China successfully tests sea-based rocket booster recovery system


China successfully tests sea-based rocket booster recovery system <br> China&nbsp;on Friday&nbsp;successfully&nbsp;tested an experimental&nbsp;rocket&nbsp;retrieval&nbsp;system&nbsp;using a net attached to a&nbsp;sea&nbsp;platform, state media reported, in the hope of breaking United States&nbsp;dominance in reusable&nbsp;rockets. The Long March 10B&nbsp;rocket&nbsp;lifted off from the Hainan commercial space launch site in southern&nbsp;China&nbsp;at 12:15pm (0415 GMT)&nbsp;and, about six minutes after separation of its&nbsp;booster&nbsp;and upper stage, the&nbsp;booster&nbsp;returned vertically and was recovered on an offshore platform, state broadcaster CCTV reported. The test marks&nbsp;China&#39;s first successful retrieval of an orbital-class&nbsp;rocket, putting the country closer to developing reusable&nbsp;rockets. The&nbsp;rocket&nbsp;had sent a satellite into preset orbit on Friday, state media said. Shares in Chinese aerospace firms jumped on the news, with&nbsp;China&nbsp;Spacesat and&nbsp;China&nbsp;Satellite Communications hitting daily limits. Read:&nbsp;China test-fires missile into Pacific The Long March 10B has been compared to the Falcon 9, SpaceX&#39;s widely used medium-lift&nbsp;rocket. It was developed for commercial aerospace by the country&#39;s main state&nbsp;rocket&nbsp;developer, the&nbsp;China&nbsp;Academy of Launch Vehicle Technology&nbsp;(CALT), and is capable of carrying a payload of at least 16 metric tons to low-Earth orbit. But unlike the Falcon 9, the Long March 10B does not autonomously land on deployable legs on a ground pad or drone ship, using instead four&nbsp;&quot;landing hooks&quot; to catch the net attached to a&nbsp;sea&nbsp;platform. &quot;Net-based&nbsp;recovery&nbsp;helps simplify the&nbsp;rocket&#39;s onboard structure, reduces vehicle mass and increases payload capacity. It is also highly adaptable to landing-point deviations, as coordinated net&nbsp;systems can effectively expand the capture window,&quot; CALT&#39;s expert Chen Muye told state agency Xinhua. SpaceX landed a Falcon 9&nbsp;rocket&nbsp;from an orbital flight for the first time in December 2015, followed by Blue Origin&#39;s New Glenn in November 2025. By now, SpaceX&#39;s Falcon 9 launches around 150 times a year, or roughly three times a week, with its&nbsp;booster&nbsp;reused dozens of times&nbsp;as needed. The engine-packed&nbsp;booster&nbsp;is generally viewed as the most valuable part of a&nbsp;rocket. China&nbsp;has spent nearly a decade developing reusable&nbsp;rocket&nbsp;technologies, from early low-altitude hover&nbsp;tests&nbsp;to orbital-class&nbsp;booster&nbsp;recovery&nbsp;attempts in recent years. A&nbsp;system&nbsp;of reusable&nbsp;rockets will lower launch costs for&nbsp;China&#39;s rapidly expanding commercial satellite constellations. Read More:&nbsp;China launches broadside at US &#39;double standards, hegemonism&#39; after criticism over missile test Private Chinese firms are also stepping up efforts to test their reusable&nbsp;rockets amid intense global competition to acquire the technology, and&nbsp;China&nbsp;has eased&nbsp;IPO rules for firms developing reusable&nbsp;rockets to help them raise funding. Two attempts by private Chinese firm LandSpace and state-owned&nbsp;China&nbsp;Aerospace Science and Technology Corporation&nbsp;last year failed to complete the crucial final step of landing and&nbsp;booster&nbsp;recovery. As part of the Long March 10 family being developed for&nbsp;China&#39;s crewed lunar missions before 2030, the Long March 10B could also provide data and validate technologies relevant to the broader lunar programme. China&nbsp;plans to use the Long March&nbsp;10B&#39;s&nbsp;booster&nbsp;stage again for another launch by the end of this year, CCTV said. <br> <img src="https://tribune.com.pk/story/2617500/china-successfully-tests-sea-based-rocket-booster-recovery-system" alt=" China successfully tests sea-based rocket booster recovery system" width="100%">
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