Loren Data's SAM Daily™

FBO DAILY ISSUE OF DECEMBER 24, 2008 FBO #2585
SPECIAL NOTICE

A -- TANK-APPLIED MULTI-LAYER INSULATION SYSTEM - REQUEST FOR INFORMATION

Notice Date

12/22/2008
 

Notice Type

Special Notice
 

NAICS

336415 — Guided Missile and Space Vehicle Propulsion Unit and Propulsion Unit Parts Manufacturing
 

Contracting Office

NASA/Glenn Research Center, 21000 Brookpark Road, Cleveland, OH 44135
 

ZIP Code

44135
 

Solicitation Number

NNC09ZMA007L
 

Archive Date

12/22/2009
 

Point of Contact

Jeffrey R Feller, Technical Point of Contact, Phone 650-604-6577, Fax 650-604-0673, - Raye L Kirkland, Contract Specialist, Phone 216-433-5957, Fax 216-433-2480, />
 

E-Mail Address

Jeffrey.R.Feller@nasa.gov, Ra-deon.L.Kirkland@nasa.gov<br
 

Small Business Set-Aside

N/A
 

Description

Request for Information (RFI)NASA is currently developing the propulsion system concepts for future explorationmissions including a near term human return to the lunar surface. Studies have identifiedhigh performance, non-toxic, cryogenic methane (LCH4) and oxygen (LO2) as a propellantcombination for consideration for the main and reaction control system (RCS) lunarsurface ascent propulsion system. LDAC-1, a NASA study, depicted a lunar ascent vehicleconcept consisting of two sets of spherical propellant tanks, each set containing anoxidizer tank and a fuel tank and located diametrically opposite on either side of thecrew ascent cabin. The spherical oxidizer and fuel tank sets contained the propellant forthe main ascent engine and the RCS engines required for lunar orbit maneuvering anddocking with the Crew Exploration Vehicle (CEV). The concept assumed the use of pressurefed main and RCS engines operating at approximately 350 psia. Two sets of sphericalpropellant tanks were selected for maintaining a controlled center of gravity (CG) forthe lunar ascent vehicle. For a lunar outpost exploration mission at the lunar South Pole, NASA has planned asurface stay duration of approximately 210 days for the crew habitat and lunar surfaceascent stage. NASA system trade studies have shown that LCH4 ascent stage propellant tankfluid venting can be eliminated on the lunar surface for the 210 day mission with1.A passive Multi-layer Insulation (MLI) system consisting of approximately 60 layers toprotect the propellant tanks from the lunar surface and solar environmental heating;2.Loading the LCH4 propellant tanks with densified LCH4 at 165 oR and starting with atank ullege of approximately 15% at the KSC launch pad.In order to verify the trade study results, a NASA inter-Center team consisting of AmesResearch Center (ARC), Glenn Research Center (GRC), Kennedy Space Center (KSC) andMarshall Space Flight Center (MSFC) has proposed a series of baseline passive thermalcontrol technology tests of a flight-representative, spherical LCH4 ascent stagepropellant tank in a simulated lunar thermal environment at the GRC Creek Road CryogenicComplex, SMiRF facility. This activity is sponsored by the NASA Cryogenic FluidManagement (CFM) Project Office.The primary objectives of the planned test series are: 1. To demonstrate the viability of a LCH4-LO2 ascent stage for the given lunar surfacethermal environments and mission duration. This requires a reliable, high performancepassive thermal isolation system conforming to the constraints outlined in the followingsection.2. To provide a testing platform for lunar surface thermal control techniques, includingin-tank equipment and instrumentation. Modification of the in-tank hardware will requireperiodic disassembly and reassembly of the MLI system. In order to enable directcomparisons of test data before and after modifications, this procedure must beaccomplished with minimal effect on overall MLI performance.3. To establish a well-defined set of baseline measurements for comparison with MLI modelpredictions, including the performance-lowering effects of penetrations and seams (forwhich reliable correlations are lacking). Proper instrumentation (primarily thermometry)of the MLI system is therefore imperative. The ultimate goal is to minimize uncertaintyin MLI performance prediction.This RFI seeks to determine whether these objectives are feasible using currenttechniques and commercially available materials.The following list summarizes the salient features and constraints of the NASA testhardware and test facility to which the MLI supplier must conform. 1.The spherical test tank will not be part of the solicitation. It will be GFE. Itsdesign is complete and fabrication drawings are available.2.The anticipated delivery date of the test tank to GRC is no later than April 1, 2009.If necessary, the test tank could be shipped to the selected contractor for MLIinstallation after June 1, 2009.3.The test tank material is 304 stainless steel, with a surface area of 7239 in2, and anominal 48 inch diameter.4.The thickness of the MLI system shall be no greater than 4 inches, as that is theclearance between the tank wall and the cryo-shroud.5.The MLI system shall consist of 60 shield/spacer layers.6.With the cryo-shroud at 700 oR (its maximum attainable temperature), the total heatleak through the (evacuated) MLI assembly (including degradations due to supports, tankpenetrations, seams, etc., but not including conduction heat leaks through supports,penetrations, instrumentation wiring) shall not exceed 1 W.7.Two circular man-way covers are located at the top and bottom of the test tank. The MLIsystem shall be designed to allow for ready access to the man-ways. The MLI system musttherefore be at least partially removable and replaceable, with minimal degradation inperformance.8.Both man-way covers have piping penetrations that are representative of the flight tankand must be accommodated by the MLI design.9.The test tank has two independent support methods: For testing, the tank will be suspended from the vacuum chamber lid by three rodsthreaded into the tank structure. The MLI system must accommodate the support rods.For test preparation outside the vacuum chamber, the tank is to be rigidly held usingtwo removable support brackets, located 180 degrees apart on the tanks equator. The MLIsystem must be removable/replaceable, with minimal degradation in performance, at leastover the two support bracket mounting flats.10.The simulated lunar thermal environment mentioned above is a vacuum chamber with anominal vacuum level 10-6 torr and a nitrogen-cooled cryo-shroud with top, cylindrical,and bottom sections, with an adjustable temperature range from 200 oR to 700 oR. Theinner surface of the shroud is coated with black paint.11.For thermal characterization of the MLI system, the test facility can accommodate upto a maximum of 70 thermocouples.A Request for Proposal for the design, fabrication and installation of a robust,predictable, low heat leak, tank-applied MLI system is anticipated to be released inearly February 2009, with an anticipated contract award date is March 20 and completionin mid-July, 2009.Prior to completing the statement of work, NASA hereby solicits information from MLIindustry sources regarding industry experiences, current capabilities, and/or knowledgeof flight-applicable state-of-the-art approaches to any or all of the following relevantareas:1.Thick MLI assemblies (50 or more layers);2.Design, fabrication and assembly techniques appropriate for spherical tanks (e.g.,interleaved gore sections, overlapping sub-blanket assemblies;3.Accommodation of tank supports and penetrations with minimal impact on MLI systemperformance;4.Reliability and reproducibility of MLI assembly procedures;5.Reproducibility of MLI performance with repeated disassembly/reassembly;6.Tank attachment techniques;7.Inter-layer attachment methods (e.g., tape, Velcro, stitching, bonding);8.Inter-layer spacing techniques and materials for minimizing conduction heat-leak;9.Strength and optical properties of commercially available outer coverings (e.g., Teflonfabric);10.High emissivity materials (e.g., metalized mylar or kapton);11.Materials handling and assembly procedures for minimizing contamination (e.g.,emissivity degradation);12.Optimization of constant or variable layer density;13.Interstitial gas venting techniques (e.g., perforations);14.Performance prediction, modeling, and analysis of MLI systems;15.Performance verification instrumentation (e.g., measurement of temperature profiles,interstitial pressure);16.Expected variation of key performance-impacting properties (especially emissivity) incommercially available materials;17.Quality assurance and acceptance criteria for commercially procured materials orassemblies; and,18.Other factors that might impact MLI system performance or performance predictability.Responses to the RFI should also include; rough order of magnitude cost and scheduleestimates; a company profile, including in-house facilities, experience of key personnel,and business size status; and a summary of previous designs for similar applications orflight systems, along with overviews of performance data.All responses should be submitted electronically in Portable Document Format (PDF), witha practical size limit of 6 MB, via email. The due date for responses is Jan. 9, 2009.FAR 52-215-3 Request for Information or Solicitation for Planning Purposes (Oct 1997)(a) The Government does not intend to award a contract on the basis of this solicitationor to otherwise pay for the information solicited except as an allowable cost under othercontracts as provided in subsection 31.205-18, Bid and proposal costs, of the FederalAcquisition Regulation. (b) Although supplier is used in this Request for Information, your response will betreated as information only. It shall not be used as a proposal. (c) This solicitation is issued for the purpose of a request for developmentalinformation.
 

Web Link

FedBizOpps Complete View
(https://www.fbo.gov/?s=opportunity&mode=form&id=cc8d929b3a648b61b8d8d531ea1b5518&tab=core&_cview=1)
 

Record

SN01722870-W 20081224/081222215042-cc8d929b3a648b61b8d8d531ea1b5518 (fbodaily.com)
 

Source

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