheric conditions. Results are presented on three different earth-return aerobraking scenarios: (1) the capture into a phasing orbit with a 24-hr period, (2) the capture into a 500-km circular orbit, and (3) the direct entry to splashdown.

Keywords: ASTRODYNAMICS

Type: AIAA PAPER 91-2873

Format: text

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10

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Aerodynamic requirements of a manned Mars aerobraking transfer vehicle (1990)

Powell, Richard W. ; Braun, Robert D.

In: Other Sources

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Publication Date: 2019-07-13

Description: In this investigation, entry corridor analyses are performed to identify the aerodynamic requirements of a manned Mars aerobraking transfer vehicle. The major emphasis is on identifying the required aerobrake hypersonic L/D to insure a successful aerocapture. Aerobraking entry requirements are also imposed on a set of interplanetary mission opportunities to demonstrate their effect on mission flexibility. Based on the requirements of a 1 deg corridor width, deceleration into a parking orbit witn an apoapsis altitude of 32,972 km, and a 5-g deceleration limit, a manned Mars aerobrake characterized by an L/D of at least 1.5 is required for entry velocities as high as 10.0 km/sec. Limiting the Mars entry velocity to values below 8.5 km/sec is shown to induce a minor restriction on mission flexibility while alleviating aerothermodynamic and vehicle packaging concerns; hence, Mars entry velocities in the range of 6.0-8.5 km/sec are suggested, and a manned Mars aerobrake characterized by an L/D between 0.3 and 0.5 is recommended.

Keywords: ASTRODYNAMICS

Type: AIAA PAPER 90-2817 , AIAA Atmospheric Flight Mechanics Conference; Aug 20, 1990 - Aug 22, 1990; Portland, OR; United States

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