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ICES101: TECS ICES104: TECS/INT Spacecraft and Instrument Thermal Systems Advances in Thermal Control Technology This session presents thermal design, testing, and on-orbit This session addresses novel or advanced technologies and performance of near-earth and interplanetary unmanned/robotic development activities pertaining to heat acquisition, transport, spacecraft, instruments, and payloads, and the application of key rejection, and storage, as well as cryogenic cooling and thermal new technologies. protection systems not specific to any existing or future scientific instruments, spacecraft, or planetary systems. Jose Rodriguez, NASA Jet Propulsion Laboratory, jose.i.rodriguez@jpl.nasa.gov Jeff Farmer, NASA Marshall Space Flight Center, Joe Gasbarre, NASA Langley Research Center [email protected] Wes Ousley, Genesis Engineering Solutions LLC Matthias Holzwarth, ArianeGroup, [email protected] ICES102: TECS Olivier Pin, European Space Agency Thermal Control for Planetary and Small Body Richard Briet, CNES Surface Missions Angel Alvarez-Hernandez, NASA Johnson Space Center This session focuses on active and passive thermal control for planetary and small body surface missions utilizing vehicles such ICES105: TECS as rovers, landers, atmospheric probes, and rendezvous systems. Thermal Standards and Design/Development Practices Also covered is the characterization and modeling of the thermal This session focuses on current and future efforts and needs for environment for such bodies. development of spacecraft thermal control standards and reference documents dealing with such areas as design, analysis, testing, Eric Sunada, NASA Jet Propulsion Laboratory, equipment, specifications, and processes. These standards might be [email protected] dedicated to a specific company or applicable to programs, space Jennifer Miller, NASA Jet Propulsion Laboratory centers, or agencies. Also included are lessons learned in developing Gaj Birur, Jet Propulsion Laboratory or applying these standards.
ICES103: TECS/INT Eric Grob, NASA Goddard Space Flight Center, Thermal and Environmental Control of [email protected] Exploration Vehicles and Surface Habitats Art Avila, NASA Jet Propulsion Laboratory This session covers environmental control, thermal control (passive Joe Gasbarre, NASA Langley Research Center and active), and thermal protection topics for vehicles used to transport crew and cargo to/from cislunar space, the moon, Mars, and asteroids, including landers, habitats, and crew transport vehicle systems. Papers on related systems within international and U.S. programs, including the Deep Space Gateway, are welcome. Potential topics include encountered space environment, base heat rejection, dust mitigation, thermal and environmental control and life support requirements, design, analysis, verification, and testing.
Jose Roman, NASA Marshall Space Flight Center, [email protected] Sean Tuttle, Nova Systems [email protected] Andrea Ferrero, Thales Alenia Space Rubik Sheth, NASA Johnson Space Center Tom Leimkuehler, Jacobs
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ICES107: TECS ICES201: INT Thermal Design of Microsatellites, Nanosatellites, and Two-Phase Thermal Control Technology Picosatellites This session presents the latest developments and innovations of Satellites that are smaller than smallsats run into issues with limited two-phase heat transport systems, modeling techniques, and radiative surface area and increased power density that make their on-orbit performances for space applications. It covers all variants thermal environment in some ways more challenging than larger of heat pipe technologies, capillary and mechanically pumped loops, satellites. This session presents and discusses the unique thermal and loop heat pipes. concerns pertaining to very small satellites (nanosatellites, cubesats, microsats, etc.). Potential topics include the thermal design, analysis, Frank Bodendieck, OHB System AG, testing, and on-orbit performance of very small satellites, and the [email protected] application of relevant key new technologies. Darius Nikanpour, Canadian Space Agency Alejandro Torres, IberEspacio S.A. Stephanie Mauro, NASA Marshall Space Flight Center, Alain Chaix, Thales Alenia Space [email protected] Brian Briggs, NASA Jet Propulsion Laboratory Hosei Nagano, Nagoya University ICES202: INT Satellite, Payload, and Instrument Thermal Control ICES108: TECS/INT This session covers the development and design of thermal control Thermal Control of Cryogenic Instruments and systems for satellites, payloads, and instruments. Optical Systems This session covers cryogenic thermal control as applied in Patrick Hugonnot, Thales Alenia Space, instruments, focal plane assemblies, detectors, and optical systems. [email protected] This includes relevant passive and active cooling technologies, as Marco Molina, Leonardo well as cryogenic testing facilities, test processes, and lessons learned. Hiroyuki Ogawa, Japan Institute of Space and Astronautical Science Johannes van Es, NLR Wes Ousley, Genesis Engineering Solutions LLC, [email protected] ICES203: INT Gerd Jahn, Airbus Thermal Testing Jose Rodriguez, NASA Jet Propulsion Laboratory The thermal testing session focuses on all aspects of thermal tests, test methods, test correlation, and test facilities. Tests for all kinds of spacecraft, instruments, equipment, and materials are of interest. Special attention is given to sharing lessons learned from thermal test and test analysis and correlation activities, and also to innovative test methods, set-ups, and approaches to testing and verification of the hardware and of the analysis.
Gerd Jahn, Airbus, [email protected] Steve Price, Airbus Hiroyasu Mizuno, JAXA Andrea Ferrero, Thales Alenia Space
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ICES204: INT/AIAA LS&S ICES207: INT/TECS Bioregenerative Life Support Thermal and Environmental Control Engineering Analysis This session focuses on the design and development of ground- and Software based facilities and experiments, and flight hardware designs and This session addresses thermal and environmental control experiments associated with integrated systems which incorporate engineering analysis and software. This may include novel user biological, physical, and chemical processors. experiences with existing tools, new tool and utility developments, improvements in existing commercial tools, cross-discipline tool Mark Kliss, NASA Ames Research Center, integration and data exchanges, as well as any other software or [email protected] analysis related topics. Masato Sakurai, JAXA Cesare Lobascio, Thales Alenia Space Henri Brouquet, ITP Engines UK, [email protected] ICES205: INT/AIChE Brian Briggs, NASA Jet Propulsion Laboratory Advanced Life Support Sensor and Control Technology Olivier Pin, European Space Agency This session includes papers describing approaches to monitoring Hume Peabody, NASA Goddard Space Flight Center water and air in enclosed habitats, thermal control of habitats, chemical sensors and sensing devices for detection of chemical constituents in water and air, and systems and system concepts for environmental monitoring and control. ICES300: AIChE Abhijit V. Shevade, NASA Jet Propulsion Laboratory, ECLSS Modeling and Test Correlations [email protected] This session reports on applications and advances in modeling Darrell L. Jan, NASA Ames Research Center physiochemical and biochemical life support processes, as well as in Timo Stuffler, OHB System AG numerical modeling of atmospheric pressure, cabin ventilation, and composition distributions in closed space habitats, such as the International Space Station, exploration spacecraft, the habitats, ICES206: INT/TECS and commercial crewed and cargo space transport vehicles. Manned Orbiting Infrastructures, Habitats, Space Station and Payload Thermal Control Chang Hyun Son, The Boeing Company, This session addresses thermal control on board the current Space [email protected] Station and future long term, manned (or man-tended) orbiting Kevin Braman, The Boeing Company, habitats, platforms, or laboratories including their payloads and on- [email protected] board experimental test prototypes. Topics range from system and Nikolay Ivanov, Peter the Great Saint Petersburg Polytechnic University, component issues with the Space Station, Orbiting Infrastructures Russia and Habitats thermal control systems to thermal aspects of payloads and experiments that utilize the Space Station or other Orbiting Infrastructures and Habitats as a science platform or as a test bed for future exploration applications including advanced thermal control solutions/techniques.
Zoltan Szigetvari, Airbus, [email protected] Matteo Lamantea, Thales Alenia Space Gary Adamson, UTC Aerospace Systems Dale Winton, Honeywell International
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ICES302: AIChE/ASME/INT ICES304: AIChE/INT Physio-chemical Life Support- Air Revitalization Physio-Chemical Life Support- Waste Management Systems- Systems -Technology and Process Development. Technology and Process Development. This session addresses research, development, and enhancement of physio- This session addresses research, development, and enhancement of physio- chemical technologies and systems associated with Air Revitalization chemical technologies and systems associated Waste Management Systems Systems (ARS). Integration of these systems in closed loop life support (WMS). Integration of these systems in closed loop life support applications applications such as space vehicles and habitats, recent findings and such as space vehicles and habitats, recent findings and performance of on performance of on orbit systems, cross cutting applications of ARS orbit systems, cross cutting applications of WMS technologies, in addition technologies, in addition to approaches to reducing mission costs and to approaches to reducing mission costs and improving overall mission improving overall mission logistics, associated with ARS technologies are logistics, associated with WWS technologies are also presented. also presented.
Morgan Abney, NASA Marshall Space Flight Center, Jeffrey Lee, NASA Ames Research Center, [email protected] [email protected] Mike Flynn, NASA Ames Research Center Jim Knox, NASA Justine Richardson, NASA Ames Research Center [email protected] Matteo Lamantea, Thales Alenia Space, Carsten Matthias, Airbus Defence and Space Darrell Jan, NASA Ames Research Center ICES305: AIChE/ASME/TECS/AAIA LS&S Environmental and Thermal Control of Commercial and ICES303: AIChE/INT Exploration Spacecraft Physio-Chemical Life Support- Water Recovery & This session seeks papers that describe the design, operation, and Management Systems- Technology and Process Development. performance of reliable and cost-efficient thermal and environmental This session addresses research, development, and improvement of control systems and subsystems for crew and cargo transport, space physio-chemical technologies and systems associated with Water Re- stations, deep space habitats, other space vehicles, and exploration covery & Management (WRM) System. Systems included are water/ spacecraft. wastewater recycling/reuse and water quality management and stor- age. These systems are intended as regenerative life support systems on the International Space Station (ISS), space vehicles and habitats, Barry Finger, Paragon Space Development Corporation, and ground-based systems that are relevant to space travel. In addition, [email protected] other advanced technologies (e.g. biological system) that aim to reduce John Lewis, NASA Johnson Space Center, mission costs and improve overall mission logistics associated with wa- [email protected] ter recovery system technologies are also presented. Chang Hyun Son, The Boeing Company Justine Richardson, NASA Ames Research Center, David Williams, NASA Johnson Space Center [email protected] David Steslicki, Orbital ATK Cesare Lobascio, Thales Alenia Space, Mike Flynn NASA Ames Research Center ICES307: AIChE Leonid Bobe, Niichimmash Collaboration, Educational Outreach, and Public Engagement This session features papers that link human activities in space with human activities on earth and reaches out to educators and students, contractors and researchers, and other innovators to share Science, Technology, Engineering, and Math (STEM) experiences and present new methodologies for linking students, vendors, and the general public to human exploration of space. The session includes innovative collaborations and networks between industries, academia, governments, and the public to address global and local challenges on earth and beyond.
Dean Muirhead, Barrios Technology, [email protected] Jean Hunter, Cornell University, [email protected] Javier Garcia, University of Texas Rio Grande Valley Charlie Galindo, Tierra Luna Engineering, LLC
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ICES308: AIChE ICES402: ASME Advanced Technologies for In-Situ Resource Utilization Extravehicular Activity: PLSS Systems This session provides recent technology advancements, analysis, This session covers topics describing design studies and new and concepts in the area of In Situ Resource Utilization (ISRU) as technology development or significant experience and lessons they relate to Environmental Control and Life Support, including learned with existing systems in the area of portable life support water and CO2 collection, O2 recovery, and other crew life-support systems and associated support hardware. Also, this session will sustainability aspects for Lunar surface missions, Martian surface deal with emerging technology and concepts for use in and from missions, and asteroid exploratory missions. Orion or other exploration platforms.
Christian Junaedi, Precision Combustion, Inc., Gregory Quinn, UTC Aerospace Systems, [email protected] [email protected] Brittany Brown, NASA, Bruce Conger, Jacobs Technology, [email protected] [email protected]
ICES400: ASME ICES403: ASME Extravehicular Activity: Space Suits Extravehicular Activity: Operations This session covers topics related to space suit pressure This session addresses EVA operational activities and EVA garments. It includes advanced development work for the simulations associated with the International Space Station (ISS), spectrum of missions including micro-gravity EVA operations analog or field studies, and other future EVA missions. This may in low-Earth orbit, cis-lunar space, and deep space Mars transit; also include, but is not limited to, lessons learned during EVA long-duration surface campaigns; and launch/entry/abort preparations, such as logistics, maintenance, training, and flight pressure garments for multiple vehicles, as well as sustaining engineering and lessons learned on the ISS Extravehicular controlling. Mobility Unit (EMU) space suit assembly (SSA). Cinda Chullen, NASA Johnson Space Center, [email protected] Shane McFarland, Wyle Laboratories, Stephanie Johnston, NASA, [email protected] [email protected] Lindsay T. Aitchison, NASA Johnson Space Center, [email protected] Jinny Ferl, ILC Dover ICES404: ASME ICES401: ASME/AIAA LS&S International Space Station ECLS: Systems Extravehicular Activity: Systems This session addresses ECLS System issues and lessons learned from This session includes topics describing aspects of EVA systems, the International Space Station. technologies, and studies that envision the space suit as a system. Concepts and testing of advanced space suit systems are also Gregory Gentry, The Boeing Company, included. [email protected] David Williams, NASA Johnson Space Center, Robert Trevino, NASA Johnson Space Center, [email protected] [email protected] Zoltan Szigetvari, Airbus Defence and Space, Keith Splawn, ILC Dover, [email protected] [email protected] Steven Balistreri, The Boeing Company, [email protected]
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ICES406: ASME/AIChE ICES502: AIAA LS&S Spacecraft Water/Air Quality: Maintenance and Monitoring Space Architecture This session focuses on recent results from flight-and ground-based This session focuses on the application of architectural chemical analyses of spacecraft water and air samples along with recent principles to the design of facilities beyond Earth (orbital, lunar, developments in spacecraft water and air quality monitoring technology. planetary, deep space and interplanetary), to provide supportive and comfortable living and working environments, and enjoyment of life, in full recognition of the technical challenges presented by the Shawn Macleod, UTC Aerospace Systems, environment. [email protected] Darrel Jan, NASA Ames Research Relevant topics include: Configurations and structures; Construction and robotics; Habitability design, including food and clothing; Human factors integration; Gravity regimes; Integration of life support systems within space habitats; Analogues, mockups, simulators, and field trials; Terrestrial applications to extreme environments and ground- ICES500: AIAA LS&S based facilities; Education for space architects; Space Architecture as a Life Science/Life Support Research Technologies discipline; Sustainability from space to Earth. This session emphasizes research technologies to support space biology, habitation and life support system design. Life sciences-related hardware François Lévy, Synthesis International, developments, experiment designs, and flight experiment results for manned [email protected] spaceflight, unmanned systems such as free flying platforms and planetary Donald Barker, S&K Global Technologies, spacecraft, and terrestrial analogs will be presented. [email protected] Sandra Haeuplik-Meusburger, Vienna University of Technology, Bob Morrow, Sierra Nevada Corporation (SNC), [email protected] [email protected] Georgi Petrov, Synthesis International, John Wetzel, Sierra Nevada Corporation (SNC), [email protected] [email protected]
ICES503: AIAA LS&S Radiation Issues for Space Flight This session addresses major issues in space radiation and analysis, ICES501: AIAA LS&S tools, and research that are being developed and applied to support Life Support Systems Engineering and Analysis the space exploration initiative to insure astronaut and avionics This session addresses life support for future crewed space missions, radiation protection and safety. including defining systems architecture and selecting technology options. Life support systems engineering and analysis should help guide overall design and selection, development, and integration of technologies to Bill Atwell, The Boeing Company (retired), produce complete systems. [email protected] Lawrence Townsend, University of Tennessee, Harry Jones, NASA Ames Research Center, [email protected] [email protected] John Hogan, NASA Ames Research Center, ICES504: AIAA LS&S [email protected] Management of Air Quality in Sealed Environments Jeffrey Lee, NASA Ames Research Center, This session enables experts who manage submarine, [email protected] spacecraft, and airliner air quality to share new research findings Andrew Owens, Massachusetts Institute of Technology, on the control of air pollutants in these sealed or semi-sealed envi- [email protected] ronments to include air quality standards, hazards associated with specific compounds, and monitoring of those compounds to pro- tect the health of crew and passengers.
Tina Goodall, UK Ministry of Defence, [email protected] Thomas Limero, KBRwyle, [email protected]
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ICES506: AIAA LS&S ICES509: AIAA LS&S Human Exploration Beyond Low Earth Orbit: Fire Safety in Spacecraft and Enclosed Habitats Missions and Technologies This session covers all aspects of fire safety in closed environments There are many potential destinations for human exploration beyond including prevention, detection, and suppression. Relevant subjects Low Earth Orbit (LEO), each with specific mission requirements, include material controls for fire prevention; fire suppression; fire capabilities, and other attributes that may be common or unique. detection; fire signatures and toxicity; post-fire cleanup; risk This session addresses mission designs, technology needs, vehicle assessment; material selection; fire related combustion research; systems and analyses for sending humans to destinations beyond lessons learned and design status of current systems; and life support LEO and into deep space. Discussions involving Deep Space and control system designs to enable fire detection and suppression. Gateway and Mars Transport are of great interest, but other Applicable environments include EVA suits; past, present, and missions to cislunar space and surfaces of the Moon and Mars future space transportation vehicles; different gravitational levels; are relevant. Potential subjects include mission requirements, extraterrestrial habitats; aircraft; ships; and submarines. concepts, architectures, technology development needs, technology requirements, challenges, gaps and candidate system designs. Special Grunde Jomaas, University of Edinburgh, attention will be given to Environmental Control and Life Support [email protected] Systems (ECLSS), habitability, architectures, concepts of operation, Gary A. Ruff, NASA Glenn Research Center, trade studies, unique environmental considerations and planetary [email protected] protection. David Urban, NASA Glenn Research Center, [email protected] Dan Barta, NASA Johnson Space Center, Stephen Peralta, NASA White Sands Test Facility, [email protected] [email protected] James Chartres, Millennium Engineering & Integration (MEI), [email protected] ICES510: AIAA LS&S Planetary and Spacecraft Dust Properties and ICES508: AIAA LS&S Mitigation Technologies Cost Considerations for Space Life Support Systems This session focuses on the properties of planetary and asteroid This session focuses on understanding, estimating, and reducing surface dust linked to environment description, within vehicles the cost of human space missions, especially Environmental and external to spacecraft in flight or landed and on mitigation Control and Life Support Systems (ECLSS). Papers are sought that technologies for internally generated dust and externally brought address cost metrics such as launch mass, Equivalent System Mass from planetary medium. The effects of dust will pose significant (ESM), and Life Cycle Cost (LCC) as well as actual costs of systems. challenges to space operations for crewed and robotic missions. Methodologically oriented papers with improved ways of calculating Papers are solicited on environmental concerns and on mitigation LCC as a reflection of total space mission cost, as well as specific case strategies for life support systems and dust encountered in planetary studies for costing of future missions in Earth orbit, cis-lunar space, surface environments. Mitigation strategies may involve cleaning and and beyond are encouraged. repelling approaches for the protection and nominal performance of susceptible hardware, and the capture and filtration of airborne dust Harry Jones, NASA Ames Research Center, that may enter the pressurized volumes of spacecraft and habitats. [email protected] Characterization and measurements of lunar, Martian, asteroid or Andrew Owens, Massachusetts Institute of Technology, internally generated dust properties that provide engineering data [email protected] for the development of mitigation technologies are also of interest. Olivier de Weck, Massachusetts Institute of Technology, Marie-Christine Desjean, CNES, [email protected] [email protected] Juan H. Agui, NASA Glenn Research Center, [email protected]
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ICES511: AIAA LS&S ICES513: AIAA LS&S Reliability for Space Based Systems Computational Modeling for Human Health and is session covers testing and analysis for system reliability and Performance Analysis maintainability. Relevant subjects include verification and validation, This session covers practical application of computational modeling risk assessment, accelerated life testing and aging, environmental (deterministic and probabilistic) for analysis of screening, acceptance testing, and qualification testing. Special human health and performance risks, and countermeasure attention is given to failure modes and mechanisms associated with development. Discussion areas include modeling and electronic devices, mechanical assemblies, chemical processing, and simulation of physiologic, biomechanical and behavioral life sciences. responses to reduced gravity, radiation, spacecraft environment, planetary environment, extravehicular activity, crew Todd H. Treichel, Sierra Nevada Corporation dynamics, ergonomics, work-load, and countermeasure [email protected] prescriptions (exercise and non-exercise). Gregory L. Davis, NASA Jet Propulsion Laboratory [email protected] Claas Olthoff, Technical University of Munich, [email protected] Jonas Schnaitmann, Technical University of Munich, [email protected]
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