共查询到19条相似文献,搜索用时 109 毫秒
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在国内外深海光缆线路维修中,由于现有专用设备性能的局限,对海光缆的打捞一直是一项耗时、耗财、耗力且难度较大的作业。文章介绍了一种以双握切割、两端同持方式剪切打捞海缆的新型设备,它不仅能在2 000 m水深的海底对海光缆进行可靠剪切,还能在剪切后将海缆的两个断头牢固握持,并自行辅接深海打捞所需的钢缆。证明了使用该设备可取代常规打捞的断头打捞,不仅大大提高了维修工作效率,更有效地提高了维修打捞工作的安全性和可靠性。 相似文献
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利用中国"大洋一号"第20航次采集的深海沉积物样品进行了真菌分离鉴定,获得110株深海真菌,这些菌分属于15个属.其中曲霉和青霉最多,共为55株,占50%,且重复较多,只分布于10个种.利用CCK8法及琼脂扩散法对其中的100株深海真菌进行了抗肿瘤及抗菌活性检测,发现深海真菌具有良好的生物活性,细胞毒阳性率占49%,26%的菌株具有明显抗大肠杆菌效果、23%明显抗枯草、5%抗白假丝酵母、21%抗金黄色葡萄球菌.生物活性与培养基成分及筛选用肿瘤细胞株类型相关.对具有生物活性的20株深海真菌发酵粗提物进行了HPLC指纹图谱初步分析,发现其HPLC指纹图谱与培养基成分相关.该研究为后期分离鉴定深海真菌产生的生物活性化合物奠定了良好基础. 相似文献
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挪威近年来大力推动深海采矿,在地质科研勘探、技术装备研制、环保政策制定等领域已经走在世界前列,率先为深海采矿商业化提供了实现可能。挪威政府凭借其过硬的工程装备基础与深厚的法律政策积淀,因时制宜积极转变深海采矿路径,目前已在商业化开发与环境保护中找到平衡点,形成了完备的深海开发战略路径。文章通过中国和挪威两国深海资源开展战略对比分析,提出4点建议:加快深海产学研深度合作,带动新兴产业发展;以《深海法》为基石,构建深海采矿产业政策;加强深海环境保护研究,打造环境友好的深海开发路线;把握深海国际机制,争取深海国际规则主动权。多角度提升深海实力,以尽快实现“深海开发”。 相似文献
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可浮动自锁式深海气密采水器的研制 总被引:1,自引:0,他引:1
深海海水中气体的含量可以在一定程度上标识深海资源蕴藏量,因而实现对深海海水的气密采样意义重大.为此设计了一种可浮动的自锁装置,并采用压力自适应平衡原理,实现了对深海海水的气密采样.实验室和海上试验结果均表明深海气密采水器在装上可浮动自锁装置后耐压能力和气密性都得到了有效的提高,对初始压强为1.208 MPa的N2气保压2 h,压力损失不到1.2%,并成功地实现了对960 m深的海水样品的气密采样.此样品中CH4浓度为5.44 nmol/dm^3,CO2浓度为140.6nmol/dm^3.该可浮动自锁式深海气密采水器的研制为深海资源勘探分析提供了必要的技术支持. 相似文献
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西太平洋科学观测网是由中国科学院海洋研究所自主建成的大洋观测网络。深海数据的连续获取和实时传输对海洋与气候预报和海洋环境安全保障意义重大,世界海洋大国纷纷致力于其关键技术和系统集成的攻关。在中科院战略性先导科技专项的资助下,中科院海洋所经过统筹安排和周密部署,3年多来先后组织西太平洋综合考察航次3次,成功布放和回收深海潜标73套次,建成了由16套深海潜标组成的我国西太平洋科学观测网并实现稳定运行,获取西太平洋代表性海域连续3年的温度、盐度和洋流等数据。在2016年航次中,中国科学院又攻克了潜标数据长周期稳定实时传输的海洋观测难题,实现了深海数据的"现场直播",截至2017年9月,深海数据已成功连续实时回传260余天。以此为标志,我国的大洋科学观测网建设实现了批量化、标准化和常态化。深海观测数据的长时间连续积累和实时化传输,将提升我国深海科学研究能力,加速我国海洋与气候预报业务系统建设步伐,满足海洋强国建设、"一带一路"倡议对海洋环境安全保障的重大需求。"十三五"时期,我国正全面推进深海进入、深海探测和深海开发的深海战略,深海科学观测网建设技术和潜标数据实时传输技术对我国深海探测能力的提升意义重大。 相似文献
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Optical fibers, optical transmission systems, and optical Accessories to apply fiber optics to deep-sea exploration systems are described. The discussion of fibers cover the construction of the fiber and cable and the useful life of optical fibers. Considerations in designing a system (number of fibers and multiplexing method) are discussed. Accessories such as optical feedthroughs, optical connectors, and optical rotary connectors are examined. A composite fiber-optic/coaxial cable system successfully operated for one year is described 相似文献
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Kawaguchi K. Hirata K. Nishida T. Obana S. Mikada H. 《Oceanic Engineering, IEEE Journal of》2002,27(2):182-192
Although submarine cable in-line seafloor observation systems are very effective tools for real-time/long-term geo-scientific measurements,, there are technological difficulties for deploying as many sensors as on land. To solve this problem, JAM-STEC developed an expandable and replaceable satellite measurement station called the adaptable observation system (AOS). The AOS is a battery operated mobile observatory connected to the backbone cable system by a 10 km long thin fiber cable to ensure real-time data recovery. The system consists of a branching system, a junction box, a fiber cable, and a battery system for a six-month operation. Installation and construction of the AOS will be conducted by a towed vehicle and an ROV. A thin fiber cable-laying system was developed and tested for practical operation. This observation system provides a chance to extend existing seafloor networks from an in-line area to a wider area 相似文献
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讨论了水下机器人远程通信光纤微缆的动力学问题,研究分析了在海洋层流条件下水下机器人的运动对光纤微缆张力的影响,在仿真分析的基础上提出了对光纤微缆收放系统的设计要求并给出了概念设计方案。 相似文献
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本文论述了珠江口珠海-深圳海底光缆路由设计,建设所涉及的主要技术问题,解决了港湾内海缆路由勘设及施工遇到的多种复杂的实际难题,为今后港湾内海缆建设提供参考。 相似文献
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国际海洋观测技术发展趋势与中国深海台站建设实践 总被引:4,自引:0,他引:4
20世纪80年代以来,海洋观测呈现"多元化、立体化、实时化"的发展趋势,地区和国家的海洋观测系统在关键海域发挥着重要作用。随着技术的发展和理念的创新,区域海洋观测系统被广泛应用并得到不断完善。国际海洋观测台站如英国爱尔兰海区域、美国卡罗来纳州海区和加拿大维多利亚海底实验观测网的多元化观测系统(VENUS)都是值得借鉴的例子,他们把多元化、立体化的实时测量数据与海洋物理、生态和生物化学模式紧密结合起来,实现了海洋环境的可预报性。同时,美国、英德法等国和日本实施的一系列海底观测系统,使海洋观测更加完备化。在这种国际大背景下,我国积极推进的海洋观测研究网络工程中的第一个深海台站——西沙海洋观测研究站在2008年已经建设完成并投入运行,该台站实现了长时效的多参数海洋环境实时监控。西沙观测系统主要包括自动气象站、岛屿外缘坐底式海底和海底边界层观测子系统、生物捕获器、西沙上层海洋环境观测子系统和海洋光学监测子系统等。由于海洋环境结构复杂、工作环境恶劣以及资源缺乏等因素的影响,海洋观测一直是高风险的工作。最后希望通过比较国内外观测系统,中国海洋观测事业能够学习国外先进的思路和技术,自身取得更大进步。 相似文献
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Hirata K. Aoyagi M. Mikada H. Kawaguchi K. Kaiho Y. Iwase R. Morita S. Fujisawa I. Sugioka H. Mitsuzawa K. Suyehiro K. Kinoshita H. Fujiwara N. 《Oceanic Engineering, IEEE Journal of》2002,27(2):170-181
A permanent real-time geophysical observatory using a submarine cable was developed and deployed to monitor seismicity, tsunamis, and other geophysical phenomena in the southern Kurile subduction zone. The geophysical observatory comprises six bottom sensor units, two branching units, a main electro-optical cable with a length of 240 km and two land stations. The bottom sensor units are: 1) three ocean bottom broadband seismometers with hydrophone; 2) two pressure gauges (PGs); 3) a cable end station with environmental measurement sensors. Real-time data from all the undersea sensors are transmitted through the main electro-optical cable to the land station. The geophysical observatory was installed on the continental slope of the southern Kurile trench, southeast Hokkaido, Japan in July 1999. Examples of observed data are presented. Sensor noises and resolution are mentioned for the ocean bottom broadband seismometers and the PGs, respectively. An adaptable observation system including very broadband seismometers is scheduled to be connected to the branching unit in late 2001. The real-time geophysical observatory is expected to greatly advance the understanding of geophysical phenomena in the southern Kurile subduction zone 相似文献
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This paper proposes a geometrically exact formulation for three-dimensional static and dynamic analyses of the umbilical cable in a deep-sea remotely operated vehicle (ROV) system. The presented formulation takes account of the geometric nonlinearities of large displacement, effects of axial load and bending stiffness for modeling of slack cables. The resulting nonlinear second-order governing equations are discretized spatially by the finite element method and solved temporally by the generalized- implicit time integration algorithm, which is adapted to the case of varying coefficient matrices. The ability to consider three-dimensional union action of ocean current and ship heave motion upon the umbilical cable is the key feature of this analysis. The presented formulation is firstly validated, and then three numerical examples for the umbilical cable in a deep-sea ROV system are demonstrated and discussed, including the steady configurations only under the action of depth-dependent ocean current, the dynamic responses in the case of the only ship heave motion, and in the case of the combined action of the ship heave motion and ocean current. 相似文献
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This paper proposes a geometrically exact formulation for three-dimensional static and dynamic analyses of the umbilical cable in a deep-sea remotely operated vehicle(ROV) system. The presented formulation takes account of the geometric nonlinearities of large displacement, effects of axial load and bending stiffness for modeling of slack cables. The resulting nonlinear second-order governing equations are discretized spatially by the finite element method and solved temporally by the generalized-a implicit time integration algorithm, which is adapted to the case of varying coefficient matrices. The ability to consider three-dimensional union action of ocean current and ship heave motion upon the umbilical cable is the key feature of this analysis. The presented formulation is firstly validated, and then three numerical examples for the umbilical cable in a deep-sea ROV system are demonstrated and discussed, including the steady configurations only under the action of depth-dependent ocean current, the dynamic responses in the case of the only ship heave motion, and in the case of the combined action of the ship heave motion and ocean current. 相似文献