AAE450 Senior Spacecraft Design 3/1/2007 Ryan 1 Ryan Scott Week 7: March 1st, 2007 Power Group Leader TC, TV, dE, aM, dM, aE, CS1-2, CSM This Week Power.

Slides:

Advertisements

Similar presentations

Analysis of Rocket Propulsion

Advertisements

Liquid Rocket Engine Cycles

36th Annual Frontiers in Education Conference

AAE450 Senior Spacecraft Design Poliskie - 1 T.J. Poliskie Week 5: February 15, 2007 Propulsion Earth Taxi, Mars Taxi Group Zero Boil-Off Cryogenic Propulsion.

AAE450 Spring 2009 Propellant Choice and Mass Estimates for the Translunar OTV Week 2 Presentation Thursday, Jan 22, 2009 Brad Appel Propulsion Group.

AAE450 Spring 2009 Slide 1 of 7 Orbital Transfer Vehicle (OTV) Thermal Control Ian Meginnis February 26, 2009 Group Leader - Power Systems Phase Leader.

AAE450 Spring 2009 Slide 1 of 8 Orbital Transfer Vehicle (OTV) Masses and Costs Ian Meginnis March 12, 2009 Group Leader - Power Systems Phase Leader -

AAE 450 Spring 2008 Dana Lattibeaudiere February 7, 2008 New Code Developments.

AAE450 Spring 2009 Kelly Leffel 3/26/09 Structures and Thermal Lunar Descent Phase Lander Integration Lander Thermal Control (Day) Kelly Leffel Structures.

AAE450 Spring 2009 Lander Phase: Hybrid Propulsion System Propulsion System Sizing and Inert Mass Analysis Hopper and Rover Designs for 10kg Payload Hopper.

AAE450 Senior Spacecraft Design Catherine Frey Week 2: January 25 th, 2007 Propulsion Team Leader Liquid Propellant Tank Sizing.

AAE450 Senior Spacecraft Design Project Aquarius Kowalkowski - 1 Mike Kowalkowski Week 4: February 8 th 2007 Project Aquarius Power Engineering Habitat.

AAE450 Senior Spacecraft Design Catherine Frey Week 8: March 8 th, 2007 Propulsion Group, Transfer Vehicle Group, Mars Launch Vehicle Group, aM/aE/dM/dE.

AAE450 Senior Spacecraft Design 2/15/2007 Scott 1 Ryan Scott Week 5: February 15th, 2007 Power Group Leader TC, TV, dE, aM, dM, aM, CS1, CS2, CS3 *WITH.

AAE450 Senior Spacecraft Design Project Aquarius Kowalkowski - 1 Mike Kowalkowski Week 11: April 5 th 2007 Project Aquarius Final Presentation Storyboard.

AAE450 Senior Spacecraft Design Catherine Frey Week 4: February 8 th, 2007 Propulsion Group, Transfer Vehicle Group Transfer Vehicle Combustion Chamber.

AAE450 Senior Spacecraft Design Dan Maguire Week 2: January 25 th, 2007 Structures Group Group Leader, Ares 1, Earth Taxi, Mars Taxi, Depart Mars, Arrive.

AAE450 Senior Spacecraft Design Project Aquarius Kowalkowski - 1 Mike Kowalkowski Week 10: March 27 th 2007 Project Aquarius Power Engineering Group Surface.

AAE450 Senior Spacecraft Design Atul Kumar Presentation Week 3: February 1 st, 2007 Aerodynamics Team Re-Entry vehicle analysis - Lifting body 1.

AAE450 Senior Spacecraft Design Poliskie - 1 T.J. Poliskie Week 7: March 1, 2007 Propulsion Earth Taxi, Mars Taxi Group Updated Propulsion System Analysis.

AAE450 Senior Spacecraft Design Kate Mitchell - 1 Kate Mitchell Week 6: February 22 nd, 2007 Human Factors – Group Lead HAB & TV Vehicle Groups This Week:

A Comparison of Nuclear Thermal to Nuclear Electric Propulsion for Interplanetary Missions Mike Osenar Mentor: LtCol Lawrence.

AAE450 Senior Spacecraft Design Brandon Anderson Week 3: February 1st, 2007 Structures Group Taxi Capsule, Electric Propulsion System.

AAE450 Senior Spacecraft Design Kate Mitchell - 1 Kate Mitchell Week 8*: March 1 st, 2007 Human Factors – Group Lead HAB & TV Vehicle Groups This Week:

Satellite communications and the environment of space Images: NASA.

AAE 450 Spring 2008 Ricky Hinton March 27 th, 2008 Propulsion Group Nozzle, Test Facility (back-up slides)

1 AAE 450 Spring 2008 Stephen Bluestone March 20, 2008 Propulsion Final Presentation Slides 1.

Rocket Engine Physics and Design

AAE 450 Spring 2008 Nicole Wilcox March 20 th, 2008 Propulsion Engine Performance Characteristics Breakdown Propellant and Pressurant Final Slides Propulsion.

AAE450 Spring 2009 Kelly Leffel 3/0509 Structures and Thermal Lunar Descent Phase Lander Integration Lander Thermal Control Kelly Leffel Structures and.

AAE450 Senior Spacecraft Design Kate Mitchell - 1 Kate Mitchell Week 4: February 8 th, 2007 Human Factors – Group Lead HAB, TV, Integration Group This.

AAE450 Senior Spacecraft Design Project Aquarius Mike Kowalkowski Week 2: January 25 th, 2007 Project Aquarius Power Engineering Habitat, Battery, and.

AAE450 Senior Spacecraft Design Matthew Fox Week 4: February 8th, 2007 Structures Group, Integration Group Transfer Vehicle Truss CAD Transfer Vehicle,

AAE 450 – Spacecraft Design Sam Rodkey 1 Designing for Thermal Control Sam Rodkey February 14 th, 2005 Project Management Project Manager.

AAE450 Senior Spacecraft Design Anderson (1) Brandon Anderson Week 7: March 1st, 2007 Structures Group EP Vehicle, TC Landing Gear.

Design of Supersonic Intake / Nozzle P M V Subbarao Associate Professor Mechanical Engineering Department I I T Delhi Meeting the Cruising Conditions…

AAE450 Spring 2009 Lunar Lander Main Engine Thaddaeus Halsmer Thursday, February 12, 2009 Thaddaeus Halsmer, Propulsion.

AAE450 Senior Spacecraft Design Ryan Scott Week 3: February 1st, 2007 Power Group Leader TC, TV, dE, aM, dM, aM, CS1, CS2, CS3.

AAE450 Senior Spacecraft Design Rick Hutchings Week 8: March 8 th, 2007 Thermal Control Insulation and COM Sat Thermal Control.

AAE450 Senior Spacecraft Design Project Aquarius Rogge - 1 Courtney Rogge Week 6: February 22 nd, 2007 Power Group Nuclear Power Capabilities TV Nuclear.

AAE450 Senior Spacecraft Design Ryan Scott Week 1: January 18 th, 2007 Power Group Leader Solar Panels / Transfer Vehicle / Capsule.

AAE450 Senior Spacecraft Design Breanne Wooten Week 2: January 25 th, 2007 Human Factors/APM Human Limitations/Taxi Capsule.

AAE450 Senior Spacecraft Design Project Aquarius Kowalkowski - 1 2\22\2007 Mike Kowalkowski Week 6: February 22 nd 2007 Project Aquarius Power Engineering.

AAE450 Senior Spacecraft Design Maguire,1 Dan Maguire Week 4: February 8th, 2007 Structures Group Group Leader, Ares 1, Earth Taxi, Mars Taxi, Depart Mars,

AAE450 Senior Spacecraft Design Dorrie Byford Dorrie Byford Week 7: March 1 st, 2007 Communications Group Leader / Autonomous Rendezvous / Integration.

AAE450 Senior Spacecraft Design Project Aquarius Jonathan Kubiak Jonathan Kubiak Week 5: February 15th, 2007 Human Factors: Manned Rover, Martian.

AAE450 Senior Spacecraft Design Mark Cunningham Mark Cunningham Week 10: March 29 th, 2007 Communications Team Final Presentation Slides – First Draft.

AAE450 Spring 2009 Lunar Night and Lander Power System Adham Fakhry February 26th, 2009 Power Group Lunar Descent Phase Passive Thermal Control for Lunar.

AAE450 Senior Spacecraft Design Mark Cunningham Week 6: February 22 nd, 2007 Communications Team, Comm. SATs CAD, TV/ET/MT Groups Communication Satellites.

AAE450 Senior Spacecraft Design Project Aquarius Kowalkowski - 1 Mike Kowalkowski Week 8: March 8 th 2007 Project Aquarius Power Engineering Group Surface.

ChemE 260 Foundation of Thermodynamics March 29, 2005 Dr. William Baratuci Senior Lecturer Chemical Engineering Department University of Washington TCD.

AAE 450 – Spacecraft Design Sam Rodkey 1 Active Thermal Control Design Sam Rodkey March 1 st, 2005 Project Management Project Manager.

AAE450 Senior Spacecraft Design Kate Mitchell Week 2: January 25 th, 2007 Human Factors – Team Lead Habitat (HAB), Crew Transfer Vehicle (CTV) This Week:

AAE 450 Spring 2008 Stephanie Morris 2/21/08 Propulsion Standard Deviations.

AAE450 Senior Spacecraft Design Matthew Fox Week 2: January 25 th, 2007 Structures Group Material Selection / CAD Transfer Vehicle, Mars Crawler, Construction.

AAE 450 Spring 2008 Trajectory Code Validation Slides 04/12/08.

Launch Structure Challenge - Background Humans landed on the moon in 1969 – Apollo 11 space flight. In 2003, NASA started a new program (Ares) to send.

Flight Hardware. Flight Profile - STS Flight Profile - SLS Earth Mars 34,600,000 mi International Space Station 220 mi Near-Earth Asteroid ~3,100,000.

액체로켓엔진의 이론과 실제 한국항공우주연구원 발사체추진제어팀 임 하 영.

THE TSIOLKOVSKY ROCKET EQUATION

Steven Hiu (“CJ”) 02/07/2008 Structural Analysis Model Analysis Team Function Code Structural Sizing & Optimization AAE 450 Spring 2008.

In-situ Propellant Production and ERV Propulsion System

Shuttle Main Engine LOX System (typical of 3)

Ricky Hinton January 24th, 2008 Propulsion Group Preliminary Analysis of Purdue Test Facilities at Zucrow Laboratories AAE 450 Spring 2008.

Junichi (Jun) Kanehara 02/21/2008 Trajectory Validation of Thrust in the Trajectory Codes AAE 450 Spring 2008.

Nicole Wilcox March 20th, 2008 Propulsion Engine Performance Characteristics Breakdown Propellant and Pressurant Final Slides AAE 450 Spring 2008 Propulsion.

Section 5: Lecture 3 The Optimum Rocket Nozzle

Team A, Power Group Presentation

Team A Propulsion 1/16/01.

Stephen Bluestone February 14, 2008 Propulsion – Propellants – MAT Model Analysis & Moderate Thrust Engines AAE 450 Spring 2008.

Presentation transcript:

AAE450 Senior Spacecraft Design 3/1/2007 Ryan 1 Ryan Scott Week 7: March 1st, 2007 Power Group Leader TC, TV, dE, aM, dM, aE, CS1-2, CSM *This Week* Power Distribution on Martian Surface MLV Engine Selection Updated Communication Satellite Data *Slides reviewed and/or edited by Kirk Updated as of 3/02/07

AAE450 Senior Spacecraft Design 3/1/2007 Ryan 2 Martian Surface Power Distribution Design Criteria –MRCF 126 kWe, 500 m –ISPP 1200 kWe, 6 m –HAB 100 kWe, 500 m Type of Wire? –Aluminum –Copper Above or Below Ground Wiring? –Heat dissipation of Martian surface –Heat dissipation of Martian atmosphere Will Wire Reach too High of a Temperature? –High current suspended –Lower current buried HAB NPS ISPP MRCF PMAD AC Results (Aluminum) –Power:1426kWe –Mass: 15840kg –Volume5.87m^3 DC Results (Al, not used) –Power:1426kWe –Mass: 22520kg –Volume8.36m^3 *Follow-up Calculations Presented by Mike

AAE450 Senior Spacecraft Design 3/1/2007 Ryan 3 MLV Engine Selection Design Criteria –Thrust to weight ratio minimum 1.4 –1 Fault tolerant design Can NOT cause a detrimental moment during fault Ability to throttle down if no fault Ability to throttle up in event of fault –Liquid hydrogen –Liquid oxygen –Area constraints *More Detailed Analysis to be Introduced by Cat 5 Space Shuttle Main Engines –T(mass) = mt (300 kg for excess piping) –T(Volume) = m x 60 m^2 –T(thrust) = 5 x 2090 kN = kN –T/W = (on mars, 5 engines) –T/W = (on mars, 3 engines) –Throttle Range 67% - 109% SSME

AAE450 Senior Spacecraft Design 3/1/2007 Ryan 4 Backup Slides

AAE450 Senior Spacecraft Design 3/1/2007 Ryan 5 Martian Power Distribution Next 9 slides show the results of the design for the power distribution of the Martian power grid *note detailed calculations shown in Matlab code*

AAE450 Senior Spacecraft Design 3/1/2007 Ryan 6 *Power Distribution Factor Was found by Consulting Mike Aluminum WireAC Power Breakdown ACDC HABISPPMRCF Power1426 kWePower kWe Mass kgMass kg Volume m^3Volume m^3 DC Power Breakdown HABISPPMRCF Power kWe Mass kg Volume m^3 Length5006 m Area m^2 Area conversion factor mm^2 -> m^

AAE450 Senior Spacecraft Design 3/1/2007 Ryan 7 *Power Distribution Factor Was found by Consulting Mike Copper WireAC Power Breakdown ACDC HABISPPMRCF Power1426 kWePower kWe Mass kgMass kg Volume m^3Volume m^3 DC Power Breakdown HABISPPMRCF Power kWe Mass kg Volume m^3 Length5006 m Area m^2 Area conversion factor mm^2 -> m^

AAE450 Senior Spacecraft Design 3/1/2007 Ryan 8 Data Considered When Choosing Operating Voltage Total mass –DC –AC Total Volume Wire Temperature Wire Location Results of Matlab Code Given on Next 6 slides

AAE450 Senior Spacecraft Design 3/1/2007 Ryan 9 HAB, Above Ground – Two Wire AC

AAE450 Senior Spacecraft Design 3/1/2007 Ryan 10 HAB – Two Wire AC

AAE450 Senior Spacecraft Design 3/1/2007 Ryan 11 ISPP, Above Ground – Two Wire AC

AAE450 Senior Spacecraft Design 3/1/2007 Ryan 12 ISPP – Two Wire AC

AAE450 Senior Spacecraft Design 3/1/2007 Ryan 13 MRCF, Above Ground – Two Wire AC

AAE450 Senior Spacecraft Design 3/1/2007 Ryan 14 MRCF – Two Wire AC

AAE450 Senior Spacecraft Design 3/1/2007 Ryan 15 MLV Engine Selection The next 2 slided show the calculations for choosing a MLV engine

AAE450 Senior Spacecraft Design 3/1/2007 Ryan 16 MLV Engine Engines Reviewed –SSME –HM60/Vulcain –LE-7 –RS-68 –RL-10 –CECE –RD0146 Space Shuttle Main Engine Maximum Thrust: (109% Power Level) At Sea Level: In Vacuum: 418,000 lb 512,300 lb Throttle Range:67% - 109% Pressures:Hydrogen Pump Discharge: Oxygen Pump Discharge: Chamber Pressure: 6,276 psia 7,268 psi 2,994 psia Specific Impulse: (In Vacuum) 452 sec Power: High Pressure Pumps Hydrogen: Oxygen: 71,140 hp 23,260 hp Area Ratio:69:1 Weight:7,774 lb Mixture Ratio:6.03:1 Dimensions:168 in. long 90 in. wide Propellants:Fuel: Oxidizer: Liquid Hydrogen Liquid Oxygen *Table recreated from

AAE450 Senior Spacecraft Design 3/1/2007 Ryan 17 MLV Calculations

AAE450 Senior Spacecraft Design 3/1/2007 Ryan 18 Satellite Update The next slide shows the updated satellite information taken from the overview documents of the class website on 2/28/07

AAE450 Senior Spacecraft Design 3/1/2007 Ryan 19 Satellite Update CS1 x 2 –16.75 kWe –185.4 kg (Battery, Solar Panel, Wires, Power Conditioning) –189.8 m^2 by m CSM x 5 (Solar Panels Same for GPS and CSM) –2 kWe –38.73 kg (Battery, Solar Panel, Wires, Power Conditioning) –22.66 m^2 by m *Picture Made by Steve

AAE450 Senior Spacecraft Design 3/1/2007 Ryan 20 New References 1 Pouliquen, M., “HM60 Cryogenic Rocket Engine for Future European Launchers,” AIAA Paper , Oct Rachuk, V. and Titkov, N., “The First Russian LOX-LH2 Expander Cycle LRE: RD0146,” AIAA Paper 1-15, July Wood, B., “Propulsion for the 21st Century—RS-68,” AIAA Paper 1-14, July Okita, K. & Fukushima, Y., “Improved LE-7 Engine,” AIAA Paper 1-6, July Burks, A., “DEVELOPMENT OF LOX-HYDROGEN ENGINES FOR THE SATURN APOLLO LAUNCH VEHICLES,” AIAA Paper 1-12, June Sackheim, R., “Overview of United States Space Propulsion Technology and Associated Space Transportation Systems,” AIAA Paper , Decmeber 2006.

AAE450 Senior Spacecraft Design 3/1/2007 Ryan 21 New References Continued 7 Space Shuttle Main Engine. Retrieved February 25, 2007, from SSME. Retrieved February 25, 2007, from templating/v/index.jsp?vgnextrefresh=1&vgnextoid=75a0184c712de010VgnVCM c45a529fRCRDhttp:// templating/v/index.jsp?vgnextrefresh=1&vgnextoid=75a0184c712de010VgnVCM c45a529fRCRD 9 Arian 5 – Specifications. Retrieved February, 2007, from LE-7 Specifications. Retrieved February 25, 2007, from RS-68 Engine. Retrieved February, 2007, from space/space/propul/RS68.htmlhttp:// space/space/propul/RS68.html 12 RL10. Retrieved February, 2007, from templating/v/index.jsp?vgnextrefresh=1&vgnextoid=eb6607b06f5eb010VgnVCM aRCRDhttp:// templating/v/index.jsp?vgnextrefresh=1&vgnextoid=eb6607b06f5eb010VgnVCM aRCRD 13 CECE. Retrieved February, 2007, from templating/v/index.jsp?vgnextrefresh=1&vgnextoid=91380e78738ee010VgnVCM c45a529fRCRDhttp:// templating/v/index.jsp?vgnextrefresh=1&vgnextoid=91380e78738ee010VgnVCM c45a529fRCRD 14 RD Retrieved February, 2007, from templating/v/index.jsp?vgnextrefresh=1&vgnextoid=e3b eb010VgnVCM aRCRDhttp:// templating/v/index.jsp?vgnextrefresh=1&vgnextoid=e3b eb010VgnVCM aRCRD