From November 18, 2017 to December 1, 2018 Submarine Matters reported many aspects of the loss of the Argentine submarine ARA San Juan. San Juan remains lost without a trace, even though several countries continue to look for it.
On January 30, 2017 International Business Times reported :
" The ARA San Juan was “’limited’ in its operational depth at 100 meters...because at greater depth [it] could not ‘guarantee its watertightness’, according to the document" [the document may be from the Comprehensive-Nuclear-Test-Ban-Treaty-Organization (CTBTO) or US Naval Intelligence (?)]
The new internal document may be able to shed light on what happened to the ARA San Juan. Officials still had not determined the cause of the submarine’s disappearance, though a report released in January by SaveTheRoyalNavy(dot)org said it was likely that all crew on board died from an explosion on the vessel.
An acoustic signal was detected the day the submarine disappeared that authorities said was consistent with the sound of an implosion of pressure inside the ship at a depth of 388 meters... The report stated the explosion was equivalent to 5,669 kilograms of TNT which would have destroyed the hull in 40 milliseconds." [this is according to a CTBTO and/or US Naval Intelligence report]
COMMENT
By setting a safe operating depth of 100 meters the Argentine naval authorities must have decided that San Juan had a severely weakened pressure hull. Only a 100 meter safe operating depth is surprisingly shallow. Even German Type XXI submarines built in 1943 had "Test" (ie. operating) depths of 240 meters (see sidebar). A weak pressure hull may be due to one or several factors including:
- age (San Juan was completed 35 years ago in 1983). A 25 to 30 year operating life for a well
maintained submarine is considered standard.
- age in conjunction with too many deep immersion cycles (repeated deep diving, then surfacing
gradually causes metal fatigue in the pressure hull over a number of years).
- the Argentine Navy is notorious for poor maintenance
- extensive and/or improper hull cutting for engine maintenance (cutting or welding pressure hulls
weakens them) and/or
- too much rust and saltwater corrosion of the pressure hull shell and of strengtheners.
In general the newer the submarine the stronger its steel alloy pressure hull and the deeper it can safely dive (see here and here). Titanium alloy permits much deeper diving (eg. Russian Alfa class submarines) but titanium is more expensive to process, weld, use in construction and repair.
Pete
The misadventures of AUKUS robot AlboGov never cease. I publish on subs, other naval, nuclear weapons & broad political issues. Aussie sub changes are glacial: talk rather than actual new subs. The 1st Collins LOTE may secretly concern the US Combat System & be ready 2029. Trump may decide to cancel the AUKUS Virginia offer due to USN advice it needs all operational SSNs right through to the 2040s. My colleagues Shawn C and Gessler are excellent writers. Pete.
January 31, 2018
January 30, 2018
China's January 11, 2018, Type 093 Submarine Incursion A SIGINT Probe?
Comments here by "PUNTER" and others, has prompted me to revisit the January
11. 2018 incursion of a (probably) Chinese
Type 093 SSN into the Japanese claimed “Senkaku” islands-sea area. The incursion appears
to be a:
- Chinese politico-strategic
demonstration that China also claims those islands-waters,
- a
reconnaissance-intelligence exercise to test the efficiency of Japanese and
probably America
ASW fixed and mobile sensors, OR
- a miscalculation by China's Navy (PLA-N) that its 093 could carry out a mission undetected by
Japanese (and possibly US) sensors.
- a miscalculation by China's Navy (PLA-N) that its 093 could carry out a mission undetected by
Japanese (and possibly US) sensors.
The Chinese
exercise would allow China to “trace”
or “track” predictable responses by Japan’s intelligence agencies and
politico-military chain of command the exercise could yield some decoded SIGINT benefits and undecoded traffic analysis analytical benefits.
The incursion by the 093 and a Chinese Type 054/054A Frigate was beneficial to Chinese electronic interception as it attracted Japanese MPAs and surface craft. If a Japanese submarine was also sent then Chinese tracking of it would be an even greater intelligence prize.
BACKGROUND
Two Type 093s, were built in the 2000s, and at least 2 or 3 more improved (could be called Type 093As) were commissioned in 2016. The Type 093A reputedly have vertical launch YJ-18 supersonic anti-ship cruise missiles and may be as stealthy as unimproved US Los Angeles class SSN-688s) and much quieter than China’s first and noisy Type 091 SSNs.
Side view of a Chinese Type 093. Note old fashioned (maybe 1990-2009 design) cruciform rudder,
instead of modern x-plane rudder. See much larger.
---
The January 11, 2018, Type 093 forced to surface or it surfaced to show the Chinese flag. Note that the cruciform rudder may indicate that the Type 093 might have only have been "old style" "unimproved?" (Mark. 1(?)) build in the 2000s (Photo via Kyodo News).
---
For security and deception China has variously called the Type 093 (or allowed it to be called) "unimproved [2000s build]" "improved [2016 build], plain 093, 093A, 093B and 093G. "Shang" is a NATO reporting name. What the 5 Type 093s are called seems to rely more on what the non-Chinese observers decide to call it rather than usually secret Chinese designations.
FURTHER THEORIES ON THE MISSION
The Type 093 perhaps entered the Miyako-jima (island) part of the Senkakus:
- without an expectation of detection, or
- to see how
close it could get to Japan’s seafloor SOSUS array or Japan's Integrated Undersea
Surveillance System (IUSS) (here's the US IUSS) which is SOSUS + many additional
sensor
platforms). The map below may be the US-Japanese SOSUS-IUSS.
platforms). The map below may be the US-Japanese SOSUS-IUSS.
This method of gauging the sensitivity of Japanese and US sensors is very useful to China. Also ease or
difficulty of detection would assist China in indicating how many additional
stealth improvements or efforts with existing stealth features are required.
If, it is an old Type 093 then China may wish to deceive Japan-US into conclusions that the submarine “could be too easy to detect”
I
would conclude “there
is not enough information to back up [the easy to detect] theory”.
Better
to be a bit pessimistic in intelligence assessments than too optimistic.
“Map 4. The US ‘Fish Hook’ Undersea Defense Line” in Desmond Ball and Richard Tanter, The Tools of Owatatsumi Japan’s Ocean Surveillance and Coastal Defence Capabilities (2015, ANU Press) page 54. The map may depict past or current locations of the eastern Asia - inner western Pacific SOSUS-IUSS seafloor array.
---
Pete
January 26, 2018
French Mini-Sub Likely to be used for Australia's Future Submarine
French Special Forces-External Intelligence Directorate (DGSE) "Propulseur Sous-Marins 3rd Generation (PSM3G) for fitting on top of French Barracuda-Suffren Class SSNs and Australian Future Subs (SSKs). (Diagram and further background courtesy H. I. Sutton's Covert Shores).
---
"PARIS ― The head of France’s special forces has presented a wish list to lawmakers that includes a modified NH90 helicopter and a mini-submarine to complement the Barracuda nuclear attack submarine."
"Mini-submarine
Naval special forces are “waiting impatiently for entry into
service of the PSM3G in 2018,” he noted. That is a third-generation, propelled
mini-submarine that would work in conjunction with the Barracuda submarine.
That mini-sub would work with the Mistral projection and
command ship as an interim measure, he said. “The PSM3G is a rare and
immediately available capability effective against the famous ‘area-denial’
threat — the special forces have to be able to get close to an enemy coast to
call in a strike,” he said.
The mini-submarine is a relatively large unit, capable of
being launched from the Barracuda while submerged, he explained. “They are
undetected from departure to return from the mission; that is, to say, an
intelligence-gathering mission without being seen, without a signature, without
particular risk and with an impressive efficiency,” he said.
The particularly high-performing mini-submarine, according
to Isnard, would be fully autonomous, run on battery power and have a
navigation system.
...[also significant] The Suffren, the first-of-class Barracuda boat, [laid down 2007!] is due for
delivery in 2019 - a year late."
Penske MTU 4000 competition to Kawasaki Diesel for Submarine - PART FOUR
Against my preference for Kawasaki diesels (see PART THREE) sourced through Naval
Group’s European partner, MAN, is MTU/Penske/ASC’s promotion of the MTU 4000
for Australia’s future submarine.
“Australia’s sovereign submarine company, ASC, and Penske Power Systems have announced their intention to enter into an agreement to put MTU engines through their paces at ASC’s engine test facilities in Adelaide as part of an ongoing research and development activity.”
On September 9, 2017 Penske was more specific, reporting:
“In a world first, Penske Power Systems will unveil the much anticipated MTU 12V4000U83 submarine engine at Pacific 2017 on [October 3, 2017].
This will be the global reveal of MTU’s next generation of submarine charging unit engines, suitable for projects such as the upgrade of the current Collins class and inclusion within the Australian future submarine.
With a well proven pedigree, the 12V4000U83 boasts greater power ([only] up to 1,500 kW) than its 16V396SE84 predecessor while being IMO
Tier II compliant and compact.”
COMMENT
With only an output of 1.5MW 12V4000U83 diesels fall short of
the 2MW required in a 8MW total, 4 diesel arrangement for the Australian Future
Submarine. The option of further developed more powerful MTU diesels may deserve
consideration - though this is risky.
An unhelpfully blurry MTU diesel chart, with the very narrow power range MTU 4000 for submarine 3rd from bottom. See chart a little larger and clearer here http://www.mtu-online.com/mtu/applications/marine-defense/?L=eyeusejkvzrfvkp .
---
In a January 6, 2018 comment
MHalblaub suggests MTU 4000 diesels for submarine more
powerful with more cylinders than the current with MTU 4000 12V (2185mm Height x 1850mm Width x 2870mm Length (without
gearbox).
Those
larger maybe 2MW, more cylinder, MTU 4000s are:
- 16 V:
2185 x 1850 x 3510 or
- 20 V:
2240 x 1470 x 4040
But there may be risks of developing specially Australia
Only (therefore potentially orphan) MTU diesels for submarine. The precedent of selecting untried Garden Island-Hedemora V18B14SUBs (with turbocharger) for the Collins submarines should be remembered. The most unique, orphan part of the Garden Island- Hedemora
V18B14SUB was the turbocharger, the precursor to over reliance on Australian
technical solutions and exorbitant maintenance rather than relying on a large
industrial development base like Kawasaki, MAN or MTU 12V4000s.
Additional issues are unstealthy
vibration from diesels causing excessive noise as n the Hedemora
V18B14SUB [source?].
High power Kawasaki diesels already used on Japanese submarines may be a less risky and more efficient choice.
Pete
January 25, 2018
Translation of Japanese J-Ships Article which uses Submarine Matters Articles
Tanaka (in a comment here) has kindly translated (from Japanese to English) an article by Isaku Okabe (a popular Japanese military critic) in the J-Ships February 2018 issue. J-Ships is a popular Japanese maritime magazine.
Isaku Okabe's article concerns the Soryu Mk.2's improved, more stealthy, snorting/snorkeling performance. The information on the Soryu Mk.2 performance is based on Submarine Matters' articles written by Anonymous and Pete ( here, here and here and especially here, here and here ) .
Tanaka's Translation [with some further Pete translation] is:
"THE INCREASING CAPABILITY OF STEALTH CRUISING THANKS TO THE LONGER UNDERWATER DURATION".
"There are some estimations of performance comparison between [the current] Soryu class [Mk. 1] and [submarine number] 27SS [see TABLE below] in a blog [Submarine Matters] written by a foreigner [ :) ] who is familiar with submarine matters.
In the blog, 27SS is called "Soryu Mk.2" and its maximum period of continuous [fully submerged] cruising at a speed of 4 knots is estimated to be 7~9 days compared to that of Soryu's 3~3.5days.
The blog says the general period of continuous [Soryu Mk.2] fully submerged cruising will increase to 6~8 days though the current Soryu class can cruise only 1~1.5 days.
The so called "Soryu Mk.2" will be able to conduct secret patrols without snorting for a much longer time. In regard to cruising at a speed of 18 knots, "Soryu Mk.2" will be able to do it continuously for 3~4 hours which is 3~4 times longer than current Soryu's.
The time required for charging batteries for the current Soryu Mk. 1 is estimated to be 5~10 hours, whereas the "Soryu Mk.2" needs just 1~2 hours, which makes the latter much more stealthy.
Supposing the mission period is 60 days, the "Soryu Mk.2" [needs to snort] 8~10 times compared to 40~60 times for the Soryu Mk.1. Snorting [with loud diesels running] reduces stealthiness - so a submarine needs to move out of its operational area to be safe.
[Lithium-ion Batteries (LIBs)] can reduce the number and length of snorting times which increases the stealthy operational time. This results in much more efficient use of submarines.
It goes without saying that these are estimations by a foreigner [ but kindly provided by Anonymous ] and no one knows if they are correct or not. But at least they can be good indicators to infer the progress of submarines using LIBs [rather than shorter operating Lead-acid Batteries (LABs)] .
Converting from [the Soryu Mk.1's] AIP + LABs to [the Soryu Mk.2's] LIBs is not as simple as just changing the type of batteries. Many parts of the submarine need to be modified such as whole power system and safety management system for the realistic and safe use of LIBs.
The 11th [27SS] and 12th [28SS] Soryu class submarines, which correspond to what the foreigner calls "Soryu Mk.2", will undergo major battery-electrical system conversions but not other major changes. Soryu Mk.2's hulls, weapons, sensors and control systems remain almost the same as current Soryu class." [The author, Okabe, did not mention the major change to the more powerful, storm tolerant, snorkel system. Maybe that will be introduced on the Soryu Mk.3?].
TABLE - SORYU & Oyashio Program as at January 25, 2018
Isaku Okabe's article concerns the Soryu Mk.2's improved, more stealthy, snorting/snorkeling performance. The information on the Soryu Mk.2 performance is based on Submarine Matters' articles written by Anonymous and Pete ( here, here and here and especially here, here and here ) .
Tanaka's Translation [with some further Pete translation] is:
"THE INCREASING CAPABILITY OF STEALTH CRUISING THANKS TO THE LONGER UNDERWATER DURATION".
"There are some estimations of performance comparison between [the current] Soryu class [Mk. 1] and [submarine number] 27SS [see TABLE below] in a blog [Submarine Matters] written by a foreigner [ :) ] who is familiar with submarine matters.
In the blog, 27SS is called "Soryu Mk.2" and its maximum period of continuous [fully submerged] cruising at a speed of 4 knots is estimated to be 7~9 days compared to that of Soryu's 3~3.5days.
The blog says the general period of continuous [Soryu Mk.2] fully submerged cruising will increase to 6~8 days though the current Soryu class can cruise only 1~1.5 days.
The so called "Soryu Mk.2" will be able to conduct secret patrols without snorting for a much longer time. In regard to cruising at a speed of 18 knots, "Soryu Mk.2" will be able to do it continuously for 3~4 hours which is 3~4 times longer than current Soryu's.
The time required for charging batteries for the current Soryu Mk. 1 is estimated to be 5~10 hours, whereas the "Soryu Mk.2" needs just 1~2 hours, which makes the latter much more stealthy.
Supposing the mission period is 60 days, the "Soryu Mk.2" [needs to snort] 8~10 times compared to 40~60 times for the Soryu Mk.1. Snorting [with loud diesels running] reduces stealthiness - so a submarine needs to move out of its operational area to be safe.
[Lithium-ion Batteries (LIBs)] can reduce the number and length of snorting times which increases the stealthy operational time. This results in much more efficient use of submarines.
It goes without saying that these are estimations by a foreigner [ but kindly provided by Anonymous ] and no one knows if they are correct or not. But at least they can be good indicators to infer the progress of submarines using LIBs [rather than shorter operating Lead-acid Batteries (LABs)] .
Converting from [the Soryu Mk.1's] AIP + LABs to [the Soryu Mk.2's] LIBs is not as simple as just changing the type of batteries. Many parts of the submarine need to be modified such as whole power system and safety management system for the realistic and safe use of LIBs.
The 11th [27SS] and 12th [28SS] Soryu class submarines, which correspond to what the foreigner calls "Soryu Mk.2", will undergo major battery-electrical system conversions but not other major changes. Soryu Mk.2's hulls, weapons, sensors and control systems remain almost the same as current Soryu class." [The author, Okabe, did not mention the major change to the more powerful, storm tolerant, snorkel system. Maybe that will be introduced on the Soryu Mk.3?].
TABLE - SORYU & Oyashio Program as at January 25, 2018
SS
No.
|
Build No
Name
|
Pennant
No.
|
MoF approved amount ¥
Billions FY |
LABs, LIBs, AIP
|
Laid Down
|
Laun
-ched
|
Commi
ssioned |
Built
By
|
5SS Oyashio
|
8105 Oyashio
|
SS-590/ TS3608
|
¥52.2B FY1993
|
LABs only
|
Jan 1994
|
Oct 1996
|
Mar 1998
|
KHI
|
6SS-15SS
Oyashios
10 subs
|
8106
-8115
various
|
SS-591-600
|
¥52.2B per sub
FY1994-FY2003
|
LABs only
|
15SS Feb
2004
|
15SS
Nov
2006
|
15SS
Mar 2008
|
MHI
&
KHI
|
16SS
Soryu Mk 1
|
8116
Sōryū
|
SS-501
|
¥60B FY2004
|
LABs + AIP
|
Mar 2005
|
Dec 2007
|
Mar
2009
|
MHI
|
17SS
|
8117
Unryū
|
SS-502
|
¥58.7B FY2005
|
LABs + AIP
|
Mar 2006
|
Oct 2008
|
Mar
2010
|
KHI
|
18SS
|
8118
Hakuryū
|
SS-503
|
¥56.2 FY2006
|
LABs + AIP
|
Feb 2007
|
Oct 2009
|
Mar
2011
|
MHI
|
19SS
|
8119
Kenryū
|
SS-504
|
¥53B FY2007
|
LABs + AIP
|
Mar 2008
|
Nov 2010
|
Mar
2012
|
KHI
|
20SS
|
8120
Zuiryū
|
SS-505
|
¥51B FY2008
|
LABs + AIP
|
Mar 2009
|
Oct 2011
|
Mar
2013
|
MHI
|
No 21SS
|
No 21SS built
| |||||||
22SS
|
8121
Kokuryū
|
SS-506
|
¥52.8B FY2010
|
LABs + AIP
|
Jan 2011
|
Oct 2013
|
Mar
2015
|
KHI
|
23SS
|
8122
Jinryu
|
SS-507
|
¥54.6B FY2011
|
LABs + AIP
|
Feb 2012
|
Oct 2014
|
7 Mar 2016
|
MHI
|
24SS
|
8123
Sekiryū
|
SS-508
|
¥54.7B FY2012
|
LABs + AIP
|
KHI
| |||
25SS
|
8124
|
SS-509
|
¥53.1B FY2013
|
LABs + AIP
|
22 Oct 2013
|
12 Oct 2016
|
Mar? 2018
|
MHI
|
26SS
|
8125
Shoryu |
SS-510
|
LABs + AIP
|
2014
|
6 Nov 2017
|
Mar 2019?
|
KHI
| |
27SS First
Soryu Mk 2
|
8126
|
SS-511
|
LIBs only
|
2015
|
2018?
|
Mar
2020
|
MHI
| |
28SS Second
Soryu Mark 2
|
8127
|
SS-512
|
¥63.6B FY2016
|
LIBs only
|
2016?
|
2018?
|
Mar 2021?
|
KHI
|
29SS First Soryu Mk 3
(1) (3)
|
8128
|
?
|
¥76B FY2017
|
LIBs only
|
?
|
?
|
2023?
|
MHI?
|
30SS Second Soryu Mk 3 (2)
|
8029?
|
?
|
¥71.5B FY2018
|
LIBs only
|
?
|
?
|
2024?
|
KHI?
|
Table from information exclusively provided to Submarine Matters. LABs = lead-acid batteries, AIP = air independent propulsion, LIBs = lithium-ion batteries. ¥***B = Billion Yen. MHI = Mitsubishi Heavy Industries, KHI = Kawasaki Shipbuilding Corporation of Kawasaki Heavy Industries.
---
Tanaka, Anonymous and Pete
January 24, 2018
Australian Future Sub's Diesel Genset Requirements - PART THREE
The critical issues of providing sufficiently powerful and
reliable diesels for Australian future submarines are complex. Unreliable diesels and generators seem to have been the main weakness of the Collins.
Australia enthusiasm for selecting a Japanese submarine in the years up to 2016 relied heavily on an Australian assessment that the KAWASAKI 12V/25/25SB was the best high power submarine diesel available worldwide. The 12V25/25SB has been successfully used on Japanese subs since 2005 (see sidebar).
So far I think Naval Group should work through the MAN Diesel & Turbo SE (which owns SEMT Pielstick diesel builder) grouping to obtain the 12V/25/25SB diesels under licence. Or perhaps obtaining Kawasaki's newly developed 12V25/31S (to be installed in 29SS, to be laid down in 2018/19 - see TABLE) as this will gradually replace the 12V/25/25SB. This is noting MAN and Kawasaki are already closely associated on marine diesels.
Australia enthusiasm for selecting a Japanese submarine in the years up to 2016 relied heavily on an Australian assessment that the KAWASAKI 12V/25/25SB was the best high power submarine diesel available worldwide. The 12V25/25SB has been successfully used on Japanese subs since 2005 (see sidebar).
So far I think Naval Group should work through the MAN Diesel & Turbo SE (which owns SEMT Pielstick diesel builder) grouping to obtain the 12V/25/25SB diesels under licence. Or perhaps obtaining Kawasaki's newly developed 12V25/31S (to be installed in 29SS, to be laid down in 2018/19 - see TABLE) as this will gradually replace the 12V/25/25SB. This is noting MAN and Kawasaki are already closely associated on marine diesels.
As outlined in PART TWO diesels (around 1.4MW or less) for smaller European designed submarines are inadequate in power to meet Australian submarine needs. Four more powerful diesels (around 2MW each) are required. This would avoid the need for 6 “euro” diesels (an arrangement which would inefficiently stretch the Australian submarine's length and/or diameter.
On the need for four diesels submarine expert Hans J. Ohff, with much knowledge and many Adelaide and Canberra contacts, commented on Selection of Naval Group Day
(April 26, 2016) that:
"The [Australian future submarine] will be equipped with four diesel alternators to
generate electricity, a >7 megawatt permanent magnet motor and ample battery
storage."
A Kawasaki-MAN effort to introduce Kawasaki diesels for Australian use should preferably avoid major alterations, like an Australia Only turbocharger-supercharger system, due to technical/reliability risk.
Australian submarine diesels will not function in isolation. Other power
train components matter. In that vein it appears that Naval Group has already
selected Jeumont Electric as the official supplier of the generator pack
which includes manufacturing permanent-magnet synchronous motors and the
associated power electronics cabinets. Hence the diesel supplier will need to
work closely with Jeumont Electric on a business and technical level.
Pete
January 23, 2018
Tension Between Western Delegations on Evacuation of Foreign Nationals from S Korea
This is an interesting matter between Western military, diplomatic and security agencies. It is within the context of sensitivities around the 2018 Winter Olympics (also see).
These Olympics will be held in PyeongChang, South Korea from 9 to 25 February 2018. PyeongChang is a mountainous area of South Korea just 100 km south of the tense Demilitarized Zone (DMZ) with North Korea.
If any of North Korea's frequent nuclear/missile threats occurred in February this could wreck the usual good feelings of the Winter Olympics. Mass evacuations of foreign nationals is a possibility, however slight.
This deals with the sensitivies of:
1. promising North Korea that no military exercises will be held in South Korea prior to the February 2018 Winter Olympics in South Korea. Summary of a January 2018 Washington Post report: Trump and South Korean President Moon Jae-in have agreed to postpone the large annual Foal Eagle Exercise until after the Winter Olympics to reduce tensions with North Korea.
2. North Korea might decide to feel cheated that "secret" plans were reported in the Japanese media (below) in January 2018 concerning international preparations made in South Korea (SK) for evacuating foreign nationals in case of high tension or conflict with North Korea (NK).
These Olympics will be held in PyeongChang, South Korea from 9 to 25 February 2018. PyeongChang is a mountainous area of South Korea just 100 km south of the tense Demilitarized Zone (DMZ) with North Korea.
If any of North Korea's frequent nuclear/missile threats occurred in February this could wreck the usual good feelings of the Winter Olympics. Mass evacuations of foreign nationals is a possibility, however slight.
This deals with the sensitivies of:
1. promising North Korea that no military exercises will be held in South Korea prior to the February 2018 Winter Olympics in South Korea. Summary of a January 2018 Washington Post report: Trump and South Korean President Moon Jae-in have agreed to postpone the large annual Foal Eagle Exercise until after the Winter Olympics to reduce tensions with North Korea.
2. North Korea might decide to feel cheated that "secret" plans were reported in the Japanese media (below) in January 2018 concerning international preparations made in South Korea (SK) for evacuating foreign nationals in case of high tension or conflict with North Korea (NK).
[PETE COMMENT
From the following it appears there is a high degree of ill-feeling on security issues, between and within Western delegations (including Japan and SK) in dealings with NK. The Chinese and Russians must be perplexed.]
On January 21, 2018 Anonymous translated [right-click
mouse] page 2 of a Japanese language Gendai article of
January 20, 2018. Pete did further translation for context:
"In a period of emergency
in the Korean Peninsula, when President Trump has taken military action against
NK, concrete measures to rescue US, UK, Canadian, Australian, French and
Japanese and Americans nationals from SK are being planned
See Osan Airforce Base where the international evacuation meeting was held.
In November 2017, the first
meeting of Japan and five members of UN Command in SK (US, UK, Canada,
Australia and France) was held secretly at Osan US Air Force (USAF)
Base 64 km south of Seoul to discuss rescue/evacuation planning for
their foreign nationals.
[Osan hosts US
7th Air Force Headquarters].
"It was a military official consultation and
SK was excluded because of possible information leakages to NK through the SK
"Blue House"."
[the "Blue House" is a large complex that is the Executive Office and Official Residence of SK President Moon Jae-in]
Japanese attendance included Counsellor Level officials from the
National Security Bureau of the Cabinet Secretariat and uniformed staff from
the Japanese Ministry of Defense. They were transferred by USAF aircraft
travelling from USAF Base Yokota (Tokyo) to Osan USAF Base.
Numbers of the foreign nationals in each
region of South Korea, identified by the US, were displayed on a huge screen
and projector in the November 2017 meeting room at Osan Base. Measures for transporting the nationals to Busan
Port and the Port
of Incheon via air, land and sea were explained.
The US State Department informed SK diplomatic and security authorities who had been excluded
from the November 2017 meeting. SK reacted by complaining strongly and could [did?] attend the
second meeting held in December 2017.
Until [November 2017?]
these kinds of meetings have only been held secretly between the US National
Security Council, US Department of Defense, Japanese NSC and Japanese Ministry of Foreign
Affairs. The US State Department and Japanese Ministry of
Defense have been excluded because the security of their information
management is considered suspect.
"Under
multilateral talks discussing the situation in North Korea, it can be
understood that leakage of confidential information is a deadly and serious
problem."
Translated by Anonymous and by Pete.
Chinese undersea sound surveillance sensors (SOSUS) near Guam
"The Chinese Academy of Sciences recently disclosed that
underwater acoustic sensors have been monitoring sea activity near Guam since
2016."
Source: Russia's SputnikNews relaying a Hong Kong, South China Morning Post report of
January 22, 2018.
COMMENT
The report indicates "The sensors collect water temperature and salinity data that impact how sound moves through water". These make the underwater acoustic (SOSUS) sensors more accurate AND also provides a scientific research "cover" for basically ASW sensors.
Once China perfects node sensors near Guam, and in the South, China Sea, China will lay 500+ km undersea SOSUS cable arrays, stringing many sensors together
- thereby providing electrical and communications channels to the sensors.
The main (near Guam) Chinese sensor targets would be the US Submarine Squadron 15 (SUBRON 15), at Naval Base Guam island.
Anderson Air Base (at right) is also on Guam island, as is Guam (Apra) Naval Base, where
SUBRON 15 has long been based. South China Sea on left. All "targets" for China's developing SOSUS systems.
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SUBRON 15 mainly consists of:
- the large submarine tender USS Frank Cable (AS-40)
- four Los Angeles class SSNs, namely USS Key West (SSN 722), USS Oklahoma City (SSN 723),
USS
Topeka (SSN 754) and USS Asheville (SSN 758).
- also an Ohio class SSGN occasionally visits.
FOR FURTHER BACKGROUND
See Submarine Matter's June 17, 2015 article, Guam Nuclear Submarine and Bomber Air Base.
Pete
January 22, 2018
Suspicious Russian Submarine Fire, Vladivostok, Diesel Vapour? Battery Hydrogen?
KQN has drawn Submarine Matter's attention to a January 21, 2018 Russian claim that the Russian Navy intentionally set a Russian conventional, diesel-electric, Kilo class submarine on fire, on January 21, as part of a “damage control exercise”. This fire was/is at Vladivostok
Main Naval Base, Russian Pacific Fleet.
The Kilo is most likely part of the Russian Pacific Fleet's, Vladivostok, 19th Submarine Brigade and may well be an unimproved Project 877 Kilo (likely Pennant Number "B-260", "B-445", "B-394", "B-464", "B-494", "B-187", "B-190" or "B-345"). Intentionally starting a fire is highly unlikely given the cost of a Kilo and close proximity of several other Kilo subs near the fire (see photo below).
The Kilo is most likely part of the Russian Pacific Fleet's, Vladivostok, 19th Submarine Brigade and may well be an unimproved Project 877 Kilo (likely Pennant Number "B-260", "B-445", "B-394", "B-464", "B-494", "B-187", "B-190" or "B-345"). Intentionally starting a fire is highly unlikely given the cost of a Kilo and close proximity of several other Kilo subs near the fire (see photo below).
Russian Kilo submarine on fire, January 21, 2018, at Vladivostok. (Photo courtesy Anonymous Russian via a scoop by Tyler Rogoway, The Drive January 21, 2018, website).
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REASONS FOR FIRE?
It will be interesting if the Russians admit the real reason, eg:
It will be interesting if the Russians admit the real reason, eg:
- residual diesel fuel vapour catching alight
- angle grinder or welding equipment started a fire of
insulation or diesel fuel vapour between the
outer hull and pressure hull,
- in what supports diesel burning KQN suggested January 22, 2018 "From the photo [above] it
appears smoke is coming out from the rear escape hatch? Diesel generator fire? The diesel engines
and motor is in the back. There seems to be diesel fire on water as well? [also noticed by
Anonymous 23/1/18 11:51 AM]. There appears to be light ice on sea surface, I am sure it is cold
there so do they need to run the generators or main engine to maintain the inside at a controlled
temperature for the sake of electronics?"
- Pete suggests another theory - that extreme cold surface temperature or water temperature
caused diesel fuel tank/fuel in the diesel engines/or pipes to freeze-expand-and-split the
tanks/engines/pipes with some diesel leaking into the water. A short term rise in temperature
(Sun during the day) and ignition (bored sentry/crew smoking?) all caused the fire.
- battery maintenance causing release of flammable Hydrogen gas from the batteries, leading to fire.
- in what supports diesel burning KQN suggested January 22, 2018 "From the photo [above] it
appears smoke is coming out from the rear escape hatch? Diesel generator fire? The diesel engines
and motor is in the back. There seems to be diesel fire on water as well? [also noticed by
Anonymous 23/1/18 11:51 AM]. There appears to be light ice on sea surface, I am sure it is cold
there so do they need to run the generators or main engine to maintain the inside at a controlled
temperature for the sake of electronics?"
- Pete suggests another theory - that extreme cold surface temperature or water temperature
caused diesel fuel tank/fuel in the diesel engines/or pipes to freeze-expand-and-split the
tanks/engines/pipes with some diesel leaking into the water. A short term rise in temperature
(Sun during the day) and ignition (bored sentry/crew smoking?) all caused the fire.
I doubt that one would put up a real fire as an exercise
on a $300M submarine. Strange things have happened with the Russian armed
forces like the time some soldier cooked inside an IFV and then the IFV ended
up being barbecued...
- battery maintenance causing release of flammable Hydrogen gas from the batteries, leading to fire.
OR
- fire of highly volatile torpedo propellant, then
subsequent "cooking-off" of torpedo warheads
Precents include:
- the welding caused fire between outer and pressure hulls on the Russian Oscar class SSGN "Orel"
on April 8, 2015
- the fire and explosion of Indian Kilo submarine INS Sindhurakshak, on August 14, 2013.
- the welding caused fire between outer and pressure hulls on the Russian Oscar class SSGN "Orel"
on April 8, 2015
- the fire and explosion of Indian Kilo submarine INS Sindhurakshak, on August 14, 2013.
Pete