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ISS Destiny Laboratory Smoke Detection Model
Technical Paper
2007-01-3076
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
Smoke transport and detection were modeled numerically in the ISS Destiny module using the NIST, Fire Dynamics Simulator code. The airflows in Destiny were modeled using the existing flow conditions and the module geometry included obstructions that simulate the currently installed hardware on orbit. The smoke source was modeled as a 0.152 by 0.152 m region that emitted smoke particulate ranging from 1.46 to 8.47 mg/s. In the module domain, the smoke source was placed in the center of each Destiny rack location and the model was run to determine the time required for the two smoke detectors to alarm. Overall the detection times were dominated by the circumferential flow, the axial flow from the intermodule ventilation and the smoke source strength.
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Citation
Brooker, J., Urban, D., and Ruff, G., "ISS Destiny Laboratory Smoke Detection Model," SAE Technical Paper 2007-01-3076, 2007, https://doi.org/10.4271/2007-01-3076.Also In
References
- Karlsson B. Quintiere J.G. Enclosure Fire Dynamics 0-8493-1300-7 CRC Press Boca Rotan, FL 1999
- Veneri R. Parodi P. Glynn D. Taylor K. “CFD Modeling on Fire Detection and Suppression in a Columbus Rack,” SAE Technical Paper 941607 , 24th International Conference on Environmental Systems and 5 th European Symposium on Space Environmental Control Systems Friedrichshafen, Germany June 1994
- Burgio F. Gargioli E. Parodi P. “Design and Development Approach for the Localized Fire Detection and Suppression Function of Columbus APM,” Proceedings of the 6th European Symposium on Space Environmental Control Systems 2 743 754 May 1997
- Lin C.-H. Son C.H. “CFD Simulation of the Airflow and CO2 Transport in the U.S. Lab: International Space Station Flight 5A Configuration,” SAE Technical Paper 2001-01-2255 July 2001
- Son C.H. Lin C.-H. “CFD Investigation of the Air Ventilation Characteristics in the U.S. Airlock: International Space Station Flight 7A Configuration,” SAE Technical Paper 2002-01-2342 July 2002
- Turner E.H. Son C.H. Smirnov E.M. Ivanov N.G. Telnov D.S. “Air Circulation Study of International Space Station Node 2 with Attached Modules,” SAE Technical Paper 2004-01-2498 July 2004
- Smirnov E.M. Ivanov N.G. Telnov D.S. Son C.H. Aksamentov V.K. “Computational Fluid Dynamics Study of Air Flow Characteristics in the Columbus Module,” SAE Technical Paper 2004-01-2500 July 2004
- Son C.H. Smirnov E.M. Ivanov N.G. Telnov D.S. “Integrated Computational Fluid Dynamics Ventilation Model for the International Space Station,” SAE Technical Paper 2005-01-2794 July 2005
- Son C.H. Turner E.H. Smirnov E.M. Ivanov N.G. Telnov D.S. “Integrated Computational Fluid Dynamics Carbon Dioxide Study for the International Space Station,” SAE Technical Paper 2005-01-2795 July 2005
- McGrattan K.B. Forney G.P. “Fire Dynamics Simulator (Version 4) User Guide” NIST Special Publication 1019 National Institute of Standards and Technology Gaithersburg, Maryland March 2006
- McGrattan K.B. “Fire Dynamics Simulator (Version 4) Technical Reference Guide” NIST Special Publication 1018 National Institute of Standards and Technology Gaithersburg, Maryland March 2006
- Roby R.J. Klassen M.S. Zhang W. Olenick S.M. Gaines G. “Development of an Algorithm for Modeling of ISS and Shuttle Smoke Detector Activation in Forced Flow Ventilation Environments Using Fire Dynamics Simulator” Combustion Science & Engineering, Inc. Columbia, Maryland 2005
- Wieland P.O. “Living Together in Space: The Design and Operation on the Life Support Systems on the International Space Station” NASA Technical Memorandum 98-206956/VOL1 National Aeronautics and Space Administration Huntsville, Alabama January 1998
- Son C.H. Electronic Mail The Boeing Company Houston, Texas 4 Oct 2006
- Forney G.P. McGrattan K.B. “User's Guide for Smokeview Version 4 - A Tool for Visualizing Fire Dynamics Simulator” NIST Special Publication 1017 National Institute of Standards and Technology Gaithersburg, Maryland March 2006