Next Generation Launch Vehicle (NGLV) / Project Soorya: News & Updates

Gautam

Gautam

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Feb 16, 2019
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Some background info:

Since the end of the LVM3's R&D work ISRO had wanted a more powerful rocket. VSSC had showcased many concepts of heavy lift rockets to GoI with the hopes of securing funding. Initial concepts from 2015-16 were heavily reliant on proven propulsion technologies like solid rockets & hypergolic fueled engines. Essentially, they wanted to make a larger LVM3:
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These concepts got no traction with the GoI. So, they went back to the drawing board. Around this time the CE-20 engine was flown & ISRO was making steady progress with the SCE-200 engine. VSSC assumed both the CE-20 & the SCE-200 engines would become operational pretty quickly. So, they designed a new Heavy Lift Vehicle (HLV) that incorporated these new propulsion technologies. That's how we got with this:
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VSSC continued to refine the HLV configuration. In the following years we saw many versions of this HLV:
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Recent push for a new rocket:

Around 2017-18, the PM started pushing for the Gaganyaan mission. While the Gaganyaan mission can be performed by the LVM3, a more sustained human spaceflight mission with space stations & all would require a more powerful rocket. This rocket was tentatively named Next Generation Launch Vehicle (NGLV) & the Project was named "Soorya".

Thus, the HLV project went from a concept study to a project that the GoI was looking to fund. By late 2019 it was becoming clear to ISRO that the issues with the SCE-200 engine were bigger than previously anticipated. It's not likely that the engine would become operational before 2025. Therefore, basing a future LV on this engine would greatly delay that project too. The SCE-200 is a Kerolox engine & would thus build up a lot of soot. Refurbishing & reusing such an engine is very expensive. So, a re-usable stage with this engine wasn't possible.

Technology development:

1. Engines:

Globally there is a clear shift towards Methalox engines for next gen launchers. In the US you had SpaceX & Blue Origin, in Europe they have the Prometheus engine & the Ariane Next launcher. ISRO tested the gas generator of the CE-20 engine with Methalox propellant & found it compatible.

LPSC quickly modified the powerhead of the CE-20 engine to accept Methalox propellant.
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This was used as a technology demonstrator engine & also as a steppingstone to build a more powerful engine.

ISRO proposed building 2 Methalox engines. One would be 100 ton thrust range for lower stages & another for upper stages.
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The engines are going to be a gas generator cycle type. Since GGs are easier to make & ISRO has a lot of experience with this cycle. Recently LPSC put out a tender for laser powder bed fusion 3D printing of a subscale thrust chamber of the future 100 ton thrust methalox engine.
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This engine will progress quickly. The design is a scaled-up eversion of the CE-20 & all testing facilities are available in house.

Specs of the 100-ton engine:
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2. Landing:

ISRO is planning to have the NGLV's 1st stage vertically land, like SpaceX's Falcon 9 rocket. For this purpose ISRO is running a project called Advanced Mission & Recovery Experiments (ADMIRE). ISRO will convert the GSLV Mk-2's L40 boosters into a vertically landing rocket:
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Flight tests of the ADMIRE will probably begin after the 4 Gavanyaan test vehicle launches are conducted. Technologies, landing algorithms, & recovery strategy from the ADMIRE projects will directly feed into the NGLV program.

3. Inflatable Aerodynamic Decelerators (IAD):

ISRO is studying IADs to recover upper stages of launch vehicles.
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This is still a faraway technology. The initial variant of the NGLV will probably not have IADs. ISRO has started flight tests of IADs already. They managed to recover the upper stage of a Rohini rocket from 84 km altitude.

ISRO successfully demonstrates new technology with Inflatable Aerodynamic Decelerator (IAD) – a game changer with multiple applications for future missions.

NGLV rocket architecture:

Version1:
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This was the 1st model of the NGLV that was shown to the public. It was an all-liquid rocket. In the lower stages ISRO was still hoping they get to use the SCE-200 engine.

Version2:
nglv.jpeg

In the version 2 of the NGLV the SCE-200 was removed completely. In this version we also saw the modularity of the new rocket.
nglv-5.jpeg


Version3:
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Since the 1st stage was recoverable. With every design revision the 1st stage propellant loading became bigger & bigger. In Version1, Stage 1 had 400 tons of propellant, in Version2 it went up to 445 tons & in Version3 it went up to 475 tons.

To visualize how big the NGLV will be here is a compassion with ISRO's current fleet:
nglv-1.jpeg


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Version4:
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On National Space Day (yesterday) we got to see Version4. A lot of details on the V4 are missing. But from the info we have so far, we can make out the following comparative chart:
Screenshot (994).png

The V4 is 345 tons heavier than the V3. Most all of that weight increase will be due to increased propellant loading in Stage 1. The height remains the same between V3 & V4. Then the only way to accommodate this additional propellant will be through increasing diameter of the rocket. Let's see if we get any more details.

This is how the NGLV V4 compared with other contemporary heavy lift rockets from around the world:
Screenshot (995).png

Not bad at all.
 
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Speedster1 said:
Will the NGLV allow us to send future missions to the moon without having to slingshot it?
Click to expand...
Depends on the payload you want to send to the moon. The direct orbit from Earth to Moon is called Trans-Lunar Insertion (TLI). LVM3's TLI capacity is ~3 tons. That means LVM3 can send a 3-ton satellite directly to the moon. But CY-3 was ~3.9 tons in weight. Thus, we needed to do a gravity slingshot.

NGLV will have a TLI capacity of ~7 ton.
Rajput Lion said:
Will this project Soorya give birth to the much secret Project Surya;) @marich01
Click to expand...
Nope. Turning this massive thing into an ICBM will serve no military purpose. Too big, too bulky, unnecessary range. We can drop nukes on Mars with this.

ICBMs are better off with solid stages.
 
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GXwMt01akAARA5j


Cabinet clears development of Next Generation of satellite Launch Vehicle


The Union Cabinet chaired by the Prime Minister Shri Narendra Modi has approved the development of Next Generation Launch Vehicle (NGLV), that will be a significant step towards the Government’s vision of establishing & operating the Bharatiya Antariksh Station and towards developing capability for Indian Crewed Landing on the Moon by 2040. NGLV will have 3 times the present payload capability with 1.5 times the cost compared to LVM3, and will also have reusability resulting in low-cost access to space and modular green propulsion systems.

The goals of the Indian space programme during the Amrit Kaal require a new generation of human rated launch vehicles with high payload capability & reusability. Hence, the development of the Next Generation Launch Vehicle (NGLV) is taken up which is designed to have a maximum payload capability of 30 tonnes to Low Earth Orbit, which also has a reusable first stage. Currently, India has achieved self-reliance in space transportation systems to launch satellites up to 10 tonne to Low Earth Orbit (LEO) and 4 tonne to Geo-Synchronous Transfer Orbit (GTO) through the currently operational PSLV, GSLV, LVM3 & SSLV launch vehicles.

The NGLV development project will be implemented with maximal participation from the Indian industry, who is also expected to invest in the manufacturing capacity at the outset itself, thereby allowing a seamless transition to the operational phase subsequent to the development. NGLV will be demonstrated with three development flights (D1, D2 & D3) with a target of 96 months (8 years) for the completion of the development phase.

The total fund approved is Rs. 8240.00 Crore and includes the development costs, three developmental flights, essential facility establishment, Programme Management and Launch Campaign.

Leap towards Bharatiya Antariksh Station

The development of NGLV will enable national & commercial missions including launch of human spaceflight missions to Bharatiya Antariksh Station, Lunar/inter-planetary exploration missions along with communication & earth observation satellite constellations to Low Earth Orbit that will benefit the entire space ecosystem in the country. This project will boost the Indian space ecosystem in terms of capability and capacity.
 
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Update on NGLV's developmental work:
Screenshot (1097).png

The NS3 stage shown below is a Methalox upper stage:
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ISRO has previously proposed a LM40 methaox upper stage for the NGLV. But this stage probably wasn't sanctioned to be built. The sanctioned NGLV will borrow the LVM3's C32 stage for 1st 3rd stage.
 
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