Anonymous has advised of Lithium-ion Batteries (LIBs) for submarine developments. Pete's comments are in [...] brackets.
There are rumours that the Japanese Navy my eventually replace its NCA LIBS with LTO [maybe operational in the 2030s] and then NTO/TNO LIBs [maybe operational in the 2040s]. These again are rumours but such replacement is logical given the improving development paths of new-generation LIBs. See details of these new LIBs below.
As the current NCA LIB module is governed by the architecture of the preceding lead-acid battery (LAB) Soryu submarine and is not optimal for LIBs, the next generation LIBs will become smaller to achieve a better arrangement. Also, the structure of LIBs and their module arrangements will be altered to achieve higher
efficiency and better safety. These changes will require a total review of
current LIB production facilities. Financing this is essential.
[Pete Comment - While European countries have made statements that they are developing LIBs for submarines, Japan has made concrete progress. Japan has actually launched a medium-large conventional submarine (the Oryu) with LIBs. This will give regional superiority (compared to other SSKs) to the Oryu and the Japanese LIBs submarines that follow it.]
The two main First Generation LIBs for submarine that Japan has been developing are:
NCA – (Lithium Nickel
Cobalt Aluminum Oxide) produced by Japanese company GS Yuasa. This is the LIB type in the Oryu. Oryu is a Soryu Mark 2 (aka Mk. II) (see TABLE 1. and 2. below). NCA has high
energy density, but has a relatively short cycle life and less stability, and
LTO
(Lithium Titanate Oxide) produced by Toshiba. Following Japan’s policy of continual
evolution in submarines the Japanese Ministry of Defence (MoD) is developing a
next generation LIB known as LTO. LTO LIBs will be smaller and more efficient
than current NCA LIBs. Studies are being made in FY2017 and
2018. LTO’s are being developed in a Aus$1 billion program 2019 to 2023. Also, new silent [electromagnetic?] propulsion
is to be developed. LTO and silent propulsion may be applied to Soryu Mark 3s
or a new submarine class to follow the Soryu [see TABLE 2.]. Japan proposed LTO LIBs in Australia’s submarine competition (CEP, SEA 1000). LTO features has
a longer cycle life and higher stability, but this is at the expense of low
energy density.
Further details on NCA and LTO are at these 2 Submarine Matters article (here and here) both of October 17, 2018.
Since 2017 Toshiba has continued the development of a second generation Lithium-ion Battery (LIB) type using Niobium Titanium Oxide (NTO)(aka titaniumniobate (TNO)). NTO is composed of TiNb2O7 . NTO’s energy density (160-200Wh/kg?) is twice that of Lithium Titanate Oxide (LTO). NTO also has longer charge/discharge cycle life (5000 cycles?) and has higher stability than LTO. In June 2018 Toshiba announced it had made a deal with a Brazilian mining company to mass produce NTO in 2020 (also see https://www.energytrend.com/news/20180627-12359.html ).
NTO’s energy density and cycle life is also reportedly superior to Lithium Iron Phosphate (LFP). LFP, that Europe’s SAFT is developing, has an energy density of 90-120kWh/kg and cycle life of 1000-2000) .
[ See this good Niobium in LIBs website (which, on its last page, favourably compares NTO (aka TNO) with LTO, NCA and LFP. Complete string https://www.cbmm.com/-/media/CBMM/Resource-Center/PDFs/Mobility---Mobilidade/Niobium-in-Li-Ion-Batteries.ashx ]
TABLE
1. LIBS BY GENERATION (provided by
Anonymous)
Name and
abbreviation
|
Composition
and abbreviation
|
Energy
density [kW/kg]
(theoretical)
|
Note
|
|
First
Generation
LIBs
|
Lithium
Nickel Cobalt Aluminium Oxide
NCA
|
LiNiCoAlO2
or NCA
|
260
|
On Soryus Oryu (27SS) & 28SS.
From Japan's
GS Yuasa
|
Lithium
Cobalt Oxide
|
LiCoO2 or
LCO
|
200 (1014)
|
Shinkai
6500
|
|
Lithium
Nickel Manganese Cobalt Oxide
|
LiNiMnCoO2
or NMC
|
200
|
||
Lithium
Manganese Oxide
|
LiMn2O4 or
LMO
|
140 (410)
|
Proto-type
by JMSDF
|
|
Lithium
Iron Phosphate LFP
|
LiFePO4 LFP
LFYP in China
is family of LFP.
|
120 (575)
|
China.
Separately SAFT
|
|
Lithium
titanate LTO
|
Li4Ti5O12 or
LTO
|
80
|
Toshiba.
Offered to Aus in CEP
|
|
LABs
|
LAB
|
40
|
||
LSBs
|
Lithium-sulfur LSB
|
Li2S3 LSB
|
theoretically
about
(2500)
|
|
Second
Generation
LIBs
|
Lithium
Ion Silicate
|
Li2FeSiO4
|
(1584)
|
High
Safety, low cycle performance
|
Lithium
Manganese Silicate
|
Li2MnSiO4
|
(1485)
|
High
Safety, low cycle performance
|
|
Niobium Titanium Oxide NTO |
TiNb2O7 NTO
|
160-200Wh/kg?
|
Toshiba
|
-----------------------------------------------------------
TABLE 2. SORYU & Oyashio Program as at December 17, 2018
SS
No.
Diesel Type
Motor
|
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
SMC-7?
|
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
SMC-8
|
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
|
MHI
|
|
26SS
end of SMC-8s
|
8125
|
SS-510
|
LABs + AIP
|
2014
|
6 Nov 2017
|
18 Mar 2019?
|
KHI
|
|
27SS First
Soryu Mark 2
diesel
first SMC-8B
motor
|
8126
|
SS-511
|
LIBs only
(NCA type)
|
2015
|
4 Oct
2018
|
Mar
2020?
|
MHI
|
|
28SS Second
Soryu Mark 2
SMC-8B
|
8127
|
SS-512
|
¥63.6B FY2016
|
LIBs only
(NCA type?)
|
2016?
|
Oct 2019?
|
Mar 2021?
|
KHI
|
29SS First Soryu
Mark 3
SMC-9?
|
8128
|
?
|
¥76B FY2017
|
LIBs only?
|
?
|
?
|
2023?
|
MHI?
|
30SS Second Soryu Mk 3
|
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.
---
Thankyou Anonymous (further translation by Pete).
Hi Pete
ReplyDeleteThere is no information on the next generation LIB for Japanese submarine, but overview is somewhat predictable based on existing information or data.
Unless efficiency of the next generation LIB considerably increases, MoD can not provide a rational explanation of budget of 1 billion AUD to Board of Audit.
As the current LIB module is based on archetecure of the LAB submarine and is not optimum for the LIB dedicated submarine, the next gen LIB will become smaller to achieve better arrangement. Also, the structure of unit battery and its arrangement in the LIB module will be changed to achieve higher efficiency and better safety. These changes will provide total review of current production facility for LIB and need money.
Regards
Thanks Anonymous
ReplyDeleteFor this extra LIBs information.
I have changed the first part of the article accordingly.
Regards
Pete
Some info about improving NiMH batteries (link in Swedish but it links to the document for the doctor degree which is in English) by adding oxygen the batteries will manage 3 times more cycles.
ReplyDelete/Kjell
Thanks /Kjell
ReplyDeleteAll the best till after Christmas.
Pete