In an article written mainly about the S4* (the fourth & final Arihant-class boat) sailing out for sea trials, Chakra News has reported that the first two boats (out of a reported four-boat order) of the “S5”-class nuclear-powered ballistic missile submarines (SSBNs) are already under construction for the Indian Navy as of late 2025.
It serves to know that Chakra News was co-founded by Sandeep Unnithan, the veteran journalist who is the go-to media authority on India’s nuclear submarine program, with well-placed sources inside the program, as I have previously noted on SubMatts.
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| Provisional sketch of the S-5 class SSBN (based on an older iteration of the hydrodynamic testing models). Courtesy H.I. Sutton of Covert Shores. - |
Both these
assumptions turned out to be correct. We never heard about the funding being
granted for commencing the S-5’s build program, or when the build had actually
started. Also, it becomes clear that the S-5 program is now in a much more advanced stage
than the P-77 SSN.
So what is
the S-5?
To refresh
everyone’s memory, the “S-5” is a class of four SSBNs planned to succeed the
Arihant-class (inclusive of the Arihant Stretch sub-class) in the all-important
role of serving India's equivalent of what the UK would refer to as Continuous At-Sea Deterrence (CASD), by ensuring a credible Nuclear Second-Strike capability. As such, the S-5 can be regarded as the
second generation of Indian SSBNs.
The S-5 is
widely reported (including by Mr. Unnithan) as displacing around 13,500 tons
surfaced (so around ~16,000 tons submerged), about the same as the Royal Navy’s
Vanguard-class SSBNs, and more than twice as much as the first-generation
Arihant-class. The S-5’s deterrence mission is expected to be served by no less
than 12 missile tubes carried behind the sail/conning tower, as opposed to 4
tubes on the Arihant-class (SSBN hulls S2 and S3) and 8 tubes on the Arihant Stretch variant (SSBN hulls S4 and S4*). These 12
tubes are expected to house the upcoming K-5 and/or K-6 submarine-launched
ballistic missiles (SLBMs) with MIRV'ed nuclear warheads. I’ll be writing more
about developments in that missile program later.
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| An example of an older (c. 2018-19) hydrodynamic model of the S-5 SSBN. Image sourced via the website of Manjira Machine Builders Pvt. Ltd, a private defence contractor involved in the process. - |
While previous reportage on the CLWR-B2 PWR quotes it as having an output of 190 MWth (MegaWatt Thermal), the Times of India report linked above describes it as being 200 MW (an editorial oversight by the newspaper means they erroneously write it as MWe (MegaWatt Electric) instead of MWth, 200 MWe would translate into 650-700 MWth which is obviously not attainable for a submarine-based reactor given the size & weight limitations of onboard heat-exchanging & primary/secondary loop equipment).
This
electrical output will likely drive a 35 MW Nuclear-Electric Propulsion setup
(also known as a Turbo-Electric Drive, where the noisy mechanical reduction gearbox is replaced with a silent electric motor serving as transmission), which I had also written about in my article
dealing with the SSN program. This NEP/TED setup, much like the 190-200 MWth
PWR, will likely be utilized across both submarine classes (assuming it does
end up getting implemented), and just like the reactor, it will likely be ‘tuned’
to support each class’s unique power-delivery requirements.
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| An example of a newer (c. 2023-24) hydrodynamic model of what is presumed to be the S-5 SSBN. This is a cropped image with AI-based resolution upscaling, enhanced sharpness, contrast and colour-correction. The original, uncropped image can be found here. - |
With a maximum of around 35 MWe going to the submarines' motive/propulsion needs (though the propulsion won't generally be using 35 MWe all the time), it would still leave about 15-25 MWe on the table to serve other electrical purposes (for powering Sensors, Life Support Systems, Combat Management Systems, the boats' own Integrated Platform-Management System, etc.) even while the submarine is in a high-speed transit.
For comparison, the French Navy (Marine Nationale)'s Barracuda/Suffren-class SSN uses a 20 MWe nuclear-electric propulsion system (consisting of 2 x 10MWe turbo-generators) while the Triomphant-class SSBN is believed to use a 30.5 MWe system. Assuming the French K15 reactor (150 MWth) and secondary systems, shared by both Suffren & Triomphant classes, have a similar ~30% efficiency ratio (providing about 45 MWe of total electrical power), the French boats would also be left with a similar amount of power on the table (15-25 MWe) for non-propulsion needs. Note that, as stated earlier, just because an electric motor is of a certain power rating doesn't necessarily mean it will use that much all the time. The full rated power of the propulsive motor will likely only be used when the submarines are in high-speed transits.
A further note would be that, while at least the Suffren-class only uses its electric motors for transit up to a certain unspecified speed (switching to conventional reduction gearing for speeds beyond that, as mentioned in my previous article), it's not known how the Indian boats are configured for higher-speed transits. It's also not known if the 35 MWe setup is only for the S-5 SSBN while the P-77 SSN will get a smaller motor rated for less power or if the same motor with the same power rating will be shared by both classes, which I think is unlikely though much will depend on how big the P-77 SSN turns out to be, which is information that's not yet public knowledge though some informed sources put it at around the 6,000 tons (surfaced) figure while others say it will be 10,000 tons.
On topic, the first S-5 SSBN is expected to be commissioned into active service at some point in the mid-2030s. All four boats under this class could be in service by the late-2030s or possibly the early 2040s.
New Dry-Dock
A new, large dry dock that was being constructed at the Ship-Building Centre (SBC) right outside the city of Vizag on the eastern coast of India appears to be either complete or close to completion. The new dock, which I wrote about earlier, is situated beside the smaller, but longer, older one (which built the Arihant-class) and is part of the same SBC complex, dedicated for the construction of nuclear-powered submarines for the Indian Navy.
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| The large northern structure (with blue roof) is the new dry dock. The smaller southern structure (with 'L&T Heavy Engineering' pin on top) is the older dry dock, where the Arihant-class was built. Image via Google Maps. - |
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| Three Astute-class SSNs of the UK Royal Navy, seen under various stages of construction inside BAE's Devonshire Dock Hall at Barrow-in-Furness, northern England. BAE Systems image, sourced via Navy Lookout. - |
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| A clear view of the SBC complex, just outside the city of Vizag, south-eastern India. Image sourced via Twitter/X. - |
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| A presentation believed to show CAD images of L&T's Hazira module-fabrication facility, located in the western State of Gujarat. Real images of the interior of this facility have never been seen. This picture is also sourced via Twitter/X. - |
In this case, it could mean that final assembly of the S-5s could happen at either dry dock, old or new. That remains to be seen.
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| The stern section of a Columbia-class SSBN of the US Navy being transported on a barge toward the final assembly site. Image via General Dynamics Electric Boat. - |
