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船舶压载水监控系统设计 被引量:6
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作者 乔红宇 杨泽宇 《中国航海》 CSCD 北大核心 2010年第2期23-26,30,共5页
为满足STCW78/95公约关于压载水操作与管理的评估训练要求,设计了基于InTouch的船舶压载水监控系统,包括控制逻辑设计及监控界面设计。重点阐述了压载水监控系统中的控制逻辑设计,包括船舶配载控制逻辑、压载泵控制逻辑、船舶稳性计算... 为满足STCW78/95公约关于压载水操作与管理的评估训练要求,设计了基于InTouch的船舶压载水监控系统,包括控制逻辑设计及监控界面设计。重点阐述了压载水监控系统中的控制逻辑设计,包括船舶配载控制逻辑、压载泵控制逻辑、船舶稳性计算与调节逻辑等。监控系统界面友好,工作可靠,且具有面向训练的功能特征,可满足评估项目的实训及评估要求。 展开更多
关键词 船舶、舰船工程 、监控、控制逻辑、人机界面
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抽水调相时主压水阀位置信号抖动分析及处理
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作者 亓祥飞 马依文 《水电站机电技术》 2019年第11期54-56,共3页
针对机组抽水调相开机过程中主压水阀位置信号抖动进行分析及处理,经过现场排查元器件、硬布线回路等可能原因,结合事件列表分析后,确定导致主压水阀信号抖动的根本原因为压水逻辑步序5存在时间配合问题,并对其逻辑进行优化改善,避免因... 针对机组抽水调相开机过程中主压水阀位置信号抖动进行分析及处理,经过现场排查元器件、硬布线回路等可能原因,结合事件列表分析后,确定导致主压水阀信号抖动的根本原因为压水逻辑步序5存在时间配合问题,并对其逻辑进行优化改善,避免因压水阀位置信号抖动或由逻辑造成的短暂开启引起的前提条件不满足的问题。 展开更多
关键词 信号反馈 调相 压水逻辑
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Investigation on Active Thermal Control Method with Pool Boiling Heat Transfer at Low Pressure
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作者 SUN Chuang GUO Dong +1 位作者 WANG Zhengyu SUN Fengxian 《Journal of Thermal Science》 SCIE EI CAS CSCD 2018年第3期277-284,共8页
In order to maintain a desirable temperature level of electronic equipment at low pressure, the thermal control performance with pool boiling heat transfer of water was examined based on experimental measurement. The ... In order to maintain a desirable temperature level of electronic equipment at low pressure, the thermal control performance with pool boiling heat transfer of water was examined based on experimental measurement. The total setup was designed and performed to accomplish the experiment with the pressure range from 4.5 kPa to 20 kPa and the heat flux between 6 kW/m^2 and 20 kW/m^2. The chosen material of the heat surface was alu- minium alloy and the test cavity had the capability of varying the direction for the heat surface from vertical to horizontal directions. Through this study, the steady and transient temperature of the heat surface at different pressures and directions were obtained. Although the temperature non-uniformity of the heat surface from the centre to the edge could reach 10℃ for the aluminium alloy due to the varying pressures, the whole temperature results successfully satisfied with the thermal control requirements for electronic equipment, and the temperature control effect of the vertically oriented direction was better than that of the borizontally oriented direction. Moreover, the behaviour of bubbles generating and detaching from the heat surface was recorded by a high-resolution camera, so as to understand the pool boiling heat transfer mechanism at low-load heat flux. These pictures showed that the bubbles departure diameter becomes larger, and departure frequency was slower at low pressure, in contrast to 1.0 atm. 展开更多
关键词 Pool Boiling Heat Transfer WATER Low Pressure Low-load Heat Flux Experiment Measurement
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