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Grasping the In-orbit Servicing Opportunity Mar 27th, 2018 by Carolyn Belle, NSR
As the space industry
looks towards a future built on diverse and resilient architectures,
rapidly evolving demand, fast technology development, and multifaceted
economic activity in-orbit and beyond, servicing spacecraft is a key
capability to bring along for the ride. Applications envisioned have the
potential to both ease historic pain points for satellite operators and
open new possibilities to the space industry, delivering value at
multiple places in the chain and making in-orbit servicing (IoS) an
opportunity to be grasped.
Recent high-profile
announcements highlight the race to deliver multiple capabilities to a
market primed for fresh solutions. This month Orbital ATK announced the
expansion of their MEV service to include two additional components,
paving the way for more complex robotic services down the line. ESA
likewise shifted gears on its planned e.Deorbit mission, prioritizing
development of robotic arm capabilities for satellite servicing over the
initial focus on R&D of net technology for debris removal. SIS and
Effective Space Solutions, alongside a handful of LEO operators,
maintain robotic capabilities as a key component of their initial
services or product roadmap.
The market is nascent,
but offers diversity and looks quite promising: NSR’s In-Orbit Servicing
Markets report forecasts revenue from servicing contracts to generate a
cumulative $3B by 2027, growing at a 62% CAGR from start of operations
in 2019. Life Extension is the
most widespread market and will be the bread and butter of IoS providers
in the near term. With 240 satellites reaching EOL in the next decade
and an estimated 90 as candidates for servicing, the addressable market
already exceeds near-term supply. As commercial operators continue to
struggle with declining capacity prices and uncertain growth in
revenues, if IoS providers can hit the right price point the appeal of
deferring or reducing CAPEX and decision making will drive an average of
9 life extension missions per year.
While Life Extension
drives demand, Salvage drives revenue: with only 9% of total market
demand, salvage is expected to generate up to 32% of revenue. Salvage of
a satellite following maldeployment by the launch vehicle or other
inability to reach the operating orbit presents the most opportunistic,
but most compelling, value proposition for IoS. With the satellite
operator and insurer otherwise facing a full satellite loss (+ 3-year
delay for a replacement) and payout, IoS providers will be able to
charge a premium to recover the asset. The Robotics market
demonstrates more long-term potential, expected to be slow to develop
since satellites in orbit today are not designed to be robotically
manipulated or augmented. Early use cases will be fixing mal-deployed
antennas and solar arrays, but as operators look to more flexible, next
generation satellite designs and space architectures enabled for such
manipulation, demand will diversify. As this dynamic evolves in the
2020s with new satellite orders, by the end of the decade the
addressable market and revenue will grow above the forecasted 13% share
for the intervening period to be a much more robust segment of the
market.
De-orbiting offers only
a limited revenue opportunity, attractive more for the incremental
business to keep IoS vehicles busy between other contracts than as a
business case of its own. Few operators will be interested in trading
OPEX for the couple months of station-keeping fuel that would otherwise
be used to place a satellite in the graveyard orbit. Onboard failures
that make orbit raising impossible, or delays in launching a replacement
satellite that obligate an operator to dip into the fuel reserve, will
drive occasional use of this service.
Bottom Line As the space industry
works to sustain profits and remain competitive in the evolving global
economy, innovative solutions that enable more flexible use of in-orbit
assets are increasingly appealing. The prospect of satellite servicing
offers value on multiple levels to operators and will only grow as more
complex capabilities are integrated into space architectures. While many
satellites in-orbit today will not be candidates for servicing, between
sustaining life extension contracts and opportunistic, high value
salvage contracts, there is a solid near-term market opportunity for
emerging IoS providers to grasp.
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