reportedly covered from Diego Garcia. A further
complication is the ongoing deep maintenance
schedule for the RC-135S fleet. During 2016 and
2017, the third Cobra Ball – 62-4128 – underwent
overhaul and upgrade at L3 Aerospace Systems
in Greenville, Texas. Even with its return to
service late last year, maintaining and deploying
the Cobra Ball fleet is a constant juggling act.
The nuclear tests
North Korea has conducted six atomic
detonations at its Punggye-ri nuclear test site,
the first on October 9, 2006 and the most
recent on September 3 last year. Surprisingly,
there is a lesser sense of urgency in having the
WC-135 Constant Phoenix assets in place for
each test than the need for the Cobra Ball to
observe the missile launch. This is because
the WC-135 collects particulate matter released
into the atmosphere during a nuclear test, even
when it is conducted underground. Moreover,
the ‘atomic debris’ plume is dispersed by
prevailing winds, allowing the Constant Phoenix
to collect material hundreds – even thousands –
of miles away from Punggye-ri for days – even
weeks – after the explosion. (For the 2009
test, the DPRK warned officials in Beijing and
Washington DC approximately one hour before
the actual detonation. It is not clear if this
‘courtesy’ has been extended to other tests.)
The much-hyped North Korean plan to close
part of the Punggye-ri test site has not eliminated
the need for future Constant Phoenix missions.
In the best case, the WC-135s can detect leaks
of radioactivity from the collapsed tunnels,
endangering downwind populations. In the
worst case, they can detect any North Korean
deviance from claims of abstention from nuclear
testing or the production of highly enriched
uranium and other nuclear components.
Information collected by WC-135s is critical
to understanding the technical nature of each
explosion and contributes to determining
yield and sophistication of the device. For
example, immediate analysis by officials in
South Korea, Japan and China raised doubts
about the nature of the February 12, 2013 blast
because they could not detect radionuclides,
suggesting that it was merely a conventional
explosion that mimicked the seismic signature
of an atomic detonation. WC-135W 61-2667
was airborne from Kadena AB the next day,
with follow-up sampling two weeks later by
WC-135C 62-3582. These collected the
trademark radioactive ‘signatures’ which, in
conjunction with other methods and sources,
verified that an atomic detonation had in fact
taken place. Similar missions by 62-3582 on
September 13, 2016 and again on September
28 collected samples following the fifth atomic
test on September 9. The WC-135C is also
known to have flown sampling missions on
September 11, September 20 and September
24 after the sixth test on September 3 last
year of a ‘thermonuclear hydrogen bomb’.
Despite the genuinely heroic efforts of 55th
Wing maintenance personnel, the two Constant
Phoenix jets have one of the worst maintenance
records in the USAF. These aircraft were not
reconfigured with F108 (CFM56) engines and
retain their original TF33-P-5 engines. On March
24 last year, while on a flight from Diego Garcia
to Kadena, WC-135C 63-3582 experienced a
fire in its number 4 engine and loss of its right-
side hydraulic system, forcing it to land at Sultan
Iskandar Muda airport in Banda Aceh, Indonesia.
By April 13 the aircraft had been repaired and
continued to Kadena. At the time, WC-135W
61-2667 had been undergoing programmed
depot maintenance since 2016 and was not
available to replace the broken WC-135C. When
61-2667 finally returned to service in the middle
of last year, it was substantially damaged by
a tornado while parked in a hangar at Offutt
on June 16. Repairs to 61-2667 delayed its
resumption of global sampling operations.
Mixed implications
The proposed 2019 US defence budget
includes funds to modify four KC-135Rs into
a pair of Constant Phoenix samplers and
two Open Skies aircraft, but it is unclear if
these will come from the operational fleet or
from storage. More ominously, there are no
plans to replace the 57-year-old Cobra Ball
aircraft until at least 2032 – after 71 years of
operations! Any considerations to do so are held
hostage by protracted debates over manned
versus unmanned strategic reconnaissance
assets, aircraft size, and stealthy versus
non-stealthy airframes operating in highly
contested airspace. Such debates, while
crucial to defining long-term service goals,
offer little immediate hope to replace collection
platforms that provide ongoing intelligence
about the status of missile programmes under
way by North Korea and other nations.
Acknowledgements:
The author wishes to express thanks for
the gracious assistance of Dr Jeffrey Lewis
and Shea Cotton of the James Martin
Center for Nonproliferation Studies.
http://www.airforcesmonthly.com #364 JULY 2018 // 55
55th Wing reconnaissance ’135s
Rivet Joint (RJ) RC-135V/W
Aircraft Serial
RJ 1 64-14848
RJ 2 64-14842
RJ 3 64-14843
RJ 4 64-14844
RJ 5 64-14845
RJ 6 64-14846
RJ 7 64-14841
RJ 8 63-9792
RJ 9 62-4135
RJ 10 62-4131
RJ 11 62-4138
RJ 12 62-4134
RJ 13 62-4132
RJ 14 62-4139
RJ 15 62-4125
RJ 16 62-4130
RJ 17 62-4126
Cobra Ball (CB) RC-135S
Aircraft Serial
CB 1 61-2663
CB 3 61-2662
CB 4 61-4128
Constant Phoenix (CP) WC-135C/W
Aircraft Serial
WC-135W 61-2667
WC-135C 62-3582
Combat Sent (CS) RC-135U
Aircraft Serial
CS 1 64-14847
CS 2 64-14849
AFM
Above: WC-135C 62-3582 of the 45th
Reconnaissance Squadron, 55th Wing based at
Offutt AFB, Nebraska, touches down at Kadena.
This aircraft fl ew sampling missions following
North Korea’s test of a ‘thermonuclear hydrogen
bomb’ on September 3 last year. Author’s collection
Above: James Martin Center for Nonproliferation Studies