共查询到16条相似文献,搜索用时 171 毫秒
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通过与传统燃油喷射系统的比较,给出了共轨燃油系统的优点,进一步对共轨燃油系统组成和工作原理进行分析,展望共轨燃油系统在实际船舶柴油机中的应用前景. 相似文献
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FMEA在船舶系统风险评估中的应用 总被引:1,自引:0,他引:1
在船舶系统风险评估中,FMEA(故障模式与影响分析)技术是一种较为有效和常用的风险分析方法,已被国内外的船舶规范所采用。从风险评估的角度,着重介绍FMEA技术、其扩展FMECA(故障模式、影响及危害度分析)技术,及其在船舶系统中的应用。 相似文献
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针对传统的FMEA(故障模式与影响分析)过于定性化、主观化以及不能进行量化分析的问题,本文提出了一种量化FMEA风险等级数的评定方法,并通过层次分析法(AHP)和模糊综合评判法(FCE)的理论分析,构建了动力定位控制系统的综合评判模型,将FMEA的结果进行了量化分析,从而能更好地预防故障的发生。以Arrow号近海支援船DP2动力定位(DP)控制系统为例,选择操作站操作面板为研究对象,对该系统的各个组成部分及其模块进行了故障模式与影响分析并做出评判,列出了可能发生的故障模式,确定了故障等级并提出了建议措施,其分析结果证明FMEA和模糊综合评判法是有效的。通过对动力定位控制系统进行故障模式与影响分析(FMEA),可以对动力定位控制系统和设备进行改进、维护和完善,以提高其可靠性,延长设备的使用寿命,提高动力定位船舶的安全水平。 相似文献
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浮式生产储油轮(FPSO)是当今海洋石油天然气开发的主要设备之一。针对外输系统作为FPSO重要的一个子系统,但其传统维修策略过于依赖经验的缺陷,从可靠度角度出发,通过对失效模式和失效概率的分析从而确定较为合理的检修周期和大修周期。采取失效模式和效果分析(FMEA)方法确定主要失效模式及其关系,再利用动态故障树分析(DFTA)方法获得最小割集及相应故障时间,最后通过成组维修理论从全局最优化,经济性角度确定大修周期约为3.23年。经过与工程实际数据的对比,验证了该方法的可行性和适用性。 相似文献
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Hani Alyami Paul Tae-Woo Lee Ramin Riahi Stephen Bonsall Jin Wang 《Maritime Policy and Management》2014,41(7):634-650
Risk analysis in seaports plays an increasingly important role in ensuring port operation reliability, maritime transportation safety and supply chain distribution resilience. However, the task is not straightforward given the challenges, including that port safety is affected by multiple factors related to design, installation, operation and maintenance and that traditional risk assessment methods such as quantitative risk analysis cannot sufficiently address uncertainty in failure data. This paper develops an advanced Failure Mode and Effects Analysis (FMEA) approach through incorporating Fuzzy Rule-Based Bayesian Networks (FRBN) to evaluate the criticality of the hazardous events (HEs) in a container terminal. The rational use of the Degrees of Belief (DoB) in a fuzzy rule base (FRB) facilitates the implementation of the new method in Container Terminal Risk Evaluation (CTRE) in practice. Compared to conventional FMEA methods, the new approach integrates FRB and BN in a complementary manner, in which the former provides a realistic and flexible way to describe input failure information while the latter allows easy updating of risk estimation results and facilitates real-time safety evaluation and dynamic risk-based decision support in container terminals. The proposed approach can also be tailored for wider application in other engineering and management systems, especially when instant risk ranking is required by the stakeholders to measure, predict and improve their system safety and reliability performance. 相似文献
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