Setback for ISRO as EOS-09 launch fails due to 3rd-stage anomaly Sriharikota

PSLV-C61- Image- ISRO X
The Indian Space Research Organisation (ISRO) on Sunday suffered a setback as its 101st mission, PSLV-C61 carrying the EOS-09 satellite, faced a technical malfunction in the launch vehicle. The malfunction led to the mission failure, and the satellite could not be successfully deployed.
The indigenous PSLV, or Polar Satellite Launch Vehicle — PSLV-C61 — lifted off from the Satish Dhawan Space Centre in Sriharikota with the aim of placing EOS-09 into a Sun Synchronous Polar Orbit (SSPO). While the first and second stages of the launch vehicle performed normally, ISRO Chairman Dr V. Narayanan said that an unexpected issue arose during the third stage, preventing the successful deployment of the satellite.
The ISRO Chief said, 'Today, we attempted the 101st launch from Sriharikota, the PSLV-C61 carrying the EOS-09 mission. The PSLV is a four-stage launch vehicle, and its performance was normal up to the second stage. The third stage motor ignited perfectly; however, during its operation, an anomaly was observed, and the mission could not be completed successfully…' 'We will come back after analysis,' he further said.
ISRO also posted an update on X, stating: 'Today 101st launch was attempted, PSLV-C61 performance was normal till 2nd stage. Due to an observation in 3rd stage, the mission could not be accomplished.' The third stage of the PSLV is a solid rocket motor designed to provide high thrust during the upper atmosphere phase of the flight, delivering a maximum thrust of 240 kilonewtons. It plays a crucial role in placing the satellite into its intended orbit.
The EOS-09 was designed to provide continuous and reliable remote sensing data for operational applications across various sectors, ranging from border surveillance and national security to agriculture, forestry, flood monitoring, and disaster management. For the mission, PSLV carried a 1,710 kg satellite into a sun-synchronous orbit to ensure consistent lighting for Earth observation.
The mission was also meant to promote sustainability and carry out responsible space operations. EOS-09 was a repeat satellite similar to EOS-04, launched in 2022, that was designed with the mission objective to ensure remote sensing data for the user community engaged in operational applications and to improve the frequency of observation.

Try Our AI Features

Explore what Daily8 AI can do for you:

Learn with AIFact CheckingText to SpeechAI Summary

Related Articles

Time of India

4 hours ago

• Time of India

Startups cheer HAL's takeover of SSLV rocket; hope it boosts market for small satellites

With the defense PSU Hindustan Aeronautics Ltd ( HAL ) becoming the first Indian firm to own, build, and commercialise the Indian Space Research Organisation's ( ISRO ) SSLV rocket, sections of Indian startups are hopeful the deal will help them rely less on launch service providers overseas, get better schedule visibility, and save on costs. So far, most Indian startups, such as Pixxel, Digantara, and GalaxEye's upcoming mission Drishti, have used SpaceX for their launches. Some startups have also conducted payload testing on ISRO's shared missions. Startups told ET that if HAL can offer transparent pricing and firm launch windows, they would strongly prefer to work with Indian launch providers. Industry experts said the government should consider incentivising private payloads launched on Indian rockets to build a stronger homegrown ecosystem. SatLeo Labs CEO Shravan S Bhati, building thermal imaging satellites for low earth orbit (LEO), said the move will open new avenues for the competitive small satellite market and free up ISRO's think tank for deeper research and development (R&D) and planetary missions. The small satellite market, as per Stratview Research, will be valued at $7.7 billion by 2030. The small satellite market, as per Stratview Research (2024), was valued at $6.7 billion and is projected to grow to $7.7 billion by 2030. by Taboola by Taboola Sponsored Links Sponsored Links Promoted Links Promoted Links You May Like Beyond Text Generation: An AI Tool That Helps You Write Better Grammarly Install Now Undo Earlier, in an interview with ET, Pawan Goenka, chairman of the Indian National Space Promotion & Authorisation Centre (IN-SPACe), said the regulator-cum-promoter will be setting up a dedicated launch centre for small satellite launches. 'Our target is to conduct 25 small satellite launches per year across three vehicles (SSLV, Agnikul's, and Skyroot's rockets), securing a major share of the global market.' Ahmedabad-based PierSight Space's cofounder, Vinit Bansal, working on maritime technology, said that transferring SSLV technology to an agency focussed on production, such as HAL, can enable more SSLV launches per year. 'SSLV can now serve as an 'Uber to space,' providing flexible access to specific orbits that are not feasible through shared missions,' he added. Live Events Challenges persist, but startups hopeful Discover the stories of your interest Blockchain 5 Stories Cyber-safety 7 Stories Fintech 9 Stories E-comm 9 Stories ML 8 Stories Edtech 6 Stories Awais Ahmed, founder of Google-backed Pixxel, said that for startups such as his, this can reduce dependency on foreign launch providers and improve scheduling predictability. The startup launched its Firefly constellation of hyperspectral satellites earlier this year from SpaceX. 'If SSLV is reliably available and HAL builds institutional maturity in launch operations, it would certainly make access easier and potentially more cost-competitive,' Ahmed told ET. Another space tech startup, SpaceFields' founder, Apurwa Masook, building solid rocket propulsion technology for aerospace and defence and collaborating with HAL, said the global launch market is highly competitive and demands aggressive customer acquisition and agile supply chain management. He pointed out that traditional Indian DPSUs like HAL have historically faced challenges, which is also evident in their growing backlogs in military deliveries. 'For SSLV to succeed in the commercial market, HAL would need to rethink its go-to-market strategy and possibly lean more on nimble private sector collaborators,' the Bengaluru-based Masook said.

Indian Express

7 hours ago

• Indian Express

Why Axiom-4 mission keeps getting delayed: Timeline of setbacks, new launch date

US space agency NASA recently announced the delay of the Axiom Mission 4 (or Ax-4) again due to operational concerns. Initially scheduled to launch on June 22, NASA opted to delay the mission yet again. The mission's SpaceX Falcon 9 rocket, and Dragon spacecraft, are still on their assigned launchpad, Launch Complex 39A, at Kennedy Space Center, Florida. NASA still hopes to have a new launch date in the next few days. The crew of Commander Peggy Whitson, Pilot Shubhanshu Shukla, and Mission Specialists Sławosz Uznański-Wiśniewski and Tibor Kamu, are set to remain in quarantine in Florida, in case a launch date is finalised. The mission is slated to be India, Hungary, and Poland's first government-sponsored flight in 40 years, and the three nations' second human spaceflight mission in history. The crew is expected to spend up to 14 days docked to the International Space Station (ISS) and carry out various scientific experiments. For India and Shubanshu Shukla, this mission would be the first time in 40 years that an Indian has been to space (after Rakesh Sharma's nearly eight-day voyage aboard a Russian Soyuz in 1984). It would also make him the first Indian to step foot in the ISS, and the first member of the Gaganyaan team to go to space. Here is a look at the delays that have stalled the mission launch and reasons why. The mission was scheduled to launch on May 29, but was delayed to June 8 due to 'observations in an electrical harness in the Crew Dragon Module' (as per ISRO) The Falcon 9 rocket was underprepared for launch, and was subsequently delayed to the next day. Due to unfavourable weather, the launch was delayed by a day again. An oxygen leak in the engine was detected, alongside an issue in one of the engine actuators. ISRO anticipated a swift resolution to the issue. The launch was once again delayed by a day. While on-ground readings were favourable, NASA announced work with the Russian Space Agency. They announced they were evaluating a 'new pressure signature', giving indications of a potential leak in the back section of the ISS Zvezda, one of Russia's modules in the ISS. A further delay in launch was also announced. Following discussions involving teams from ISRO, Poland, Hungary, consultations between Axiom Space, NASA, and SpaceX, and evaluations of factors such as weather and crew health, June 22 was announced as launch day. Two days before the launch date, NASA announced a further delay. 'The space agency needs additional time to continue evaluating International Space Station operations after recent repair work in the aft (back) most segment of the orbital laboratory's Zvezda service module.' NASA said in a press release dated June 19. However, NASA hopes to finalise a new launch date in the coming days. (This article has been curated by Purv Ashar, who is an intern with The Indian Express)

India Today

11 hours ago

• India Today

Nasa discovers big crater on the Moon. It was made by crashed Japanese spacecraft

Weeks after the Japanese spacecraft Resilience crashed on the Moon, Nasa has captured images of the debris. The spacecraft crashed on the Moon as it attempted a soft landing in the northern Lunar Reconnaissance Orbiter (LRO) captured photos of the site where the ispace Mission 2 attempted to land. LRO's right Narrow Angle Camera, one in a suite of cameras known as LROC, captured the image from an altitude of about 50 miles above the surface of Mare Frigoris, a volcanic region interspersed with large-scale faults known as wrinkle The dark smudge visible above the arrow in the photo formed as the vehicle impacted the surface, kicking up regolith — the rock and dust that make up Moon 'soil.' The faint bright halo encircling the site resulted from low-angle regolith particles scouring the delicate is not the only agency to have captured the images. India's Chandrayaan-2 orbiter also captured the images, however, Isro is yet to release them enthusiast Shanmuga Subramanian found the debris in the images captured by Chandrayaan-2's Orbiter High Resolution Camera (OHRC).The spacecraft was tagetting to land on the Moon's Sea of Cold in the Northern Hemisphere when Mission Control in Tokyo lost communications and telemetry with the after the spacecraft crashed on the Moon, ispace revealed the initial findings from data it received moments before the spacecraft had a hard landing on the laser rangefinder used to measure the distance to the lunar surface experienced delays in obtaining valid measurement values. As a result, the lander was unable to decelerate OHRC, with its impressive 0.25-meter resolution—the highest achieved by any lunar orbiter—provided the crucial data needed to pinpoint the crash Watch