CASE STUDIES: ENTREPRENEURSHIP ON THE ISS · 2014. 7. 21. · 31 GOALS • USE ISS AS AN ......
Transcript of CASE STUDIES: ENTREPRENEURSHIP ON THE ISS · 2014. 7. 21. · 31 GOALS • USE ISS AS AN ......
D-Orbit – Luca Rossettini, Founder
Benevolent Technologies – Jeremy Jo, Director of Product
Engineering & Development
Kentucky Space/Space Tango– Kris Kimel, President & Founder
Zero Gravity Solutions – Rich Godwin, CEO
HNu-Photonics – Dan O’Connell, CEO
Terminal Velocity Aerospace – Dominic DePasquale, CEO
CASE STUDIES:
ENTREPRENEURSHIP ON THE ISS
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D-SAT and Decommissioning Demonstration
Chicago, 19 June 2014
Dr. Luca Rossettini, CEO
COMPANY CONFIDENTIAL
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offers proprietary and independent
smart motors for satellites
to safely re-orbit them
at the end-of-life,
eliminating end-of-life effort and pain,
increasing lifetime of satellites
and revenues for space operators.
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ISS is the enabling factor to demonstrate the technology and create worldwide impact
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COMMERCIAL SPACE AT RISK
More than 6000 satellites are
orbiting around the Earth
Only few satellites are
decommissioned according to
international guidelines.
Avoidance maneuvers increase in
frequency;
Proper decommissioning wastes
an amount of onboard propellant
that would otherwise be used to
extend the satellite mission in
orbit;
Service life estimation and
decommissioning operations are
complex activities;
Monitoring dead satellites will soon
be another activity charged to
satellite operators.
Only 900 satellites are fully
operating. The others fly
uncontrolled at about 30,000 km/h,
at risk of collision with other
spacecrafts or falling down into our
planet.
The risk of collision in orbit is
increasing exponentially (doubled
in the last 3 years).
IMPACT ON OPERATORS
LESS PROPELLANT = LESS REVENUES
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Stop increasing the concentration
of defunct objects in space;
Make it economically viable; Remove the junk that is already there.
STRATEGY As of today, going into Space to clean space junk is neither economically convenient nor effective. High technological B$ spacecrafts’ theoretical target is to clean up to 10 satellites per year. Market demand foresees more than 100 new satellites per year (1200 in the next 8 years).
D-Orbit offers to satellite operators the most convenient solution to drastically reduce liabilities and costs and at the same time increase revenues.
BASIC SPACE STRATEGIC PRINCIPLES STEPS:
D-Orbit makes possible a clean and sound access to Space
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DECOMMISSIONING DEVICES
Safe, controlled and quick
decommissioning (few hours)
both for LEO and GEO satellites
Unique and patent pending smart
propulsive device, easy to install
before launch
Independent from the
satellite, it may works even if
the satellite does not
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INDEPENDENT
CHEAP & COMPACT
EASY INTEGRATION
END-OF-LIFE / DEFUNCT
SAFE REENTRY AREA
QUICK RE-ORBIT
EASY RE-ORBITING
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Strong master PATENT
covering the use
of decommissioning device in space
and all its sub-units
In January 2014 D-Orbit patent application was filed in 11 countries worldwide
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ADVANTAGES for Operators
Zero impact costs
Controlled re-orbit
Backup thruster
Increased mission time
* C. Wiedemann, “Analyzing costs of space debris mitigation methods” and K.K. Galabova, MIT, “Economic case for the retirement of geosynchronous communication satellites via space tugs”
Stress-free decommissioning
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“Thus, operators can extract full useful life
from their satellite and still be able to safely
“clean up their mess” at the end.
The D-Orbit solution is clean, simple and
relatively inexpensive. For a commercial
operator its cost would likely be offset by
reduction of liability insurance premiums.”
Dr. Edward Cornet, former Booz Allen Hamilton partner
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RECENT COMMERCIAL MILESTONES
May 2014
by one of the two biggest satellite operators worldwide
“[…] The parties express their wish, and share their interest, for assessing the possibility of integrating a d-Orbit device in satellite platform(s) to perform end of life re-orbiting. Both parties may convene on mutually-agreed milestones aimed at reaching intermediate critical design reviews with the aim to be able to have a d-Orbit device available by the end of 2015 such that it can be assessed against the
other available re-orbiting techniques. […]”
FIRST LETTER OF INTENT
by one of the biggest satellite manufacturer worldwide
FIRST COOPERATION AGREEMENT
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CUSTOMERS
LAUNCHERS (confirmed) OPERATORS
Sat/y Up to Confirmed INTELSAT 2 2020 yes SES 2.5 2020 yes EUTELSAT 2 2020 yes INMARSAT 1.5 2018 yes TELESAT 1 2018 no SKY PERFECT JSAT 1 2020 no
Heavy 2015
Medium 2015
Small 2015
Atlas 5 5 Delta 2 0 Dnepr 3 Delta 4 3 Falcon 9 12 Rockot 0
H-II 3 Taurus 2 3 Falcon 1 0 Long
March 3 3 Cyclone 3 PSLV 6 Proton 3 Long March 2 3 Minotaur Zenit 2 Long March 4 3 Taurus
Ariane 5 11 GSLV 1 Pegasus
WE HAVE IDENTIFIED 10 POTENTIAL PROGRAMS (SAT + LAUNCHERS) THAT WILL BEGIN BEFORE 2016. WE PLAN TO GET INTO 3+ OF THEM.
20 TO COME: compulsory back-up system for decommissioning (source: IADC)
Today: You break it, you own it! Launching state (and consequently satellite owner) is liable for any damage produced by a satellite, dead or alive.
IADC (international committee) guidelines force EVERY satellite to be decommissioned at end-of-life
TODAY ALMOST ALL THE NATIONS WITH ACCESS TO SPACE HAVE A NATIONAL LEGAL FRAMEWORK FOR SPACE DEBRIS MITIGATION
OR APPLY INTERNATIONAL GUIDELINES BY CONTRACT
REGULATIONS: UPDATE
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MILESTONES
AND CURRENT
ACTIVITIES
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D-ORBIT ROADMAP
D-Orbit established
D-Orbit demonstrator
Test on ground Launch
qualification Validation in
space
Demonstration in orbit
Technology
qualification
Letter
of intent Contract Revenues
2013 2012 2011
2014 2015 - 2016
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THE DEMONSTRATOR D-Orbit demonstrator was successfully bench tested in January 2012.
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ELECTRONIC UNIT AND SIU QUALIFICATION D-Orbit electronic unit and SIU was successfully launch qualified in August 2013.
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21ST NOVEMBER 2013 • D-Orbit command and
control unit and safe ignition units were qualified for launch and sent in space for final validation.
• Launch happened at 7am from Yasni base, Russia.
• Launch was successful, all satellites correctly positioned in orbit.
• All satellite’s systems nominal.
• Next: test and validation in orbit.
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FIRST SATELLITE
REMOVED
IN A QUICK, SAFE
AND
CONTROLLED
MANNER
DECOMMISSIONING DEMONSTRATION
D-SAT
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Decommissioning time 24 min
Nominal altitude. Up to 600km 450 km
Released by ISS into space ISS
Disposal area 12N 65E
D-SAT IN NUMBERS
Impact probability 0.00000001%
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Radio Experiment: Alert message
Real time trajectory and impact location
Decommissioning Device
Safe and Arm Device
D-Orbit Motor
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Manoeuver
Atmospheric Entry
Disposal Area
Ground Station B
Tracking Capability
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GOALS
• USE ISS AS AN ENABLING PLATFORM FOR TESTING INNOVATIVE
TECHNOLOGY AT HIGH SOCIAL AND ECONOMIC IMPACT
• ACCELERATE THE ADOPTION OF THE TECHNOLOGY
• CREATE WORLDWIDE AWARENESS ON SPACE SEGMENT BENEFITS AND
SPACE DEBRIS THREAT
• CLEAN AND SAFE ACCESS TO SPACE DELIVERING BENEFITS AND
LOWERING COSTS
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OUR RESPONSIBILITY
Every profitable choice should be sustainable.
Every responsibility should take care of who we care most.
Clean and Safe Access to Space is our responsibility.
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www.deorbitaldevices.com
Headquarters: Milano, Via Mazzini 2, 20123 ITALY
Operating Office: ComoNext Technology Park, Via Cavour 2, 22074 Lomazzo (CO) – ITALY – Tel: +39 3671 4010
Administrative Office: Sesto Fiorentino (FI), Via Madonna del Piano 6, 50019 – ITALY - Tel: +39 055 457 4666
D-ORBIT INC. – Simi Valley, CA 93062, USA - Tel.: +1 (805) 304 9567
Email: [email protected]
Contact person:
Luca Rossettini, CEO Tel US: +1 (415) 684-3673 / +1 (805)-304-0363
Tel Europe: +39 340 760 7035 / +39 02 3671 4010 Email: [email protected]
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D-ORBIT’S DEVICES STANDARDS COMPLIANCE ECSS-E-ST-10-03C Testing
ECSS-E-ST-10-04C Space environment
ECSS-E-ST-10-12C Radiation
ECSS-E-ST-20 C Electrical & Electronic
ECSS-E-ST-20-07C Rev1 Electromagnetic
ECSS-E-ST-33-11C Explosive systems
ECSS-E-ST-40 C Software
ECSS-E-ST-10 C Product Assurance
ECSS-E-ST-20C Rev1 Quality Assurance
ECSS-E-ST-30-11C Rev.1 EEE components
ECSS-E-ST-40 C Safety
ECSS-E-ST-60-13C Commercial electrical
MIL-STD-1576 Electroexplosive
SSP 51700 ISS Payload Safety
MIL-STD-1546 Part, materials, procs.
GSFC-STD-7000 General Environment
MIL-HDBK-271F Reliability Analysis
EWR – 127 – 1 Range Safety Reqs
DoD 6055.09-STD DoD Ammunition
NSTS 1700.7B Safety
D-Orbit is in the process of being EN/AS 9100 certificated:
Quality Management System for Aerospace Industry