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India's Space Power Revealed: How Self-Reliance in Rocket Tech Changes Everything

India has officially declared self-reliance in its space transportation capabilities. This means the country can independently launch heavy satellites for communication, navigation, and exploration. Exciting new projects are on the horizon, including a massive new rocket and reusable launch vehicles. The historic Gaganyaan mission to send astronauts to space is firmly on track for the end of this decade.

Key Points: India Achieves Self-Reliance in Space Transportation Systems

  • India can now launch 10-tonne satellites to Low Earth Orbit using its own rockets
  • Next Generation Launch Vehicle in development to carry 30 tonnes to orbit
  • Reusable rocket technology being developed for low-cost space access
  • Gaganyaan human spaceflight mission is targeted for launch in 2027-28
3 min read

India has achieved self-reliance in space transportation systems: Jitendra Singh

Union Minister Jitendra Singh announces India can now launch satellites up to 10 tonnes to orbit, marking a major milestone in indigenous space technology.

"These launch vehicles have enabled independent space access to satellites for earth observation, communication, navigation, and space exploration. - Jitendra Singh"

New Delhi, Dec 17

India has achieved self-reliance in space transportation systems and can launch satellites up to 10 tonnes to Low Earth Orbit (LEO) and 4.2 tonnes to Geo-Synchronous Transfer Orbit (GTO), said Jitendra Singh, Union Minister of State (Independent Charge) for Science and Technology, in the Parliament on Wednesday.

In a written reply in the Lok Sabha, Singh shared that the feat has been achieved through the currently operational PSLV, GSLV, and LVM3 launch vehicles.

“These launch vehicles have enabled independent space access to satellites for earth observation, communication, navigation, and space exploration. In order to enhance the launch vehicle capabilities towards meeting the expanded space vision, the government has approved the development of a Next Generation Launch Vehicle (NGLV), which will provide a maximum payload capability of 30 tons to Low Earth Orbit,” Singh said.

“Towards achieving low-cost access to space, reusable launch vehicle technologies are also being developed, including a partially reusable variant of NGLV with 14 tonnes payload capability to LEO. Another development is of a winged body upper stage which will fly back from the orbit to the Earth and autonomously land on a runway,” he added.

The Minister further informed that ISRO has undertaken the development of a high-thrust (2000kN) semi-cryogenic engine for inducting in the LVM3 vehicle.

In addition, an environmentally friendly methane-based propulsion system for a high-thrust engine is also being conceptualised for NGLV.

The “development of an air-breathing propulsion system is underway towards a Dual-Fuel Scramjet engine”, Singh said.

He also mentioned the current status of Gaganyaan, India's human spaceflight programme, and the timelines fixed for crewed missions.

Gaganyaan mission, which aims to demonstrate indigenous human spaceflight capability to LEO, is expected to launch the first crewed mission in 2027-28.

"For the Gaganyaan programme, ISRO is developing and realising various systems for accomplishing the planned missions. Considering the stringent human rating requirements, extensive testing of propulsion elements, structures of Human-Rated Launch Vehicle (HLVM3), Service Module Propulsion System, and Crew Module Propulsion System, the parachute-based deceleration system has been completed,” the Minister said.

For the first uncrewed mission (G1), all HLVM3 stages and CES motors are ready. While crew and service module systems have been realised, assembly and integration activities are nearing completion, Singh said.

Meanwhile, Singh noted that a total of 22 ISRO satellites have been launched between December 2020 and December 2025.

Of the 22, “seven satellites are Earth Observation, four are communication, two are navigation, three are space science, and six are technology demonstration missions”, Singh said.

While 2020 and 2021 saw one satellite launch each, 2022 saw six, four in 2023 and six in 2024. The year 2025 saw the launch of satellites NVS-02, CMS-03 (GSAT-7R), RISAT-1B, and NISAR.

- IANS

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Reader Comments

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Sarah B
As someone who follows global space news, this is impressive. The payload capabilities (10t to LEO) put India in a very competitive position. The focus on reusable tech and methane propulsion shows forward-thinking. Hope this technological prowess also translates into more public-private partnerships and spin-off benefits for the common citizen.
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Vikram M
Great achievement, no doubt. But I hope we are also investing adequately in our basic science education and research labs. Space is glamorous, but we need strong foundations across all scientific disciplines. Also, the benefits of this technology should reach agriculture and disaster management faster.
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Priya S
So proud of ISRO! They do so much with a budget that's a fraction of other space agencies. The NGLV with 30-ton capability sounds like a game-changer. My son is inspired to become a rocket scientist because of them. When is the next student satellite program? He's eagerly waiting.
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Rohit P
The part about the winged body upper stage that flies back and lands on a runway is straight out of sci-fi movies! 🤯 ISRO is quietly building the future. Self-reliance means we are not dependent on any other country for critical launches. This is strategic autonomy in the truest sense.
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Michael C
This is a significant technological leap. The development of a 2000kN semi-cryogenic engine and methane propulsion shows India is not just catching up but aiming to lead in next-gen, eco-friendly rocketry. The global space economy is booming, and India is positioning itself as a key, cost-effective player.

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