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s HMM Assessment Study Report: CDF-20(A) February 2004 page 412 of 422 [RD14] Regenerative Solid Oxide Fuel Cell for Mars Applications S. Fasoulas, M. Kuznecov, P. Otschik, T. Schmiel, December 2002, Institute for Aerospace Engineering, Fraunhofer Institute for Ceramic Technologies and Sintered Materials, Dresden, Germany, ILR-RSN02P05 [RD15] Regenerative Solid Oxide Fuel Cells for Mars Exploration K.R. Sridhar (University of Arizona), R. Foerstner (Universität Stuttgart), Journal of Propulsion and Power, Vol.16, No. 6, Nov-Dec 2000 [RD16] Mars In Situ Oxygen Production, 18-9065 Danny M. Deffenbaugh, Michael A. Miller, Steven T. Green, 1998, Southwest Research Institute [RD17] In Situ Production of Fuel and Oxidant for a small solid Oxide Fuel Cell on Mars, T. Pipoli (Graz University of Technology), J.O. Besenhard (Graz University of Technology), M. Schautz (ESA) [RD18] Non-Nuclear Energy Storage Systems For Various Applications on Mars or other Planetary Missions Max. Schautz, 6th March 2001, ESA [RD19] Polar Platform: Solar Array: Solar Array Mass Status Report 22nd February 1999, FOKKER Space, PPF-FO-SA-TN-206, Issue 11 [RD20] The Columbus Solar Array Mechanisms R. Zwanenburg, Fokker Space & Systems, 5th European Space Mechanisms and Tribology Symposium, ESTEC, Noordwijk, 28-30 October 1992 [RD21] The Qualification Test Programme of the Envisat Solar Array Mechanism, R. Zwanenburg, Fokker Space & Systems, 6th European Space Mechanisms and Tribology Symposium, Zurich, 4-6 October 1995 [RD22] The Corrugated thin film solar cell design R. Zwanenburg, Dutch Space, Thin Film Solar Arrays Workshop, 27-28 Feb 2003, ESA, Noordwijk [RD23] Flywheels Ready To Fly Spacedaily, 10 April 2000 [RD24] Aerospace Flywheel Development Technical Details Power & Propulsion Office, NASA Glenn Research Centre, http://spacepower.grc.nasa.gov/ppo/projects/flywheel/techdet.html [RD25] IEEE Spectrum Avril 2002: Flywheel Batteries Come Around Again R. Hebner & J. Beno (University of Texas), A. Walls (Science Applications International Corp.)

s [RD26] IES2, Phase A0: Final Report: New Power System Concept for Future High Power Satellites ETCA, 19th August 2003, IES2-ETCA-TN-0001 HMM Assessment Study Report: CDF-20(A) February 2004 page 413 of 422 [RD27] Thin-Film And Crystalline Solar Cell Array System Performance Comparisons D.M. Murphy, M.I. Eskenazi, S.F. White, B.R. Spence, AEC-Able Engineering, Goleta (CA) [RD28] IBM SOI PowerPC http://www-306.ibm.com/chips/news/2004/0213_powerpc.html [RD29] Some words on Ferromagnetic RAM (FRAM) technology http://www.ramtron.com/products/appnotes/FRAMTechBackgrndr_0202.pdf [RD30] IEEE 1451 and related websites: http://ieee1451.nist.gov [RD31] 1-Wire: Maxim/Dallas Semiconductor (http://www.maxim-ic.com/1-Wire.cfm) [RD32] ESA Wireless On-board Spacecraft Web Site : http://www.wireless.esa.int/ [RD33] IEEE 1451 and related websites: http://ieee1451.nist.gov [RD34] HICDS System Requirements, P-HICDS-SPC-00001-SE, issue 7, 31/3/2002 [RD35] PSAs (once) developed by NASA-AMES http://amesnews.arc.nasa.gov/releases/1999/99_53AR.html [RD36] PCI express http://www.pcisig.com/specifications/pciexpress [RD37] CCSDS File Delivery Protocol (CFDP). Recommendation for Space Data System Standards, CCSDS 727.0-B-1. Blue Book. Issue 1. Washington, D.C.: CCSDS, January 2002. [RD38] Packet Telemetry Service Specification. Recommendation for Space Data System Standards, CCSDS 103.0-B-2. Blue Book. Issue 2. Washington, D.C.: CCSDS, June 2001. [RD39] Telecommand Part 2 – Data Routing Service. Recommendation for Space Data System Standards, CCSDS 202.0-B-3. Blue Book. Issue 3. Washington, D.C.: CCSDS, June 2001. [RD40] CCSDS homepage http://www.ccsds.org [RD41] Interplanetary Internet http://www.ipnsig.org [RD42] Wireless in space http://www.wireless.esa.int [RD43] Communications with Mars during periods of solar conjunction: initial study results. JPL- NASA IPN Progress Report 42-147. D. Morabito and R. Hastrup. [RD44] The Cassini may 2000 Solar Conjunction. David Morabito, Shervin Shervin Shambayati, Susan Finley and David Fort. IEEE transactions On antennas and propagation. Vol. 51, No 2, February 2003.

Page 1 and 2: s HMM Assessment Study Report: CDF-

Page 3 and 4: s STUDY TEAM HMM Assessment Study R

Page 5 and 6: s T A B L E O F C O N T E N T S HMM


Page 9 and 10: s L I S T O F F I G U R E S HMM Ass



Page 15 and 16: s L I S T O F T A B L E S HMM Asses


Page 19 and 20: s 1 INTRODUCTION 1.1 Background HMM

Page 21 and 22: s 2 GENERAL ARCHITECTURE 2.1 Study


Page 25 and 26: s 2.2.4.2 Accelerations HMM Assessm

Page 27 and 28: s 2.2.4.4 Temperature and relative



Page 33 and 34: s Figure 2-10: Trajectory Overview

Page 35 and 36: s 2.4.3.5 TEI and planetary protect





Page 45 and 46: s Mars Excursion Vehicle Transfer H

Page 47 and 48: s 2.7.5.1 Mission elements dry mass

Page 49 and 50: s 2.7.5.8 MEV release The MEV is re

Page 51 and 52: s Total mission time (days) 1200 10



Page 57 and 58: s stack 9 Propellant mass of the ne




Page 65 and 66: s The core supporting structure has

Page 67 and 68: s 2.7.7.1.3 Mars excursion module S

Page 69 and 70: s 2.7.7.1.4 Earth return capsule HM

Page 71 and 72: s Mission Phase Description Event s

Page 73 and 74: s Mission Phase Description Event s

Page 75 and 76: s 2.7.10 Mission performance Table

Page 77 and 78: s Days on Martian surface 450 400 3



Page 83 and 84: s Maximum manoeuvre duration 6 mont

Page 85 and 86: s % of loss from baseline 20 18 16

Page 87 and 88: s 2.7.15 Sensitivity analysis HMM A

Page 89 and 90: s 2.7.15.4 Influence of the mass of


Page 93 and 94: s Parameters used: • No Shuttle

Page 95 and 96: s 2.8.3.3 Launch 3- Front node Figu







Page 109 and 110: s 2.10.1.4 Communications HMM Asses


Page 113 and 114: s 2.10.2.2.2 LEO assembly HMM Asses


Page 117 and 118: s Basic RF link Four 70-m Ka-band s




Page 125 and 126: s 3 TRANSFER VEHICLE 3.1 Systems…

Page 127 and 128: s Operational Requirements It shall

Page 129 and 130: s Trans Mars Injection Module Mars

Page 131 and 132: s Figure 3-2: Parallel configuratio

Page 133 and 134: s Figure 3-6: Global dimensions com

Page 135 and 136: s Front Node 3.2.3.1.3 EVA systems

Page 137 and 138: s Trans Mars Injection (three stage

Page 139 and 140: s Figure 3-16: Recommendations for

Page 141 and 142: s Factors to be considered Impacts




Page 149 and 150: s Figure 3-24: Baseline design back

Page 151 and 152: s Figure 3-26: Baseline design priv

Page 153 and 154: s Module part 3............= 0 m 3

Page 155 and 156: s 3.3.2.1 Requirements and design d











Page 177 and 178: s flux [W/m2] 250 200 150 100 50 0

Page 179 and 180: s Figure 3-38: Power required to ma



Page 185 and 186: s 3.3.4.3 Assumptions and trade-off

Page 187 and 188: s 3.3.4.3.3 Power conditioning and

Page 189 and 190: s 3.3.5 AOCS HMM Assessment Study R


Page 193 and 194: s Configuration Length (m) Total ma

Page 195 and 196: s 3.3.5.5 ACS for TMI 1 st HMM Asse





Page 205 and 206: s 3.3.6.2 Baseline design HMM Asses


Page 209 and 210: s 5 Reduce 2dB pointing precision t

Page 211 and 212: s 70-m antenna 70-m antenna 3.3.7.5

Page 213 and 214: s Angular separation SEM > 10º SEM

Page 215 and 216: s Figure 3-63: Communications MEV/M





Page 225 and 226: s Element 1: Transfer Habitation Mo


Page 229 and 230: s Radiation Shielding Shielding Req


Page 233 and 234: s The propulsion system and its cha


Page 237 and 238: s Item Nr. Mass [kg] Margin [%] Mas





Page 247 and 248: s 3.4.4 Mechanisms HMM Assessment S

Page 249 and 250: s 4 MARS EXCURSION VEHICLE 4.1 Syst


Page 253 and 254: s Figure 4-2: Option 2: Vertical co


Page 257 and 258: s 4.3 Surface habitation module Fig

Page 259 and 260: s Figure 4-11: Section through the




Page 267 and 268: s 4.3.1.5.3 Top level Figure 4-20:


Page 271 and 272: s Schedule in hours for the most ac

Page 273 and 274: s 4.3.3.6 Waste production HMM Asse

Page 275 and 276: s Figure 4-26: Total pressure vs. O

Page 277 and 278: s ECLS system mass: Figure 4-27: Ma


Page 281 and 282: s Figure 4-28: Mars albedo (L), ars


Page 285 and 286: s sun flux (W/m2) 450 400 350 300 2


Page 289 and 290: s Insulation structure (external) F

Page 291 and 292: s cryocooler heat lift [W] cryocool



Page 297 and 298: s • a duty cycle value (duration

Page 299 and 300: s Figure 4-48: MAV Power Inputs HMM


Page 303 and 304: s 4.3.5.4.2 Power storage HMM Asses

Page 305 and 306: s Figure 4-52: Regenerative Fuel Ce

Page 307 and 308: s Figure 4-54: Solar irradiance on

Page 309 and 310: s 450.00 400.00 350.00 300.00 250.0

Page 311 and 312: s 4.3.6.1 Budgets HMM Assessment St






Page 323 and 324: s Surface Surface Container MAV Con


Page 327 and 328: s 4.3.9.3 Baseline design 4.3.9.3.1

Page 329 and 330: s Bio-Lock Masses: Core Samples No.



Page 335 and 336: s Figure 4-72: Entry Velocity (L) a




Page 343 and 344: s 2 3.9 233 923.1 347 923 12.3 352

Page 345 and 346: s Figure 4-85: Communications MEV/M


Page 349 and 350: s 4.4.5.3.2 GNC equipment HMM Asses

Page 351 and 352: s 4.4.5.4 Control laws generation H


Page 355 and 356: s Finally, the Figure 4-97 shown th



Page 361 and 362: s velocity (m/sec) altitude (km) 50

Page 363 and 364: s 4.5 Mars Ascent Vehicle 4.5.1 Tra

Page 365 and 366: s Term Value Unit Radius of equator




Page 373 and 374: s Inclination (deg) 47.5 47 46.5 46



Page 379 and 380: s 4.5.3 Structures HMM Assessment S


Page 383 and 384: s 4.5.5 Thermal HMM Assessment Stud

Page 385 and 386: s 4.5.5.3 Baseline thermal design H


Page 389 and 390: s Crew Ingress/Egress Hatch: HMM As

Page 391 and 392: s Element 3: Mars Ascent Vehicle HM

Page 393 and 394: s 4.5.7.5 Budgets Characteristic Va

Page 395 and 396: s PER DAY PER MISSION DRINKING WATE



Page 401 and 402: s 5 OVERALL CONCLUSIONS HMM Assessm

Page 403 and 404: s 6 APPENDIX A - MARTIAN SURFACE NU


Page 407 and 408: s Figure 6-1: Example of buried rea


Page 411: s 7 APPENDIX B - REFERENCES [RD1] C


Page 417 and 418: s [RD85] Mars Transportation Enviro

Page 419 and 420: s 8 APPENDIX C - ACRONYMS AAA Avion

Page 421 and 422: s MLI Multi-Layer Insulation MMH Mo

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