Indonesia Indonesian Navy, Tentara Nasional Indonesia-Angkatan Laut (TNI-AL)

Van Kravchenko

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perhaps it was meant to be deployed for ALKI I and ALKI II protection, this subs isn't really that small to be honest, not like those iranian or north korean midget subs, more or less they were almost the same size as those swedish HSwMS neptune with much more smaller coning tower.

you'll get the glimpse of it's size.
View attachment 32943


To be honest, The tonnage isnt necessarily the main point of the submarine (but yeah bigger hull mean you can store so much stuff). But i bet you personally want the one with VLS didnt ya?!

Again, what personally i see is. If the submarine have sufficient capability to protect and secure from any threat. Not to mention, here again the submerged time, armament, misision and hunter killer capability will be the star of the show (god, please give ID Navy the one with long diving time)

afterall , no spec disclose, no contract disclose (Even for what so called Interim sub). All still grey. Still many can change, the winner always the one who slip at last turn.

1000 tons submarine is not a midget submarine.

You got the point, under 150 tonnes still considered as Midget.
 

Van Kravchenko

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It will be far better for her and her backers to just shut up, see how things go and then adjust rather than whatever she does right now.
Wow, wow, chill dude.

Didn't she do good stuff, i mean act as "enlightmet" for military news enthusiasm ?

Really, i dunno why you against her so much 😁
 

FPXAllen

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Wow, wow, chill dude.

Didn't she do good stuff, i mean act as "enlightmet" for military news enthusiasm ?

Really, i dunno why you against her so much 😁
Naah, I don't hate her, but it's also clear that I'm no fan of her.

It's just she tends to appear trying too much to derail whatever the direction that our defence authorities are taking. And with her clear preference to one certain country while ignoring the encroachment and harrasment they're still doing in our waters, one can't help but wonder who backed her and for what purpose?
 

NEKO

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Just playing devil's advocate here.

Since we have plenty of oceans and very large area to cover, doesn't it make more sense to have more number of smaller subs than less number of bigger subs?

In terms of price, two 1000 tons subs probably equals to one Scorpene. So buying five Scorpenes or ten 1000 tons subs?
Quite interesting TBH.
 

Barjo_2

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Just playing devil's advocate here.

Since we have plenty of oceans and very large area to cover, doesn't it make more sense to have more number of smaller subs than less number of bigger subs?

In terms of price, two 1000 tons subs probably equals to one Scorpene. So buying five Scorpenes or ten 1000 tons subs?
I think this design emphasize on speed, almost like KCR but underwater. I believe with some upgrade she can launch Sub lauch anti ship missile from their upper torpedo tube
 
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Mandala

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Indonesia to implement Arrowhead 140 design on Iver Huitfeldt-variant contract​


by Ridzwan Rahmat Oct 5, 2021, 10:20 AM

Indonesian shipbuilder PT PAL will implement the Arrowhead 140 design on a contract it secured from Jakarta in April 2020 for two Iver Huitfeldt class-variant frigates.

bsp_6824-jni-14421.jpg

PT PAL is implementing the Arrowhead 140 design on a two-ship contract it signed with the Indonesian MoD in April 2020. (Babcock)

Indonesian shipbuilder PT PAL will implement the Arrowhead 140 design on a contract it secured from Jakarta in April 2020 for two Iver Huitfeldt class-variant frigates.

In response to questions from Janes, PT PAL's public affairs office confirmed that the two-ship contract worth USD720 million is officially in force, and work is under way in Surabaya, Indonesia, to prepare for the first build.

However, Janes also understands from a separate industry source that discussions are still ongoing between PT PAL and Babcock on design modifications that will be undertaken to meet the Indonesian Navy's requirements.

As reported by Janes in June 2020, the Indonesian Ministry of Defence (MoD) signed a preamble contract for a variant of the Iver Huitfeldt frigate with PT PAL in April 2020. However, the two-ship contract only became effective from 24 May 2021, PT PAL told Janes on 5 October.

The Arrowhead 140 is based on the Royal Danish Navy's Iver Huitfeldt-class frigate that was designed by Odense Maritime Technology . The Arrowhead 140 design also forms the basis for the UK Royal Navy's new Type 31 Inspiration-class frigates, the contract for which was signed in September 2019.

Incidentally, the Arrowhead140 is also one of four designs shortlisted by Indonesia for another six-ship frigate programme. Jakarta has since selected the Bergamini (FREMM)-class design for this project.

Subsequently in September 2021, UK defence group Babcock signed a design licence agreement with PT PAL at the DSEI exhibition in London. The agreement provides for the build of two Arrowhead 140 frigates at PT PAL's facilities in Surabaya.

 

Van Kravchenko

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what purpose?
Totally, no idea.

Well, i must admit her presence quite strong here. In one occasion if my brain still work correctly, 1st Commision of House of Representative put her statement for some policy.

Her background with plenty of experience and tasked is some think tank organization make her possition unshakeable, reinforced with media image.

Yet, even with much of that stuff she only stands as Military Analyze. Wich could go wrong. Its ok, if she act as an analyze or an advisor, but she kinda stop push her own agenda.

Hopefully we have competent MOD put in charge
 

NEKO

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I think this design emphasize on speed, almost like KCR but underwater
So the speed is not that great if compared to its peer?
*if there is any.
The agreement provides for the build of two Arrowhead 140 frigates at PT PAL's facilities in Surabaya
Gak akan ada lagi yang bilang kalo bakal dibangun digalangan kapal lain kek batam.
 

Barjo_2

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So the speed is not that great if compared to its peer?
*if there is any.

Gak akan ada lagi yang bilang kalo bakal dibangun digalangan kapal lain kek batam.

Pumpjet i'm not so sure, as long as I know would like prop fan aerospace engine faster than propeler but less than turbofan

But torpedo with waterpump can accelerate more than 30knot

Here we go some long reading i have read


Future Submarine: Pumpjet propulsion technology choice still not well explained​

By Julian Kerr | Sydney | 7 August 2018
Comments 2 Comments
2 / 3 free articles left.
While concept design of the Future Submarine is reportedly progressing on schedule under Project Sea 1000, questions continue to be asked about the pumpjet propulsion system that is seen as a key feature of the Collins-class replacement.

These queries range from the general to the specific – how does a pumpjet system work, why is it a better option than a sophisticated propeller; and, by the way, what about the reports suggesting that pumpjets are too inefficient at low speeds to make sense on a conventionally-powered submarine?

Several seemingly-ambivalent statements raised early doubts about whether the pump jet system would definitely be used, or whether it remained an option. Some doubts still exist.

Certainly the capability was an effective discriminator in the sales pitch by DCNS (now Naval Group) for its Shortfin Barracuda Block 1A, with the company’s then CEO for Australia Sean Costello stressing in early 2016 the significance of France’s readiness to transfer to Australia sovereign control and use of pumpjet propulsion technology resident only in France, the UK and the US.

If selected, the Shortfin Barracuda would utilise a pumpjet propulsor that combined a shrouded rotor and a stator within a duct to significantly reduce the level of radiated noise and avoid cavitation, he said.

The stealth and hydrodynamic performances of the system were of course classified, Costello understandably but unhelpfully added.

Yet in October 2017, Naval Group executive director Jean-Michel Billig commented that the Future Submarine may end up with a conventional propeller – a remark swiftly followed by a DCNS statement that although the inclusion of a pumpjet propulsor had been a key element of the company’s winning bid, the Commonwealth would have the final say on the forms of propulsion that would used in the project.

Head of the Future Submarine project, Rear Admiral Greg Sammut, subsequently confirmed at Senate Estimates that a pumpjet system would be used, adding that some claims about the capability were misleading.

“It’s not purely for use in nuclear submarines; it can be efficient across the entire speed range, taking account of the submarine’s size, the speed required and stealth,” he stated. “It needs to be tuned to the hull of the submarine; the hull needs to be tuned to the pumpjet.”

This in essence rebutted comments on the subject made by former Collins-class commander Philip Stanford prior to selection of the Shortfin Barracuda.

Stanford, then a senior member of the team representing the unsuccessful German bidder TKMS and its Type 216 design, noted that average speeds during the long transits required by Australian submarines were about 10 knots, albeit with moderately faster sprints interspersed with much slower speeds while snorkelling at periscope depth.

“When you’re on station and you’re there for six weeks, if you’re ever doing more than four knots there’s something wrong. If you can be doing two or three knots that’s much better. It’s only when you get above double digits or the high teens that the pumpjet starts to deliver greater efficiencies.”

RADM Sammut’s intervention also contradicted several conclusions reached in a report entitled “Australia’s Future Submarine: Getting this Key Capability Right” produced by the independent consultancy Insight Economics.

The report, headed by Michael Keating, a former head of the Australian Public Service and one-time Secretary of the Department of Prime Minister and Cabinet, suggested the choice of pumpjet propulsion created a technical risk for the future submarine.

A pumpjet was much heavier than a propeller system and, unless Naval Group had made a breakthrough, used more energy at the speeds at which diesel-electric submarines generally travelled, the report said.

Technical justification for these concerns was provided in a separate paper written by Aidan Morrison, managing director, with background in physics and engineering, of a defence consultancy.

While acknowledging he had no access to classified material, Morrison noted that it was possible to confidently know some of the fundamental bounds and constraints within which hydrodynamics and turbomachinery operate.

Although it was broadly acknowledged that propellers had superior efficiency at lower speeds but pumpjets might be more efficient at higher speeds, the precise point of cross-over seemed unclear in public debate, Morrison commented.

“One informed commentator suggested that the crossover point was likely to be below or near the transit speed of the submarine, and that the pumpjet might offer enhanced range and endurance over the whole mission profile as a consequence,” his report said.

However, no evidence had been found of a pumpjet of the type used on submarines ever being recommended as superior for overall efficiency. A lower acoustic signature was likely at higher speeds but improving a pumpjet’s propulsive efficiency at low speeds would necessarily involve trade-offs in terms of acoustic advantage.

“In a comparison between two otherwise identical submarines, the one with the pumpjet will always have a lower dived endurance, a lower dived range, a worse indiscretion ratio, a lower overall endurance, and a lower overall range, than the one with a propeller,” the report postulated. “This will confer a substantial tactical and strategic advantage on the conventionally-propelled submarine in a very broad range of operational scenarios….

“The scale of the probable impact on range and endurance (of a pumpjet) is quite probably so substantial that it is difficult to see how such a performance penalty is consistent with the government’s stated aim of acquiring a regionally superior submarine”.

Appearing as a private citizen, Morrison spoke to and presented his paper to the Senate Economics Reference Committee on 7 June while Brent Clark, now Senior Adviser to the Chairman, Naval Group Australia, was also in the committee room, waiting to give evidence.

There, Morrison stated that an improvement of 50 per cent or more in dive range or endurance could be achieved by reverting from a pumpjet system to conventional propellers.

Later offered the opportunity by the committee to respond to Morrison’s remarks, Clark declined to do so.

“The Australian government and the Australian Department of Defence obviously have access to classified research from the US Navy, the Royal Navy and the French Navy on this matter, and I don’t intend to get into a debate on this topic,” he declared.

The question of propeller versus pump jet really comes down to the acoustic signature; a well-designed pump jet is considerably quieter than an equivalent propeller.
In an ironic twist, the committee requested a rapid assessment of the Morrison paper from Defence’s Capability and Sustainment Group (CASG) – the body responsible for progressing the Future Submarine program as it stands - if necessary to be delivered at an in-camera briefing. This assessment did not appear to be included in the Committee’s report on the future of naval shipbuilding report released on 27 June.

Although requests to speak with subject matter experts from CASG, the RAN and Naval Group were all unsuccessful, ADM did have the opportunity to discuss propellers, propulsors and Sea 1000 with Dr David Kershaw, chief of the Defence Science and Technology Group’s (DSTG’s) Maritime Division and undoubtedly one of the country’s best-informed experts on such matters.

Dr Kershaw’s recent CV speaks for itself – head of the Torpedo Systems Group, head of the Submarine Combat Systems Group, Research Leader Submarine Systems and Sea 1000 Science and Technology adviser, Research Leader Undersea Command and Control, and Chief Maritime Division (in May 2016).

Selecting and designing a propulsor depended on the specified application – ships tended to have big propellers, fast attack craft had water jets, and submarines traditionally used open propellers although pumpjets were now common on large nuclear submarines, Dr Kershaw pointed out.

The criteria used in choosing between a pumpjet and a propeller involved thrust, efficiency, vibration, and acoustic signature, all driven by how the surface ship or submarine was to be operated.

As explained by Dr Kershaw, there was a degree of misunderstanding concerning pumpjet design and performance. To propel a surface ship or submarine involved overcoming resistance to push the vessel through the water with a suitably-designed propulsor.

Surface ships need to overcome wave-making resistance, which varies with speed. Their propulsors therefore need to be optimised for the required operating speed; when operating at off-design speeds, efficiency drops off.

Since submerged submarines do not have to overcome wave resistance, the efficiency of a propulsor can be considered independent of speed and the aim is to design an efficient propulsor.

In other words, selecting the propulsor for a submarine is driven by the types of mission it is expected to undertake and where the boat will operate, Dr Kershaw stated.

“The question of propeller versus pump jet really comes down to the acoustic signature; a well-designed pump jet is considerably quieter than an equivalent propeller,” he said. “One of the advantages of a well-designed pump jet is that it can smooth out the water flow that is coming off the back of a submarine before the flow hits the moving rotor and there’s less unsteady flow, and thus less noise.

“This smoothing-out also increases the propulsive efficiency; a well-designed pump-jet can have efficiencies equal to, or better than, an equivalent propeller. You just have to have the capabilities and facilities to be able to design an efficient pumpjet and we know that France can do that.”

The size of the Future Submarine means a pumpjet is a real game changer for optimising the performance of the submarine in its intended role.
Echoing RADM Sammut, Dr Kershaw stressed that the pumpjet on a submarine must be designed in conjunction with the hullform to which it was to be attached.

“It’s not like a propeller where you can design your propeller open loop i.e. without considering the interaction with the hull, and then attach the propeller to the hull. The water flow over the hull to the pump jet is so integral you’ve got to design it as a pair, and the hull and the pump jet have to be tuned together, it’s a total system that you’re building.”

“One of the issues with pumpjets and the reason they’re not used on diesel-electric submarines is they’re much heavier than a conventional propeller, although they have a smaller diameter.

“As the size of the submarine increases (the Future Submarine’s 4,700 tonne submerged displacement is significantly heavier than the 3,407 tonnes of the Collins-class it will replace) you start to get to the point where a pump jet can become sensible.”

Although pump jet propulsion would be new to the RAN, the technology was well-known to DSTG.

“We’ve invested heavily in our hydrodynamics and hydroacoustics program over the past 20 years and this is includes the computational models as well as experimental facilities that confirm modelling results,” Dr Kershaw said to ADM.

“We’ve been able to develop our analysis on a generic pumpjet design and thus confirm our understanding of pumpjet performance; you basically build it up from first principles.

“Our analysis at the moment is all around analysing current options but we will be looking at what’s ahead in the future and enable Australia to develop the sovereign capability to take best advantage of pumpjet technology.”

Classified information
It was worth noting, however, that modern pumpjets were primarily employed on military submarines and torpedoes and information was very limited and tightly held, making it difficult to review performance predictions.

“DST though, is in the position where we can access certain privileged information, so we can get validation of our analysis capabilities,” Dr Kershaw noted.

Pumpjet design had advanced over many years with a particular focus on the characteristics of all the components, although much of that was classified.

Some propellers were highly specialised and highly complex. Pump jets had complexities in other aspects but the moving rotor was not as complex as a normal propeller, benefitting sustainment.

So will pump jet technology definitely be used for the Future Submarine?

“That is what is currently in the design and that’s what a lot of our science and technology program is about; having the capability to do the independent analysis on the technologies and capabilities planned for the Future Submarine, including the pump jet program,” Dr Kershaw said to ADM.

Discussions were currently underway with Naval Group and the French government regarding closer collaboration on a range of technologies and this would include pump jets, Dr Kershaw disclosed.

The program was still being worked on, and on the Australian side would involve a government-only team to comply with French security regulations.

“One thing I would like to emphasis is that Australia’s geographic circumstances require a larger conventional submarine than those currently produced for export to other parts of the world. The size of the Future Submarine means a pumpjet is a real game changer for optimising the performance of the submarine in its intended role, and ensuring regional superiority in undersea warfare,” Dr Kershaw concluded.

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Parry Brima

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But i bet you personally want the one with VLS didnt ya?!

I believe with some upgrade she can launch Sub lauch anti ship missile from their upper torpedo tube

You can actually put VLS inside 1000 tons submarine.

This is just an example, the design of 1000 tons Amur-class submarine has two variants. The one with only 6 torpedo tubes, and another with 4 torpedo tubes + 10 VLS.

amur950.jpg


Fincantieri S1000 sub is based on this design.
 

Barjo_2

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You can actually put VLS inside 1000 tons submarine.

This is just an example, the design of 1000 tons Amur-class submarine has two variants. The one with only 6 torpedo tubes, and another with 4 torpedo tubes + 10 VLS.

View attachment 32960

Fincantieri S1000 sub is based on this design.
Halah gan belum apa2 ni nanti pada teriak unproven ma caatsa
 

Umigami

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You can actually put VLS inside 1000 tons submarine.

This is just an example, the design of 1000 tons Amur-class submarine has two variants. The one with only 6 torpedo tubes, and another with 4 torpedo tubes + 10 VLS.

View attachment 32960

Fincantieri S1000 sub is based on this design.
Unproven! CAATSA!
 

Barjo_2

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Well its a torpedo.

Even 30knot+ is possible with air layer covering the torp.
If I'm not wrong some blog long time ago ever write a meet betwen our sub with nuc sub equiped with waterpump (US Nuc sub) it says they can run more than 25knot, it also stated on my link above, some scorpene also use the waterpump, the atuall speed i believe higher than ordinary prop driven one. I think @trishna_amrta can confirm this, did he still around?
 

NEKO

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If I'm not wrong some blog long time ago ever write a meet betwen our sub with nuc sub equiped with waterpump (US Nuc sub) it says they can run more than 25knot, it also stated on my link above, some scorpene also use the waterpump, the atuall speed i believe higher than ordinary prop driven one. I think @trishna_amrta can confirm this, did he still around?
Hm... but soviet have the fastest sub and its propeller driven, super noisy tho.
Propeler can also go super fast.
 

FPXAllen

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Well its a torpedo.

Even 30knot+ is possible with air layer covering the torp.
Yeah. Supercavitating torpedo like Russian Skhval.
Hm... but soviet have the fastest sub and its propeller driven, super noisy tho.
Propeler can also go super fast.
In theory, one can go "damn with all the submarine silencing measures" and just design a, once again, a supercavitating submarine where it can go straight to 200 knots or more underwater.

In fact, it appears that China and US (and probably Russia too) are currently developing one, if the sources of this Wikipedia article can be trusted:

 

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