Yangrui Cheng scite author profile

The deep-sea is rich in mineral resources, and deep-sea polymetallic nodules are considered to be the most likely resource for commercial exploitation. Since the discovery of polymetallic nodules by mankind, researchers around the world have made long and arduous explorations in the exploitation of deep-sea polymetallic nodules and have proposed various mining methods, such as the dragging bucket type, the continuous bucket rope type, the automatic shuttle boat type, and the pipeline -lifting type, and have carried out technical verification accordingly. In the collection of seabed polymetallic nodules, the development and testing of towed type, spiral-driven type, crawler self-propelled type, and suspended type technologies have been carried out, basically realizing the mining technology verification of seabed polymetallic nodules and providing technical support for commercial development. However, according to the demand for commercial development, there are still many technical difficulties in polymetallic nodule-collecting technology, and more focus needs to be placed on the efficiency, environmental protection, intelligence, safety, and reliability of the collecting system in the future. This paper compares the existing progress in collection technology and equipment, and provides ideas and references for the research and development of deep-sea polymetallic nodule-mining technology and equipment.

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Detection of volatile organosulfur compounds by hydrogen-bond acidic polymer: A combined experimental and theoretical study

Long

Wang

Cheng

et al. 2019

Materials Letters

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Yangrui Cheng

Study on mesoscopic adhesion characteristics of deep-sea sediment for self-cleaning mechanism of bionic grouser

Status and Prospects of the Development of Deep-Sea Polymetallic Nodule-Collecting Technology

Detection of volatile organosulfur compounds by hydrogen-bond acidic polymer: A combined experimental and theoretical study

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