GTX

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Hi folks,

At this year's DSEi Exhibition, BAE Systems had this advanced submarine concept on display - note the fully ducted propulsion (Sorry for the poor image quality - the photos were taken using my phone):

Regards,

Greg
 

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Philip Stark style! Cool! Was Concept 35 there as well?

(Picture: Bill Sweetman for DTI)
 

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Cool looking design GTX. Can you explain where the duct intakes are or exhausts for that matter, I'm presuming the exhausts are the two flat areas at the stern. Does it use twin ducted propellers? If so how deep inside? Presumably the nozzles are stearable horizontally as I can't see any rudders.
The fore planes mounted low on the hull would present some interesting problems when coming along side as they couldn't easily fold upwards and downwards would increase draft. I wonder what the hydrodynamic advantages are.

Greg, your picture looks very similar apart from the stern. Was this also a BAE concept from the same exhibition? Again I'm afraid I can't work out what's going on with propellers from the picture.

Sorry, I've got Australia Vodafone wireless at the mo and they seem to down sample all the images as they send them.

Cheers, Woody
 
ool looking design GTX. Can you explain where the duct intakes are or exhausts for that matter, I'm presuming the exhausts are the two flat areas at the stern. Does it use twin ducted propellers? If so how deep inside? Presumably the nozzles are stearable horizontally as I can't see any rudders.
The fore planes mounted low on the hull would present some interesting problems when coming along side as they couldn't easily fold upwards and downwards would increase draft. I wonder what the hydrodynamic advantages are.

Woody,

the water intakes are just in front of the rear fins (look closely and you will see dark patches), whilst the exhausts are straight out the back. As for exact propulsion details, I can't say.

Was this also a BAE concept from the same exhibition? Again I'm afraid I can't work out what's going on with propellers from the picture.

Yes this concept was also there - it basically has 5 (I think) podded propulsors.

Regards,

Greg
 
DSEi -- New Navy Concepts from BAE
http://tinyurl.com/2z69gb

Posted by Bill Sweetman at 9/12/2007 6:09 AM

BAE Systems has unveiled a design for what could be called a "micro-carrier" - an 8000 ton ship based on a Type 45 destroyer hull and designed to support a group of unmanned air, surface and underwater vehicles. The so-called UXV is seen as a member of a future fleet of advanced ships.

The unique flight-deck design leaves the bow clear for missile launch tubes and guns while supporting a high sortie rate for different UAV types. Surface vessels can be deployed from a rear ramp.

Also on show is an advanced nuclear submarine concept with four pumpjet propulsors arrayed around the stern. Similar in some ways to the Defense Advanced Research Agency's Tango Bravo project, BAE's Concept 35 submarine is based on technologies such as electric drive.

A BAE engineer points out that splitting the power among four small, high-RPM propulsors and using electric drive eliminates heavy, low-speed gearing and adds redundancy to the design.

A closer-term project on display at DSEi is aimed at adding air-independent propulsion (AIP) to new-build or existing diesel-electric submarines (SSKs). BAE Systems is looking at the design of a plug-type module containing an AIP power system. Rather than using fuel cells, though, the BAE module uses diesel generators, fed with a mixture of liquid oxygen (the large red tank) and liquid argon (the smaller yellow tanks).

Active vibration damping and anti-noise measures would cut noise levels to the equivalent of a submarine running on batteries, BAE says, and the company believes that its approach would be much less costly than a fuel cell AIP system.

AVIATION WEEK (c) MCGH 2007
-------------------------------------------------------------------------------------------------------------------------------
From the deep: successor submarine concepts surface
http://www.janes.com/events/exhibitions/dsei2007/sections/daily/day3/from-the-deep-successor-s.shtml

Richard Scott

Wednesday, 12 September, 2007

From the deep: successor submarine concepts surface

BAE Systems has lifted the veil on hitherto unseen submarine concept studies undertaken by the company to help inform its future work on a successor deterrent submarine class for the UK Royal Navy.

The results are now being taken forward by the company’s Submarine Solutions business as part of a wider package of future submarine concept engineering studies being performed by a UK industry ‘rainbow’ team in conjunction with the Ministry of Defence. “Our aim was to ‘flex’ the brains of a small design team to assess the art of the possible and see what sort of solutions could be applicable to a submarine entering service in the timeframe anticipated for the successor boats,” a BAE Systems source told the DSEi Show Daily. “We undertook a wide range of studies to examine the key design drivers, and also explore ways to make a future submarine more affordable.” The two concepts exhibit markedly different approaches.

The so-called Concept 35 (above right) is described as a “reasonably conservative” evolution of the previous Vanguard design. However, it introduces shaftless electric drive and improvements to overcome equipment obsolescence (including extensive use of military offthe- shelf and commercial off-the-shelf equipment).

The radical Advanced Hull Form (top left) concept represents a more ambitious approach. Its distinctive design, which arose from an effort to relocate much equipment outside the pressure hull, could offer manoeuvrability and stability benefits, according to BAE. The UK government plans to replace the Royal Navy’s four Vanguard class ballistic missile submarines from 2024 as part of plans to renew the Trident deterrent. The Future Submarines Integrated Project Team was established earlier this year in the MoD’s Defence Equipment and Support Organisation to manage the replacement deterrent.

© 2007 Jane's Information Group
 
This one from 2001 advertised at the Royal NAVY site was much weirder...

"The Royal Navy is continually looking at ways to improve its technology. This Concept (sic!) by BAE systems is just one that the navy is looking into.

Directional Waterjet Propulsion Pods
Ultra-Quiet directable podded water jet propulsion units rotate at the root to provide vectored directional thrust and unparalled high/low speed manoeuvrability in conjunction with single lower rudder for stability and steering.

Sensor Arrays
Ultra-Sophisticated all-round sonar coverage achieved through platypus bow sonar and after fin arrays"

Sea Quest were still popular TV-show that year, as I see...)
 

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Two more Concept 35 and AHC pics from David McArthur aka DMc(http://s18.photobucket.com/albums/b141/dmcarthur/)
 

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Dear Gentlemen,

Many thanks for that pics!. I already knew that Seaquest pics from Flateric but the newest concepts are new for me.
I'll try to find a similar Swedish study that I have from my magazine collection.

It shapes (specially the Seaquest one) seem more reminiscent from coastal fishes than deep blue sea species as it was seen until the Cold War end. Are that litoral submarines?
 
Dear GTX and flateric.

Thanks for the pics, the 'Advamced Hull Form' is definitely something refreshing. I remember sometime ago at DSEI 2005 that there was a gas turbine powered submarine. Anyone know anything more about this?
 
One more Concept 35 pic from www.warships1discussionboards.yuku.com
 

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The hull design and sail remaind me of russian subs, but I'm afraid that while 5 propulsors will give silent operation a boost, and allow for a better acceleration, it's also complicated enough to go wrong as a system.
 
have found cool 2001 concept video

http://www.youtube.com/watch?v=6wdcMhmrO-o
 
Don't disturb the captain, when he is reading the Moby Dick :-DD Well, I am happy that the producers still have the sense of humor :)
 
after watching this Youtube, why i have to think at Gerry Anderson ?

stingray1.jpg


back to serious
if BAE get this true, it will change way to drive subs !
because today crew staring at dull instruments
 
Nuclear options
12 January 2009
http://www.theengineer.co.uk/in-depth/nuclear-options/309538.article

Engineers hope that the Astute project will provide valuable lessons for the sub that will carry the UK’s Trident deterrent. Stuart Nathan reports.

The Devonshire Dock Hall, cavernous centrepiece of BAE Systems’ Barrow-in-Furness shipyard, is a noisy place. There’s a constant whine and rattle of machinery and the unceasing back-and-forth of factory vehicles. By the sea doors at the end of the hall sit the focus of much of this activity: two Astute class submarines, the Astute and the Ambush, each almost 100m long, and swarming with engineers.

Production manager Keith Flatman points out the propulsor unit on the stern of the Astute, a large truncated cone-shape with the narrow end pointing backwards. ‘You’ll notice that it’s wrapped up in plastic,’ he says. ‘That’s because we’ve got some Americans knocking around. Our propulsors are better than theirs, and we don’t want them getting any ideas.’

It’s an example of the pride that you see all around the shipyard. There isn’t a huge amount of shipbuilding going on in Britain these days, but it still dominates this small Cumbrian town, with the Dock Hall overshadowing everything else around. It could be said that making submarines is a business with no real competition, but the feeling you get walking around the BAE site is that people are competing: with their own performance, with their previous designs and, of course, with the Americans.

‘American submarines are a nasty green colour on the inside,’ Flatman opined. ‘Our boats are nicer. And faster. And quieter. And sexier.’

Barrow is certainly a hive of activity. The shop floors are stacked with two-inch-thick sheets of submarine steel and the huge rings and domes that make up the hulls of the submarines; in the dock hall itself, four of the eventual seven-strong Astute class fleet are in various states of assembly.

But the activity isn’t confined to the Astute programme. Meeting rooms are crammed with people huddled around laptops, and the gentle blue glow of hundreds of display screens illuminates the faces of the design department, giving their large open-plan office its nickname of the Blue Lagoon.

And while the heavy work of shipbuilding goes on around the site, these engineers have their eyes on Barrow’s next project: the successor to the Vanguard class submarines, which carry Britain’s Trident nuclear missiles.

The as-yet unnamed submarine class, simply referred to as Successor, is a long-term project: the first of the new boats is not expected to enter service before approximately 2017. However, BAE and its partners in submarine projects, Rolls-Royce (which provides the nuclear power plants and propulsion systems for the submarines) and Babcock Marine, which maintains and services submarines for the Royal Navy, have been working on the project for some time, and the design process is well advanced.

There are two strands to the process — one, to design the submarine itself, including the development of new technological features to ensure that the boat can fulfil its allotted role; the other, to work out the most efficient and cost-effective ways to build the submarine to accommodate budget squeezes and ensure that the taxpayers’ money is well spent. In the latter, various departments around BAE are looking closely at how the Astute class submarines are being built, and seeing where the engineering practices can be finessed, tweaked and in some cases redesigned altogether to make every penny of the budget count.

The company is unsurprisingly tight-lipped on the specifics of the engineering and technology; deterrent submarines are, after all, the most secret and stealthy of machines. But there are some clues as to what might be in store.

The most striking of these are two models that were displayed at the DSEi (Defence Systems and Equipment International) exhibition in 2007. Dubbed ‘Concept 35’ and ‘Advanced Hull Form’ (AHF), they represent a conservative and radical view, respectively, of how a future deterrent submarine might look and work.

Concept 35 was developed as an evolution of the current Vanguard class submarines, with a similar design philosophy to that of the Astute class: drive down costs throughout the boat’s lifetime, wherever possible. This included using off-the-shelf components wherever possible, rather than investing in custom design; examples include replacing the low-pressure air blower, which is used to flush fume-filled air from the submarine and to fill ballast tanks, with a compressor system developed for blowing grain into silos. ‘We’ve found that it’s a smaller product, it’s quieter, and it’s a lower cost solution than making our own component, because we’re buying from a company that’s made its own investment in R&D, rather than having to spend that money ourselves,’ said Kevin Young, in charge of design improvement at Barrow.

But some aspects of the Concept 35 design are less conservative. For example, industrial automation techniques are used to a far greater degree for submarine control and condition monitoring. The nuclear power plant, like next-generation civil reactors, incorporates passive safety features (such as coolant valves that will automatically open if they fail, rather than close, so that coolant can still reach the reactor core). Control surfaces are actuated electrically rather than hydraulically, and some weapons systems are mounted outside the hull. Most striking in mechanical terms is that the drive system is all-electric and shaftless, with the propulsor unit operated by electric motors. Such a system is under active consideration by BAE, Rolls-Royce and Babcock, said BAE Submarine Systems chief engineer John Hudson, although he pointed out that there are technical pros and cons of both all-electric and all-mechanical drives.

The AHF design is clearly very different from any submarine in the oceans. Oval in cross-section rather than cylindrical, the hull splits into a Y-shape at the stern with the propulsors mounted inside angular-shaped ducts that are integrated into the hull itself, rather than being mounted on the stern. The hull form is made from flat or singly-curved surfaces, which would reduce the cost of building the submarine: double-curved surfaces, such as the domes at either end of a conventional submarine, are the most expensive part of the hull. The hull shape, which was designed using hydrodynamic modelling techniques, is also claimed to be more manoeuvrable than a conventional submarine, and would also make it easier to mount recovery operations in case of an emergency.

Like the Concept 35, the AHF is designed so that much of the payload and equipment can be mounted outside the pressure hull. This both increases space available inside the boat — which is constantly at a premium, making cruises even more arduous for the submariners — and makes the submarine safer, because it reduces the number of times the hull has to be penetrated to link internal systems to the outside. The periscope of the Astute class epitomises this approach — rather than using a tube from the top of the sail down to the bridge desk, the periscope is a video camera outside the pressure hull that relays images down to the commander.

With the current emphasis on cost-cutting, it might seem likely that Successor will resemble Concept 35 rather than AHF; in fact, a ‘stretched’ version of the Astute may be under consideration, with a section containing the nuclear missile launch tubes inserted behind the sail. Even so, this does not mean that the new submarine will resemble the Astute, which was itself evolved from the older Trafalgar class hunter/killers subs, but is now very different.

Other clues to new technology can be found from BAE’s research collaborations, particularly at the company’s Centre for Research in Active Control at Sheffield University. Established in 2007 and the recipient of a £1.4m grant from the firm, the centre is looking at various methods for making submarines quieter — an ability that is vital for the hide-and-lurk role of a deterrent submarine.

The centre, under director Professor Steve Daley, is looking at ways to reduce the effect that vibrating machinery has on the acoustic signature of the submarine, using a number of methods to prevent the vibration from reaching the hull and generating a sound wave that could betray the submarine’s location. Daley’s team has developed a system called selective damping that uses ‘electrodynamic shakers’ — devices somewhat like a loudspeaker that generate a vibration exactly out of phase with, and therefore cancels out, the shaking of the machinery. This can be applied at the site itself and remotely, with accelerometers measuring the frequency and waveform of the machine vibration and transmitting that back to a control system, which calculates a cancelling signal and operates shakers on the parts of the vessel connected to the vibrating equipment. This is particularly useful with inaccessible parts of the submarine, such as the impeller, where it is difficult to measure vibration.

Another project aims to develop a ‘smart spring’ mount that will directly isolate vibrating machinery from its surroundings. This is developed from passive systems, where small machines that emit high-frequency vibration are mounted on blocks of rubber, but this solution does not work for low-frequency noise and large machinery. Instead, the researchers are combining this passive damping with an active system that will work together with sensors throughout the submarine, to damp vibration at the source and prevent it from being transmitted throughout the vessel.

But incorporating innovative design and new technology is of no use if the construction process is inefficient, as this can lead to time overruns and problems that can take the project far over-budget. In a small office in Barrow whose walls seem to be covered with several layers of complex charts, plans and diagrams, Alan Stokes, an engineering manager, is working on how to organise the engineering processes involved in this major project. ‘We engineers are actually pretty organised people, but it takes us a while to get organised, and the schedule can get hurt in that time. We’re trying to make sure that when engineers are put onto the job, they can get on with it; that involves a lot of planning ahead, which can be difficult, because often you don’t know all the variables.’

Many of the refinements that Stokes is piloting seem simple; for example, listing as many components that are needed for a particular system first in general terms, then in more specific terms of their actual requirements, and finally specifying the exact component. ‘For example, you might know that a system you’re working on will need a water pump. At first, you won’t know how powerful that will have to be, but “pump” will go on the list anyway. As you progress through the project, you’ll decide more about the requirements for the pump, and update the list. But this means that all the way through everyone will know that you need to specify a pump, and if it isn’t specified and costed, it’ll be easy to see that there’s still a gap in the budget.’

This type of planning requires a degree of co-operation between design, engineering, purchasing and other departments, which hadn’t existed before, Stokes said. ‘Making these sorts of detailed plans early on doesn’t add much to the cost of the project, but if you don’t make the plans, it can end up costing you a lot of time and money.’

Out on the floor of the Dock Hall, Keith Flatman explained how new production techniques that have been piloted on the Astute project will also reduce costs on Successor. Some of these have been modelled on those used by the American submarine manufacturer Electric Boat, where each section of the submarine hull is placed vertically and the various components are lowered into it and welded into place, before the whole section is turned sideways to be attached to the sections behind and in front of it.

Others have been taken from the automotive sector, such as assigning each section of the submarine its own work gantry, complete with tool shop, design office and working platforms. This, Flatman said, ensures that the engineers working on a section always have close access to tools, plans and supervisors. Other practices include making sure that components are delivered to the Dock Hall in the correct condition that is needed for them to be installed.

‘Really, it’s quite a simple job,’ he commented. ‘We stick that bit’ — indicating a towering cylinder of steel — ‘to that bit’ — pointing at the stern end section of the Artful, one of the subs under construction — ‘and then we chuck ‘em in the water. Those are shipbuilding terms, you know. But if we talk to each other, and make sure that everyone can get on with the jobs they’re supposed to be doing, we can do it faster and more effectively. And that’s how we get these things done.’

Read more: http://www.theengineer.co.uk/in-depth/nuclear-options/309538.article#ixzz1dLhsOplF
 
flateric said:
Sea Quest were still popular TV-show that year, as I see...)

Oh, please! SeaQuest was cool. That thing looks like the unholy hybrid between a sturgeon and a duckbilled platypus.

Regards & all,

Thomas L. Nielsen
Luxembourg
 
bobbymike said:
http://www.defensenews.com/article/20131216/DEFREG01/312160006

New UK SSBN "Successor"

submarine_2767212b.jpg

[ORIGINAL CAPTION: The image was included on the cover of the second annual report to MPs about developments in the Successor Submarine programme Photo: BAE SYSTEMS]

http://www.telegraph.co.uk/news/uknews/defence/10520896/First-glimpse-of-new-nuclear-submarines.html​
 

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Artist's impressions of Future Attack SubMarine (FASM) concept to replace the Trafalgar-class attack submarine. FASM was cancelled in 2001 and replaced by Maritime Underwater Future Capability (MUFC).

Source:
http://en.wikipedia.org/wiki/Future_Attack_Submarine
http://www.globalsecurity.org/military/world/europe/fasm-pics.htm
 

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bobbymike said:
https://www.gov.uk/government/uploads/system/uploads/attachment_data/file/390185/20141215-Successor_Update_to_Parliament_final.pdf
 
Ministers: U.K. Royal Navy Guaranteed 4 New Nuclear Ballistic Missile Subs
By: Jon Rosamond
October 26, 2015 2:18 PM

Source:
http://news.usni.org/2015/10/26/ministers-u-k-royal-navy-guaranteed-4-new-nuclear-ballistic-missile-subs#more-15396

LONDON — The British government has decided to replace the Royal Navy’s four Vanguard-class ballistic nuclear missile submarines (SSBN) with new boats on a one-for-one basis.

After years of indecision, caused largely by global economic crash-induced fiscal austerity, ministers have effectively acknowledged that reducing the SSBN force to three submarines would signal the end of a half century of continuous U.K. sea-based deterrence.

Prime minister David Cameron is expected to seek parliamentary approval next year to start building the four Vanguard replacement or “Successor” submarines, with the first of the 16,000-ton boats due to enter service in 2028.

Although the opposition Labour Party’s new hard left leader, Jeremy Corbyn, is a vociferous opponent of nuclear weapons, the ruling Conservatives enjoy a 12-strong majority in the House of Commons and a ‘yes’ vote is almost guaranteed.

Both Cameron and his defense secretary, Michael Fallon, have now spoken publicly about the decision to retain four SSBNs, with the latter setting out the government’s position most explicitly at an industry briefing last week.

“Cold War certainties have been replaced by an unpredictable new nuclear age defined by weapons proliferation, more nuclear states, and rogue nations wanting nuclear weapons and the technology to develop them,” Fallon said.

He pointed out that an “expansionist” and “revanchist” Russia was commissioning a new class of eight SSBNs, and that North Korea was conducting its own nuclear and ballistic missile tests.

“When there are 17,000 nuclear weapons in the world we can’t wish away threats that may emerge in the 2030s, 2040s and 2050s”, he said.

While a nuclear deterrent “with a Union Jack on the top of it” would not prevent another 9/11-type tragedy, it would fulfil the need “to deter state-sponsored terror and to counter nuclear blackmail,” he told shipbuilders.

And Fallon aimed a direct blow at Corbyn, who was recently named vice-president of the London-based Campaign for Nuclear Disarmament, an organization that wants the U.K. to give up its nuclear weapons unilaterally as a step towards global disarmament.

“Despite taking our nuclear non-proliferation obligations seriously; despite reducing our stockpile by over half from the height of the Cold War; and despite reducing the number of deployed warheads on each submarine from 48 to 40, emerging states have not stopped seeking nuclear capability”, Fallon said.

The Successor program is nearing the end of a five-year assessment phase which began in 2011. Work this year has focused on maturing the design of the platform and nuclear power plant, and collaboration with the US on a Common Missile Compartment (to be shared with the Ohio-class Replacement Program (ORP_) is also continuing.

The Ministry of Defence has estimated that procuring the Successor submarines will cost $19.82 to 25.2 billion (at 2013/14 prices), with total program costs of $26.89 to 35.95 billion if warhead and infrastructure costs are included.

“Spread across the 30-year life of the new boats, this represents an annual insurance premium of around 0.13 per cent of total government spending”, Fallon said.
 
Unfortunately, it now looks like Cameron is delaying Successor until at least the early 2030s. ::)
 
http://www.bbc.com/news/uk-politics-35337432

"Corbyn: UK could keep Trident submarines but without warheads"

Not sure I fully follow this proposal; SSBNs would be SSGNs (or Conventional Trident) on patrol and would be recalled (or the boat undergoing refit) , uploaded and (re)deployed with nukes during a crisis?

Perhaps one of our resident UK defence watchers could elaborate.
 
marauder2048 said:
http://www.bbc.com/news/uk-politics-35337432

"Corbyn: UK could keep Trident submarines but without warheads"

Not sure I fully follow this proposal; SSBNs would be SSGNs (or Conventional Trident) on patrol and would be recalled (or the boat undergoing refit) , uploaded and (re)deployed with nukes during a crisis?

Perhaps one of our resident UK defence watchers could elaborate.

Their deterrent value would effectively go to ZERO.
 
Apparently some members of Labour, including the shadow defence secretary Emily Thornberry, seem to be under the impression that the Royal Navy has the capability to rearm SSBNs at sea.

In addition, the right honourable shadow defence secretary is apparently in favour of the so-called “Japanese option” i.e. retaining the capacity to build nuclear weapons without actually possessing them.
 
Grey Havoc said:
Apparently some members of Labour, including the shadow defence secretary Emily Thornberry, seem to be under the impression that the Royal Navy has the capability to rearm SSBNs at sea.

In addition, the right honourable shadow defence secretary is apparently in favour of the so-called “Japanese option” i.e. retaining the capacity to build nuclear weapons without actually possessing them.

IIRC, The full details of the Mutual Defence Agreement have never been publicly disclosed. For all we know, the UK could use the US facilities at Kitsap (Pacific) or Kings (Atlantic) to upload nuclear warheads.
 
Grey Havoc said:
Apparently some members of Labour, including the shadow defence secretary Emily Thornberry, seem to be under the impression that the Royal Navy has the capability to rearm SSBNs at sea.

In addition, the right honourable shadow defence secretary is apparently in favour of the so-called “Japanese option” i.e. retaining the capacity to build nuclear weapons without actually possessing them.

Problem with the "Japanese Option" is the other guy might not give you five years to get your crap together. And let's face it, given the exorbitant cost in time and money the latest B61 variant is imposing, starting from scratch is going to be spendy.
 
sferrin said:
Grey Havoc said:
Apparently some members of Labour, including the shadow defence secretary Emily Thornberry, seem to be under the impression that the Royal Navy has the capability to rearm SSBNs at sea.

In addition, the right honourable shadow defence secretary is apparently in favour of the so-called “Japanese option” i.e. retaining the capacity to build nuclear weapons without actually possessing them.

Problem with the "Japanese Option" is the other guy might not give you five years to get your crap together. And let's face it, given the exorbitant cost in time and money the latest B61 variant is imposing, starting from scratch is going to be spendy.

I thought the Japanese had intimated that they possessed them just in a disassembled state? They are also party to another Mutual Defense treaty with secret annexes so who knows...
 
4-Pack-with-People.jpg

ORIGINAL CAPTION: Workers stand pose for a photo in the four-tube “quad-pack” built for the U.S. Ohio Replacement-class and U.K. Successor-class. General Dynamics Electric Boat Photo via US Navy

https://news.usni.org/2016/04/22/report-new-contracting-authority-could-help-navy-save-25-on-ssbn-missile-tubes​
 
submarines_with_flags_apr_2.jpg

bobbymike said:
http://nationalinterest.org/blog/the-buzz/chinas-boomers-should-america-fear-beijings-underwater-nukes-16130

Handy chart of 'current' generation boomers.
 
What is the idea behind "reverse" angle on the sail of the Borei class boats? Is it anything to do with ice breaking?
 
I don't think anyone sane would intentionally use a boomber's sail to break ice horizontally, and I don't believe that configuration would make it easier to surface vertically through the ice. So I'm going to guess it's done in an attempt to reduce drag of the otherwise massive sail.
 
Moose said:
I don't think anyone sane would intentionally use a boomber's sail to break ice horizontally, and I don't believe that configuration would make it easier to surface vertically through the ice. So I'm going to guess it's done in an attempt to reduce drag of the otherwise massive sail.

Might be that the Russians know a thing or two about ice-breaking that most other Navies don't. Remember they have to be able to often penetrate light pack ice when entering and leaving harbour.
 
Rest assured it has nothing to do with icebreaking. The leading edge of the sail is fitted with a sonardome. Transducing materials used in sonardomes tend to be a very bad choice for something to bash ice with. Also the way icebreakers with angled stems work is to use said angle to lift the mass of the bow above the ice where gravity pulls it down to 'break' the ice. The forward edge of the sail lacks any mass above it to achieve this effect. Far more effective in breaking ice from a submarine is to use the upwards force of the boat's positive buoyancy to break the ice from below. Mechanics is mechanics even in Glorious Worker's Paradise of Soviet Russia.
 
For once, Abraham and I agree. There does seem to be a sonar (possibly under-ice sonar) in the sail. But there might be something else too. I've noticed that pretty much every published photo of the Borei class that shows the sub from the front has a flag or crest hanging across the upper leading edge of the sail. It's almost like they have an aperture there that they want to conceal.
 
It may have an aperture that they want to conceal, but that part of a sail is commonly used for putting crests; as far as I can remember, Delta SSBNs and Oscar SSGNs put a crest on the same place.
 

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