SBIR-STTR Award

Lightweight Cryogenic Radiator
Award last edited on: 3/22/2004

Sponsored Program
SBIR
Awarding Agency
NASA : GSFC
Total Award Amount
$650,000
Award Phase
2
Solicitation Topic Code
-----

Principal Investigator
Christopher Lawrence Seaman

Company Information

ESLI (AKA: Energy Science Laboratories Inc)

6888 Nancy Ridge Drive
San Diego, CA 92121
   (858) 552-2032
   esli@esli.com
   www.esli.com
Location: Single
Congr. District: 51
County: San Diego

Phase I

Contract Number: ----------
Start Date: ----    Completed: ----
Phase I year
2003
Phase I Amount
$75,000
This SBIR Phase 1 project shall develop lightweight materials with high emissivity for radiative cooling down to 30 K, as needed by NASA for advanced spacecraft including the NGST mission. The materials are based on carbon fibers in an engineered configuration that creates blackbody features as well as millimeter wave antenna absorber features. The carbon fiber approach is fundamentally lightweight, structurally robust, thermally conductive, and permits a broad range of configurations. Phase 1 will assess requirements and analyze the concept radiator. Selected emitter materials configurations will be fabricated and tested for model validation. Lightweight cryogenic radiator designs and Phase 2 development will be reported. POTENTIAL COMMERCIAL APPLICATIONS The approach has potential to generate a range of novel optical materials with applications in thermal control, far infrared and millimeter wave astronomy, and microwave communications hardware. Specific applications are * Improved absorbers for thermal , radiometric, and optical instruments operating in IR, FIR, MMW and MW bands * Absorber coatings for instruments such as bolometers, MMW radiometers, and cryogenic calorimeters * Stray light suppression for improved signal-to-noise in IR and MMW astronomy 30-200 K radiators for sensor cooling in surveillance satellites

Phase II

Contract Number: ----------
Start Date: ----    Completed: ----
Phase II year
2004
Phase II Amount
$575,000
___(NOTE: Note: no official Abstract exists of this Phase II projects. Abstract is modified by idi from relevant Phase I data. The specific Phase II work statement and objectives may differ)___ This SBIR Phase 1 project shall develop lightweight materials with high emissivity for radiative cooling down to 30 K, as needed by NASA for advanced spacecraft including the NGST mission. The materials are based on carbon fibers in an engineered configuration that creates blackbody features as well as millimeter wave antenna absorber features. The carbon fiber approach is fundamentally lightweight, structurally robust, thermally conductive, and permits a broad range of configurations. Phase 1 will assess requirements and analyze the concept radiator. Selected emitter materials configurations will be fabricated and tested for model validation. Lightweight cryogenic radiator designs and Phase 2 development will be reported. POTENTIAL COMMERCIAL APPLICATIONS The approach has potential to generate a range of novel optical materials with applications in thermal control, far infrared and millimeter wave astronomy, and microwave communications hardware. Specific applications are * Improved absorbers for thermal , radiometric, and optical instruments operating in IR, FIR, MMW and MW bands * Absorber coatings for instruments such as bolometers, MMW radiometers, and cryogenic calorimeters * Stray light suppression for improved signal-to-noise in IR and MMW astronomy 30-200 K radiators for sensor cooling in surveillance satellites