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Next Generation Launch Vehicle

The Next Generation Launch Vehicle (NGLV) is a partially reusable, three-stage under development by the Indian Space Research Organisation () to enable cost-effective access to space for advanced missions. It features a reusable booster stage powered by liquid oxygen-methane engines and two expendable upper stages, designed to deliver a maximum of 30 metric tonnes to (). With three times the capacity of ISRO's current at 1.5 times the operational cost, the NGLV incorporates modular green propulsion systems to support , satellite constellations, and deep . Approved by the Union Cabinet in September 2024 with a total budget of ₹8,240 , the NGLV project spans 96 months and includes three developmental flights to validate its performance. The initiative emphasizes maximal participation from Indian industry, including investments in manufacturing capabilities, to align with national goals . It is positioned to succeed ISRO's current Mark-3 () and thereby enhance India's launch capacity from up to 10 tonnes to and 4 tonnes to (). The NGLV's development focuses on key objectives like supporting the Bharatiya Antariksh Station and enabling an crewed lunar by 2040, marking a significant evolution in ISRO's launch infrastructure. The (LPSC) leads the propulsion efforts, developing components such as the LME1100 LOX-methane engine, the LM450 reusable first stage with nine such engines, the LM120 second stage with twin engines, and the C32 cryogenic third stage. Recent milestones include ignition trials for spark torch igniters to enable multiple restarts of vehicle stages, underscoring the project's progress toward reliable reusability.

Development History

Initial Concepts

In the post-2010 period, the outlined a strategic vision for advancing its launch capabilities to support high-priority objectives, including missions such as crewed lunar landings and the deployment of large-scale satellite constellations for enhanced communication and . This roadmap, detailed in official sector overviews, prioritized the evolution toward heavier-lift and reusable systems to overcome the constraints of existing vehicles like the Mark III (GSLV Mk III), which limited payloads to approximately 4 tonnes in Geosynchronous Transfer Orbit (GTO). Initial proposals for what would become the Next Generation Launch Vehicle (NGLV) emerged between and 2018, focusing on a partially reusable significantly surpassing the GSLV Mk III's limitations and enabling more ambitious deep-space and orbital missions. These concepts drew from ongoing reusable technology demonstrations, such as the Reusable Launch Vehicle Technology Demonstrator (RLV-TD) flight, which validated autonomous re-entry and landing mechanisms essential for in future operations. The proposed design emphasized to streamline production and adaptability across mission profiles. ISRO's Launch Vehicle Programme Office spearheaded key feasibility studies during this phase, including detailed cost-benefit analyses that evaluated the economic advantages of partial reusability, such as booster recovery, against traditional expendable configurations. These reports highlighted potential cost reductions in launch costs through repeated use of first-stage elements, while addressing technical challenges like thermal protection and reliability. The project was initially designated as the "Next Generation Launch Vehicle" to clearly differentiate it from operational workhorses like the (PSLV) and , signaling a shift toward next-era capabilities in India's space portfolio. This naming reflected ISRO's intent to integrate lessons from the as a baseline for scalability.

Approval Process

The Union Cabinet approved the development of the Next Generation Launch Vehicle (NGLV) on September 18, 2024, allocating a of ₹8,240 crore to support the program's initiation and execution over an eight-year timeline. This decision, chaired by Prime Minister Narendra Modi, formalized governmental backing for ISRO's efforts to create a partially reusable heavy-lift capable of supporting future missions, including the Bharatiya Antariksh . The approval encompassed funding for design, prototyping, and three developmental flights (D1, D2, and D3), aimed at validating the vehicle's performance by approximately 2032. In early 2025, internal discussions within considered renaming the vehicle to Lunar Module Launch Vehicle (LMLV) to emphasize its role in lunar missions, particularly for variants optimized for to the Moon. This proposal briefly highlighted a focus on lunar-specific configurations, such as those without strap-on boosters for direct insertion, but was ultimately set aside in favor of retaining NGLV as the overarching family name to encompass broader applications, including payloads up to 30 tons. ISRO has explored international collaborations to accelerate development, particularly for reusability technologies like autonomous landing systems and , engaging with global partners for potential knowledge sharing and technology transfers. However, as of November 2025, no binding agreements have been finalized, with efforts prioritizing capabilities while maintaining openness to joint ventures that align with India's space policy. Key milestones include the 2024 greenlight, with initial component prototypes—such as semi-cryogenic engines—targeted for ground testing by 2028 to inform full vehicle integration.

Current Status

As of November 2025, the of the Next Generation Launch Vehicle (NGLV) by the remains in the early conceptual and design phases, with active efforts focused on key technologies such as reusable stages and advanced propulsion systems. has issued expressions of interest for critical components, including the fabrication of tanks using , indicating progression toward . Subscale testing of reusable components, including ignition trials for LOX-methane engines intended for the reusable booster stage, is being conducted at the in . The project received approval in September 2024 with a total allocated of ₹8,240 to cover costs, three developmental flights, and necessary over an eight-year timeline. By mid-2025, initial expenditures have supported activities, though specific progress on budget utilization reflects the project's nascent stage, with foundational work on engines and materials ongoing. The NGLV is a cornerstone of India's broader space vision through 2040, designed to enable sustainable access to space and align with ambitious programs such as for demonstrations and the Chandrayaan lunar exploration series. It supports the establishment of the Bharatiya Antariksh Station by 2035 and facilitates crewed lunar missions by 2040, enhancing payload capacities for these initiatives beyond current launchers like the LVM3. Recent announcements from indicate that the maiden developmental flight of the NGLV is targeted for 2032, marking the completion of the initial development phase, with subsequent human-rating processes planned to certify it for lunar missions by 2035.

Vehicle Design

Configuration and Stages

The Next Generation Launch Vehicle (NGLV) employs a three-stage to achieve efficient orbital insertion. The first stage functions as the primary booster, generating the required for initial ascent through the dense lower atmosphere. The second stage is engineered for optimal performance in the of , bridging the transition from atmospheric flight to upper orbital phases. The third stage provides the fine control necessary for accurate payload deployment into target orbits, such as or geostationary transfer orbit (). The overall vehicle measures approximately 90-100 meters in height and features a core diameter of 5-6 meters, enabling it to accommodate substantial loads while maintaining structural efficiency. This design supports modular variants tailored to mission requirements, with the base configuration capable of delivering ~30 tonnes to () or ~10 tonnes to GTO as of 2025. The first stage incorporates reusability elements to enable recovery after separation. Structural innovations in the NGLV emphasize weight reduction and durability through the use of advanced composites, scaled up from those applied in the launch vehicle for components like shrouds and equipment bays. These materials enhance structural integrity under extreme launch conditions while minimizing mass. Payload fairing options include a standard 5-meter for accommodating typical sizes, with expandable configurations up to 6 meters to support larger modules or deployable structures.

Reusability Elements

The Next Generation Launch Vehicle (NGLV) incorporates partial reusability to enhance cost efficiency, focusing primarily on the recovery and refurbishment of its first stage. This approach draws inspiration from established vertical takeoff and vertical landing (VTVL) technologies, adapted to Indian engineering standards by the Indian Space Research Organisation (ISRO). The first stage is designed for powered descent and landing, enabling either return to the launch site or downrange recovery, which supports multiple missions per booster while maintaining operational reliability. Key reusability elements include steerable grid fins for atmospheric reentry control and deployable landing legs for touchdown stability, integrated with advanced and systems developed by ISRO's (VSSC). These features allow the first stage to perform precise maneuvers during descent, similar to proven international designs but optimized for NGLV's LOX-methane engines and structural materials. Recovery options extend to sea landings, with ISRO planning infrastructure for both land-based and oceanic retrieval to accommodate varied mission profiles. In contrast, the second and third stages of the three-stage NGLV configuration remain expendable, prioritizing precision orbital insertion and payload deployment over recovery to ensure mission success rates. This hybrid design balances reusability benefits with the technical demands of upper-stage operations, where refurbishment could compromise accuracy. aims to demonstrate these elements through a series of development flights within an eight-year timeline, targeting operational reusability to achieve low-cost access to .

Propulsion Systems

The propulsion systems of the Next Generation Launch Vehicle (NGLV) are engineered to balance high requirements for initial ascent with for orbital insertion, incorporating advanced liquid technologies developed by the Indian Space Research Organisation (). These systems emphasize LOX-methane engines for the lower stages to support reusability, with a cryogenic upper stage, as of 2025. The selection of propellants and engine designs draws from 's ongoing advancements in liquid , focusing on throttleable engines for controlled descent and restart capabilities for precise deployment. The first stage (LM450) utilizes a cluster of nine LOX-methane (LCH4) engines (LME1100), each delivering approximately 1100 kN of . This enables robust sea-level with a (Isp) of around 310-320 seconds, supporting reusability through deep throttling for landing maneuvers. The stage achieves a high , maximizing payload efficiency. The second stage (LM120) is powered by two LME1100 /LCH4 engines, providing vacuum thrust of ~2200 kN total. This setup offers an Isp exceeding 330 seconds for efficient velocity gains during mid-ascent, ensuring smooth transition to the upper stage. Its design supports reliable ignition and sustained burn for diverse mission profiles. The third stage (C32) features a restartable cryogenic upper stage powered by an uprated engine, operating on and (LH2) propellants with approximately 220 kN of thrust. Using ~32 tonnes of propellants (up from C25's 25 tonnes), this engine variant incorporates enhanced restart mechanisms tested in recent trials (as of 2025), allowing multiple ignitions for maneuvering. It prioritizes high Isp (around 450 seconds) in the environment to minimize fuel consumption during final adjustments, increasing capacity by ~25% over predecessors. Overall, these propulsion elements integrate with the vehicle's staging for seamless separation, with the first stage's engine cluster providing the primary thrust vector control. The reflects ISRO's emphasis on indigenous development, drawing from human-rated qualifications of similar engines to ensure reliability for heavy-lift operations.

Performance Specifications

Payload Capabilities

The Next Generation Launch Vehicle (NGLV) demonstrates enhanced delivery capabilities compared to predecessor systems, enabling a broader range of missions including satellite constellations and interplanetary probes. In its baseline configuration, the NGLV can deliver 10 tonnes to Geosynchronous Transfer Orbit (GTO), providing sufficient lift for heavy communication that current vehicles like the struggle to accommodate in single launches. For (), the vehicle achieves up to 30 tonnes as of 2025. Performance is influenced by operational modes, particularly reusability of the first stage, which supports cost-effective access while maintaining high lift efficiency, with the systems contributing to overall optimization. The vehicle's fairing and upper stage design further mitigate environmental factors like atmospheric drag and thermal loads, preserving integrity across varying launch windows. To maximize utility for constellation deployments, the NGLV incorporates a multi-payload adaptor system capable of accommodating 4-6 satellites per launch, ideal for scaling systems like NavIC expansions with multiple regional navigation spacecraft. This configuration leverages standardized interfaces for rapid integration, reducing per-satellite costs and enabling frequent rideshare opportunities. The NGLV is designed to support missions, integrating features from the program to ensure reliable performance.

Operational Features

The Next Generation Launch Vehicle (NGLV) is engineered to support flexible trajectory profiles tailored to mission requirements, including direct ascent paths to (GTO) for efficient satellite deployment and multi-burn sequences for deep space transfers such as lunar missions. These options leverage the vehicle's three-stage architecture and reusable first stage to optimize fuel efficiency and payload delivery, enabling to address a range of orbital insertion needs from to beyond. Guidance and navigation for the NGLV incorporate advanced inertial measurement units (IMUs) based on ring laser gyroscopes (RLGs), providing high-precision and data during ascent. These systems are supplemented by GPS-aided navigation to achieve accurate orbital insertion, with ISRO's indigenous RLG technology ensuring robust performance across launch vehicles for dynamic environments. The integration of redundant sensors enhances , maintaining trajectory fidelity essential for complex missions. Safety and reliability are prioritized through redundant avionics architectures, targeting high mission success rates comparable to ISRO's established vehicles like the LVM3, which have demonstrated over 95% reliability in operational flights. This redundancy includes duplicated flight control computers and sensor arrays to mitigate single-point failures, supporting the NGLV's role in human-rated and critical payloads. Launches from Sriharikota necessitate adaptations to tropical environmental conditions, including wind shear compensation algorithms in the flight control system to counteract atmospheric disturbances during liftoff. These features account for regional constraints such as high humidity and seasonal cyclones, ensuring stable ascent profiles through real-time thrust vectoring and aerodynamic adjustments.

Planned Operations

Launch Schedule

The of the Next Generation Launch Vehicle (NGLV) is targeted for 2032 as an uncrewed demonstration mission from the , with a primary focus on validating first-stage recovery for reusability. In January 2025, the Union Cabinet approved the establishment of a Third Launch Pad at the to support NGLV and other advanced launch vehicles. This initial test will be the first of three planned development flights (D1, D2, and D3) to complete the vehicle's qualification within the program's 96-month development phase, approved in September 2024. Subsequent operational launches are projected to begin in the mid-2030s, initially supporting deployments for communication and constellations, including missions for the series to . From 2036 onward, the NGLV will enable human-rated missions, contributing to India's crewed lunar landing ambitions by 2040 through multiple launches involving in-orbit assembly and docking. The launches will be facilitated by extensive partnerships with Indian private industry to build manufacturing capacity and support commercial satellite operations.

Mission Applications

The Next Generation Launch Vehicle (NGLV) is poised to significantly enhance India's commercial space sector by enabling the launch of heavier communication satellites into (GTO), particularly for the Indian National Satellite (INSAT) system, which supports , , and applications. With a capacity approximately three times that of the current , the NGLV will allow ISRO's commercial arm, (NSIL), to offer competitive services for multi-tonne (GEO) missions, positioning India as a viable alternative to international providers. In the realm of scientific exploration, the NGLV will underpin ambitious interplanetary endeavors, including the Chandrayaan-4 mission for lunar sample return and prospective Mars lander operations to conduct surface experiments. Its heavy-lift capabilities, including substantial performance, will facilitate these deep-space missions by delivering complex spacecraft and instruments beyond , building on ISRO's successes like Chandrayaan-3. Additionally, the vehicle is set to support the for atmospheric and surface studies, expanding India's portfolio. For , the NGLV represents a cornerstone of India's crewed ambitions, providing the heavy-lift capacity required to assemble and resupply the Bharatiya Antariksh Station (BAS) in by 2035, accommodating modules and logistics for 3-6 astronauts. It will also enable crewed lunar missions, targeting an Indian landing by 2040 as part of a broader roadmap that includes orbital demonstrations and habitat precursors. These applications leverage the NGLV's human-rated design for safe, reliable transport of personnel and equipment.

Challenges and Future Prospects

Technical Hurdles

One of the primary technical hurdles in developing the Next Generation Launch Vehicle (NGLV) is achieving reliable reusability, particularly for the booster stage intended for multiple missions. The reusable elements must withstand the intense thermal loads during atmospheric reentry, where temperatures exceed 1600°C, necessitating advanced protection systems () capable of repeated use without significant degradation. ISRO faces challenges in developing durable suitable for the vertical propulsive landing profile of the NGLV booster, building on prior reusable technology demonstrations. Current Indian materials for heat shields lag behind those and , where companies like have demonstrated boosters enduring dozens of flights through iterative advancements in ablative and metallic . ISRO's efforts, constrained by budget limitations, prioritize cost-effective innovations but require further refinement to match the rapid turnaround and high-cycle reusability of international counterparts. Supply chain dependencies pose another significant obstacle, especially for and , which constitute about 10% of the vehicle's components despite 90% overall . ISRO relies on imported high-precision for guidance and control systems, increasing vulnerability to global disruptions and costs. Initiatives under aim to mitigate this by fostering domestic manufacturing, with ISRO Chairman V. Narayanan advocating for reduced imports through partnerships with Indian industry. Testing limitations further complicate NGLV development, as full-scale hot-fire facilities for semi-cryogenic engines and stages are maturing, with integrated stage tests expected to support the first flights around 2027-2028. Current infrastructure at the in Mahendragiri supports tests up to 2600 thrust via power head test articles, including recent successful hot tests of the semi-cryogenic power head in May 2025. Comprehensive stage-level evaluations rely on simulations and subscale models in the interim, introducing uncertainties in validating the LME1100 (~1100 ) semi-cryogenic engine's performance for NGLV boosters. Integration challenges arise in human-rating the vehicle, which demands exceptionally high reliability standards to ensure crew safety during missions. For cryogenic stages, this requires rigorous qualification processes, as demonstrated by the successful human-rating of the engine through extensive endurance testing exceeding 6350 seconds of operation. Past anomalies in cryogenic upper stages, such as ignition failures, highlight the complexities of integrating these systems with abort mechanisms and escape systems, necessitating design modifications for fault-tolerant performance.

Strategic Importance

The Next Generation Launch Vehicle (NGLV) represents a pivotal advancement in India's space program, enabling the nation to achieve greater self-reliance in heavy-lift capabilities essential for strategic national objectives. With a payload capacity of up to 30 tonnes to ()—three times that of the —it supports critical missions such as the Bharatiya Antariksh Station by 2035. As of November 2025, NGLV development continues alongside the Lunar Module Launch Vehicle (LMLV), an evolved heavier variant (up to 80 tonnes to ) targeted for an Indian crewed lunar landing by 2040, advancing and interplanetary exploration. This enhanced capacity addresses the evolving demands of satellite constellations, , and scientific missions, reducing dependence on foreign launch services and bolstering India's in space activities. Strategically, the NGLV's partially reusable design, featuring a recoverable first stage, is projected to lower costs per to by approximately half compared to current expendable vehicles, fostering a cost-efficient for both and commercial operations. This reusability not only democratizes access to but also stimulates through increased private sector involvement, job creation in high-technology , and integration with initiatives like Space Vision 2047. By enabling higher launch frequencies and supporting defense-oriented applications—such as secure communications and maritime surveillance—the vehicle strengthens in an increasingly contested domain. On the global stage, the NGLV positions as a competitive player in the international space economy, facilitating collaborations like the NASA-ISRO (NISAR) mission and potential partnerships for lunar sample returns. Its development underscores India's commitment to innovation, with the reusable technology marking a 1,000-fold increase in capability since the SLV-3 era, thereby enhancing geopolitical influence and technological leadership. Overall, the NGLV is integral to realizing ambitious goals like orbiter missions and Chandrayaan-4, ensuring sustainable progress in space exploration while aligning with broader .

References

  1. [1]
    New Projects Approved - LPSC
    The development of the Next Generation Launch Vehicle (NGLV) is initiated to have a maximum payload capability of 30 tonnes to Low Earth Orbit, which also has a ...
  2. [2]
    ISRO successfully carried out ignition trial using Spark Torch Igniter
    Mar 7, 2025 · ISRO is developing Lox-Methane engine and stages for the Next Generation Launch Vehicle, which uses a reusable booster stage and two expendable ...
  3. [3]
    New Re-usable Low-cost launch vehicle for Bharat - PIB
    Sep 18, 2024 · 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.
  4. [4]
    [PDF] Overview of Indian Space Sector 2010
    The programme encompasses development of advanced launch vehicle systems including critical technologies for re-usable launch vehicles and Human Space. Flight ...
  5. [5]
    The way forward for ISRO's launch vehicles - SpaceTech Asia
    Jul 24, 2018 · The next generation ULV is ISRO's effort at unifying their launch vehicles. Currently they have 3 launch vehicles – PSLV, GSLV MK II and GSLV MK ...
  6. [6]
    [PDF] Research Areas in Space - ISRO
    The LOX and LCH4 tanks being developed for NGLV are proposed to be uninsulated. The high heat in-leak into the cryogenic propellant will lead to significant ...
  7. [7]
    Cabinet approves development of Next Generation Launch Vehicle
    Sep 18, 2024 · The NGLV will undergo three developmental flights (D1, D2, and D3), with a target completion timeline of 96 months (eight years). A total budget ...
  8. [8]
    Leap Beyond: Elevating India's Space Saga - PIB
    Jul 30, 2025 · ISRO's development of the Next Generation Launch Vehicles (NGLV) represents a major leap in space exploration capabilities. Unlike previous ...
  9. [9]
    For lunar missions, ISRO building its heaviest rocket ever | India News
    Aug 23, 2025 · ISRO Chairman V Narayanan said Friday that the LMLV would be ready by 2035, and would be used for the lunar missions, including the first human ...
  10. [10]
    NGLV or LMLV? ISRO's heavy lift mega rocket blurs lines - News9 Live
    Oct 17, 2025 · If the development timelines have to be reconciled, then ISRO is aiming for developing the NGLV by 2031 and the LMLV by 2036, but it is ...
  11. [11]
    Commercialization in India's Space Sector - Shankar IAS Parliament
    Promote global collaboration – Indian companies should be encouraged to explore partnerships with global firms for technology transfer and co-development of ...<|control11|><|separator|>
  12. [12]
    India's SOORYA Rocket: A New Era in Space Exploration
    Oct 1, 2024 · The development of SOORYA could open doors for increased international collaboration in space exploration, potentially leading to joint missions ...
  13. [13]
    Next Generation Launch Vehicle (NGLV) - ForumIAS community
    Sep 20, 2024 · The Union Cabinet has approved the development of the Next Generation Launch Vehicle (NGLV). About Next Generation Launch Vehicle (NGLV). 1.
  14. [14]
    [PDF] रुवच की अवभव्यक्ति/EXPRESSION OF INTEREST - ISRO
    Oct 8, 2025 · Next Generation Launch Vehicle (NGLV). Page 3. Page 2 of 12. Section 1 : REQUEST FOR EXPRESSION-OF-INTEREST (EoI). End-to-End Production of ...
  15. [15]
    [PDF] RESPOND Basket 2024 - ISRO
    • Next generation launch vehicle (NGLV) is planning to use friction stir welding (FSW) for the fabrication of propellant tanks (both long seam and cir-seam) ...
  16. [16]
    India testing reusable tech on NGLV, Isro chief happy with results
    Jan 29, 2025 · The NGLV aims to revolutionise space launches by enabling the recovery and reuse of its first stage, akin to technologies developed by SpaceX.Missing: phase | Show results with:phase
  17. [17]
    NGLV - “Soorya” for Future Space Missions - India Strategic
    Mar 3, 2025 · ISRO has initiated the design phase for its next-generation launch vehicle, named 'Soorya', marking a significant step forward in India's space exploration ...<|control11|><|separator|>
  18. [18]
    New Re-usable Low-cost launch vehicle for Bharat - PIB
    Sep 18, 2024 · The total fund approved is Rs. 8240.00 Crore and includes the development costs, three developmental flights, essential facility establishment, ...
  19. [19]
    EFFORTS TO MAKE INDIA A DEVELOPED NATION BY 2047 ... - PIB
    Government of India has announced the Space Vision 2047 which targets establishing BharatiyaAntariksh Station (BAS) by 2035 and landing of an Indian on Moon by ...
  20. [20]
    maiden human spaceflight to launch in 2027: ISRO chief Narayanan
    Oct 15, 2025 · Indians will land on the Moon by 2040. The Gaganyaan human spaceflight mission is planned for 2027. A national space station is expected by 2035 ...
  21. [21]
    https://idrw.org/isros-soorya-rocket-to-phase-out-gslv-by-mid-2035/
  22. [22]
    ISRO's Soorya Rocket to Phase Out GSLV by mid 2035
    Sep 3, 2025 · Approved by the Union Cabinet on September 18, 2024, with a budget of ?8,240 crore, this partially reusable, three-stage heavy-lift rocket is ...
  23. [23]
    https://www.compositesworld.com/news/isronsil-deploys-36-oneweb-satellites-in-first-commercial-lmv-3-rocket-launch
  24. [24]
    ISRO's Next Generation Launch Vehicle - Compass by Rau's IAS
    Jan 30, 2025 · LVM3 has a maximum payload capacity of 10 tonnes to LEO and 4 tonnes to Geo-Synchronous Transfer Orbit (GTO). NGLV will have 3 fold payload ...
  25. [25]
    Isro eyes next generation launch vehicle for heavier payloads
    Oct 30, 2022 · The NGLV could be a three-stage rocket powered by green fuel combinations such as methane and liquid oxygen or kerosene and liquid oxygen.Missing: 2016 2018<|control11|><|separator|>
  26. [26]
    ISRO eyes next generation launch vehicle for heavier payloads
    Oct 30, 2022 · He said the rocket is planned to carry a 10 tonne payload in the Geostationary Transfer Orbit (GTO) or 20 tonnes to the low earth orbit.
  27. [27]
    ISRO/NSIL deploys 36 OneWeb satellites in first commercial LMV-3 ...
    Oct 28, 2022 · Kineco Kaman supplied the LVM-3 composite equipment bay shroud assemblies and other CFRP components that made the launch possible.
  28. [28]
    LVM3(Geosynchronous Satellite Launch Vehicle Mk III) - ISRO
    Sep 20, 2023 · Vehicle Specifications ; Height, : 43.5 m ; Vehicle Diameter, : 4.0 m ; Heat Shield (Payload Fairing) Diameter, : 5.0 m ; Number of Stages, : 3.
  29. [29]
    ISRO: NGLV, Ganganyaan tech to help India's space tourism take off
    Oct 7, 2024 · NGLV will need to have an advanced navigation system along with deployable landing legs, steerable grid fins, and advanced avionics which VSSC ...
  30. [30]
    India Testing Reusable Tech On New Generation Launch Vehicle
    Jan 31, 2025 · The first stage of the NGLV is being designed with vertical take-off and vertical landing capabilities, similar to SpaceX's Falcon rockets.
  31. [31]
    ISRO Next Generation Launch Vehicle (NGLV)
    ISRO's new heavy-lift rocket, the NGLV (New Generation Launch Vehicle), has the working name SOORYA, and is expected to be ready by 2034-2035 (https:// ...
  32. [32]
    development of reusable launch vehicle technology - PIB
    Mar 27, 2025 · NGLV vehicle has been configured as a three-stage launch vehicle with a recoverable & reusable first stage. The Government of India has ...
  33. [33]
    ISRO developing LOX-methane engine for NGLV - ET Manufacturing
    Mar 7, 2025 · ... (NGLV), which would feature a reusable booster stage and two expendable upper stages. A LOX-methane engine is a rocket engine that uses ...Missing: third | Show results with:third
  34. [34]
    ISRO achieves major breakthrough in Semicryogenic Engine ...
    Mar 29, 2025 · The first major breakthrough in the Semicryogenic engine development programme was achieved on March 28, 2025, when the first successful hot ...Missing: NGLV Generation RP- 1
  35. [35]
    Advanced Propulsion Systems - LPSC
    Human rating qualification of Vikas engine and CE20 engine successfully completed through series of hot tests. ... LOX-Methane Engine Key Technologies (LME-KT) ...
  36. [36]
    Semi Cryogenic Engine - Drishti IAS
    May 14, 2025 · Semi Cryogenic Engine: It is a liquid rocket engine that uses liquid oxygen (LOX) as an oxidizer and refined kerosene (RP-1) as fuel. Designed ...
  37. [37]
    ISRO demonstrates restart of Vikas engine - Space Daily
    Jan 20, 2025 · ISRO successfully demonstrated the capability to restart its Vikas liquid engine during a test conducted on January 17, 2025, at the ISRO Propulsion Complex in ...Missing: Generation RP- 1 CE-
  38. [38]
    Innovations in Space: How is India Shaping its Space Program
    Sep 6, 2024 · India wants to develop both a mobile launch capability and a diversified launch system consisting of solid and liquid-propelled rockets.
  39. [39]
    ISRO Launches 'Soorya': The Future of Next-Gen Space Exploration
    Feb 28, 2025 · ISRO has initiated the design of its next-gen launch vehicle 'Soorya', aimed at supporting future space missions, including human landings ...
  40. [40]
    Launchers - ISRO
    Jan 9, 2025 · The LVM3 is the next generation launch vehicle capable of launching 4 tonne class of communication satellites and 10 tonne class of payloads to ...
  41. [41]
    Atmanirbharta In Space - PIB
    Aug 15, 2025 · As of 7th August 2025, 11 satellites have been put in orbit. At present four Satellites are providing PNT services, four satellites are being ...
  42. [42]
    Inside ISRO's NGLV Plans: ISRO Chairman V Narayanan Shares ...
    Feb 17, 2025 · The NGLV is part of ISRO's broader vision to establish the Bharatiya Antariksh Station and support human spaceflight missions by 2040.Missing: 2016 2018
  43. [43]
    [PDF] Inertial Sensors - CII HIVE
    Ÿ Used in all ISRO's Launch Vehicle, Spacecraft and Interplanetary missions ... ISRO RING LASER GYRO DIGITAL (ILGD). Ideal sensor for high dynamic range ...Missing: IMU | Show results with:IMU
  44. [44]
    Isro to build 3rd launch pad, next-gen rocket could also land on sea
    Oct 8, 2024 · Isro chairman S Somanath reveals plans for a third launch pad at Sriharikota to ensure redundancy and accommodate the New Generation Launch Vehicle (NGLV).
  45. [45]
    [PDF] India's Space Exploration Roadmap - UNOOSA
    India's roadmap includes human spaceflight, a space station (BAS) by 2035, lunar landing by 2040, and missions to Venus and Mars.<|separator|>
  46. [46]
    https://timesofindia.indiatimes.com/india/did-a-cryo-upper-stage-process-issue-cause-gslv-to-fail/articleshow/85446250.cms
  47. [47]
    ISRO's Reusable Launch Vehicle: Pioneering Sustainable Space ...
    Some of the critical challenges include: 1. Thermal Protection Systems (TPS). RLVs re-enter Earth's atmosphere at hypersonic speeds, generating extreme heat.
  48. [48]
    A Deep Dive Into ISRO's Reusable Launch Vehicle Technology
    Feb 24, 2020 · Let us now take a deeper dive into the aerodynamic and thermal protection-related technologies developed as part of the RLV-TD programme and the ...
  49. [49]
    ISRO's Narayanan Pushes For Reduced Electronics Imports
    Mar 28, 2025 · As reported by the Economic Times, Narayanan highlighted that while 90% of a launch vehicle is made from indigenous components, 10% still relies ...
  50. [50]
    ISRO Chairman Calls For Reducing Electronic Imports, Boosting ...
    Mar 28, 2025 · ISRO Chairman V Narayanan has called for a significant reduction in India's dependence on imported electronic components and urged the Ministry ...
  51. [51]
    First LVM3 launch vehicle equipped with semi-cryogenic stage ...
    Aug 2, 2025 · We have set the launch target for the first quarter of 2027,” ISRO Chairman V. Narayanan said during a visit to Thiruvananthapuram.Missing: timeline NGLV
  52. [52]
    Successful completion of Human rating of CE20 Cryogenic engine ...
    Feb 20, 2024 · ISRO has accomplished a major milestone in the human rating of its CE20 cryogenic engine that powers the cryogenic stage of the human-rated LVM3 launch vehicle ...Missing: NGLV abort integration
  53. [53]
    Did a cryo upper stage process issue cause GSLV to fail? | India News
    Aug 19, 2021 · Nearly a week after the GSLV-F10 mission failed after an anomaly in the cryogenic upper stage (CUS) resulted in non-ignition, ...
  54. [54]
    India's Space Exploration: The Role of ISRO's Next Generation ...
    Dec 13, 2024 · The Next Generation Launch Vehicle (NGLV) is ISRO's response to the evolving needs of space exploration and satellite deployment.