News Center
ZHUHAI, Guangdong, April 4 (Xinhua) -- The grey-green water off Zhuhai in south China's Guangdong Province churns as teams of small underwater robots compete to make a big revolution at China's marine ranches.
This is not a laboratory test. It is the final round of the inaugural Guangdong-Hong Kong-Macao Greater Bay Area marine underwater robot application challenge, held in an active marine ranch in the South China Sea.
By shifting the testing ground from laboratory tanks to the open sea, the competition offered a compelling glimpse of how underwater robotics can turn marine ranching's most persistent "headaches" into a catalyst for a smarter, more resilient ocean economy.
Over two days in late March, 16 teams from across China pitted their machines against real-world trials far from shore, where unpredictable currents, waves and turbidity put their machines to a rigorous test.
Unlike previous competitions staged in calm pools or shallow coastal zones, this contest required participants to tackle tasks that marine ranch operators face daily: retrieving submerged mooring anchors, harvesting shellfish from the seabed, and cleaning biofouling from netting.
Judges stressed that the real-sea setting "forces robots to be optimized not as mere prototypes, but for cost-effectiveness, reliability and user-friendliness, with the potential for rapid commercialization."
The pain points are anything but hypothetical. In 2025, Typhoon Ragasa dealt a heavy blow to the marine ranches of a local fishery called Yuehe, causing more than 700 iron anchors to be lost on the seabed. Human divers are too costly, so most remain lost.
"That's nearly 1 million yuan (about 145,000 U.S. dollars)in damages," said Lin Jincheng, the fishery's general manager. Several teams in the competition, he noted, showed impressive autonomy and anti-interference capability - exactly what the industry needs.
For Shenzhen Hanhai Huafan Cleaning Robotics, an underwater cleaning robot producer based in Shenzhen, also a winning team at the event, the market opportunity is clear.
Cai Qianxia, the company's marketing manager, said that its cleaning robots can operate 24 hours a day, achieving efficiency more than 10 times greater than traditional methods.
"Before, if you wanted to clean the hull of a small sailboat, you had to either hire divers to go underwater or wait for your turn at a dry dock. That meant your boat was out of service, you lost money, and honestly, there were just a lot of limitations," said Cai.
In the inspection and monitoring category, Westlake University's team leveraged underwater embodied AI with large language models and multimodal perception, ultimately securing first prize.
Team member Wang Zhangyuan said that the competition has brought algorithms out of the lab and connected them with industrial needs in real-world scenarios.
The challenge in Zhuhai was conceived as a direct response to these industrial needs.
Before the competition, organizers released a 150-million-yuan "opportunity list" covering real operational needs -- net inspection, debris retrieval, and ecological monitoring.
That was followed by over 100 million yuan in potential orders from 17 marine ranch developers across Guangdong. Four award-winning teams have already signed preliminary agreements to set up operations in Zhuhai's Xiangzhou District.
The event fits into a broader policy landscape. China's own underwater robotics market surpassed 10 billion yuan in 2024 and is forecast to reach 40 billion yuan by 2027.
For the first time, China identified "deep-sea technology" as a strategic emerging industry in its government work report in 2025.
As part of this push, Zhuhai, a marine economy city with 9,348 square kilometers of maritime territory, has built 10 truss-type platforms and 452 gravity net cages by the end of 2025. The city is home to 40 oceanographic innovation platforms and 140 high-tech marine enterprises.
A senior official of the Zhuhai municipal marine development bureau said that the competition will help unlock real-world applications for underwater robots, link the entire "industry-academia-research-application-finance" chain, upgrade marine ranching, and accelerate Zhuhai's development as a regional marine hub city.
Husillo de bolas Husillo de bolas micrométrico Tornillo con bolas Husillo de bolas estándar
مسمارمسمار عالي الدقة ,لولب مع,مسمار معياري دولي
Rosca de bolas Rosca de bolas de rolagem Parafuso com bolas Rosca de bolas padrão Rosca de bolas industrial Шариковая винтовая пара Шариковая винта военного стандарта Шарнирно-винтовая пара Балл-свинг
ボールねじ 超精密ボールねじ
ボールスクリュー 大型ボールねじ ネジボール
Kugelgewindetrieb Kugelgewinde für Automobilbau Kugelgewindetrieb standard Präzisions-Kugelgewinde Kugel-Schraube Vis à billes Vis à billes aéronautique Boulon à billes Vis à rouleaux de billes Vis à billes standard
สกรูบอลเส้นตรง สกรูบอลความแม่นยำสูง สกรูบอล สกรูบอลมาตรฐานสากล ส่วนสกรูบอล
Bua trụi có hạt Bua trụi có hạt độ chính xác cao Bua có hạt Bua trụi hạt lăn
볼 나사 산업용 볼 나사 볼사 초정밀 볼 나사(Chojeongmil bol nasa)
W4510C-16PSS-C3Z20 W2006-638X-C5T 87H7 F-589003 W1203-485PSS-C3Z W2505C-106PSS-C3Z
W2506C-134PSS-C3Z W3609C-25Y-C7S W2007C-15PSS-C5Z W2007CUG-2Z-C3Z W2513-152PGK1X
W0400N-1PYX-C3Z W4512-196PSSK1T-C3Z W3204Z-1749SP-C7S10 W1602-524PKS-C5Z W1201Z-973P-C5Z
W1202-884PSSX-C5Z W5004C-6ZY- C1Z PW2502-33TU-C5T W2513W-10DX-C3Z W1506-480GS2X-C7S-01
W4006-99ZX-C5Z20 W1003-294SS-C7T W3603-294D-C1Z06S8-008 W2006Z-980SSX-C5T W1504B-466B00-C7S10 W4022-123D-C5Z W2002M-10P-C5Z W10007-34SP-C7N W2017B-1PSS-C5Z
NSK PSS1530N1D1229 PSS1530N1D1029 NSK RMS0801C7S-300 NSK W1001FS-1-C3T4 NSK W3221FA-1P-2010-C5Z25,2010mm W1001MA-1PY-C3Z2 158MM
NSK3205 W3204-807Z-C5Z W1003FA-1P-C3Z4 380MM RNFTL40403S+RS4040A20(L=2195) NSK RNFTL4040A3S+RS4040A20(L=1977) NSK W3207SA-1P-C5Z5 W3204SA-1P-C5Z5 NSK RA250350BNC2-P6Z LY250183ALC1-PCZ NSK MCE03005H12K00K41 NSK LY250183ALC1-PCZ(G=31.5)
LA551500ALC2-01P53 W5022-190SP-C7N12 W4522-45RL-C7N12
