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基于ITTC的实船试航航速修正方法 总被引:1,自引:0,他引:1
依据ITTC 7.5-04-01-01.2,并结合ISO 15016(2002)中关于实船试航航速修正方法,以EXCEL为平台,通过VBA编写程序,建立了一种考虑风、波浪、水温、航行状态和浅水等影响因素的船舶试航航速修正方法,可以快捷方便地对试航航速进行修正,得到深水、无风、无浪、无流条件下的船舶航速、主机功率、螺旋桨转速及相应压载吃水和结构吃水工况下的S-P曲线。最后将软件应用于某散货船实船航速修正中,经对比分析表明其修正结果与船模试验的变化趋势是一致的。 相似文献
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实船测速试验标准ISO15016:2015采用直接功率法,综合考虑风、浪、流、水温和水密度等环境条件的影响以及螺旋桨负荷变化的影响,进行功率、航速和转速的修正,最终得到船舶在指定装载状态下、无风、无浪、无流、15℃深水中的航速功率点。变负荷系数ξP、ξn、ξV是基于直接功率法的测速试航数据分析过程中的3个关键参数,通过变负荷试验得到。为了评估变负荷系数对实船航速修正结果的影响,基于某型散货船7艘系列船的实船测速试验数据,使用变负荷系数参考值以及根据船模试验获得的变负荷系数值,进行了航速修正并对结果进行比较,可为船舶测速试航数据分析提供参考。 相似文献
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介绍了ISO15016:2015和ITTC2017两种实船航速修正方法,对比了两种修正方法的测速要求和修正流程。并通过8种具有代表性的船舶试航数据,采用两种方法对试航数据进行修正,分析了不同环境因素的修正结果,可为今后船舶EEDI测速试验和航速修正提供参考。 相似文献
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在分析了有关船舶在浅水水域试航速修正方法的基础上,推荐了A.Millward的三因次修正方法用于大型船舶在有限水深水域试航速的修正,文中给出的算例,表明在航速预报结果同相关方法相比,具有同一量级的精度,本方法可作为大型船舶试航航速修正或预报有一种估算方法。 相似文献
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考虑浅水影响的航速测量不确定度分析 总被引:1,自引:1,他引:0
受实船试航水域水深的影响,对于深吃水的大型船舶航速测量结果必须采用适当的方法进行航速的浅水修正.本文采用GUM测量不确定度分析方法,以某大型油轮为例,对考虑浅水影响的航速测量进行了不确定度分析. 相似文献
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本文在分析比较已有船舶航速估算方法的基础上,重点进行了肥大型船舶的航速估算方法研究,其中包括有效功率估算,自航因子估算,螺旋浆初步设计和相关补贴等研究,提出了最新的肥大型船舶航速估算方法。有效功率估算研究是将上海船研所肥大船系列试验图谱重新分布、表达,再根据二十余年积累的大量肥大船模型和实船试验资料,对球首和船型的影响进行修正,用40余艘肥大船模型试验结果校核、修改、完善,得到肥大型船舶的有效功率 相似文献
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目前试航通用的航速修正方法主要有ISO 15016、24th ITTC和BSRA 3种。分析了3种修正方法的优缺点和实际的可操作性,研究得出了兼顾各方法科学性和易操作性的实用新方法。 相似文献
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针对国际拖曳水池会议(International Towing Tank Conference,ITTC)推荐的实船试航航速修正方法中对波浪增阻的修正未严格区分迎浪工况和随浪工况的情况,对一艘50500载重吨油船进行随浪规则波模型试验,并将所得结果与迎浪规则波模型试验结果相对比,研究船舶在随浪中的波浪增阻和运动规律.采用ITTC实船功率预报推荐的阻力推力一致法对该船进行实际海况下的失速预报分析,对比迎浪和随浪工况下的实船失速预报情况.结果 发现,在相同等级的海况下,随浪工况下的船舶失速比迎浪工况下的船舶失速小,且随着海况等级的提升,两者的失速差值越来越大. 相似文献
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Naoji Toki 《Journal of Marine Science and Technology》2016,21(1):1-22
Almost all the existing analysis methods of speed trial results were proposed before 1970s, and the actual analysis procedures are very old-fashioned with instructions like “plot the results on a chart and draw a smooth mean line”, “read a value from the mean line” and so on. Such instructions not only show up the analysis procedures old-fashioned, but also make them very ambiguous and unclear. They should be up-dated to a method which is clear not only in logic but also in calculation procedure, and also fits the present computing technology. At first, the author reviewed the major analysis methods and concluded that the logic of the up-dated analysis procedure can be composed of the logics of the existing ones. Then, the analysis procedure is composed of three stages; namely (1) correction of power and propeller revolution to the ones corresponding to no air condition, (2) correction of tidal current effect, and (3) correction of power and propeller revolution to the ones corresponding to no wind condition. For the stages (1) and (3), there seems to be no big issue except the estimation of the amount of environmentally added resistance in the stage (1). Then, the author focused on the correction of tidal current effect in this paper. For the correction of tidal current effect, the author considers the essential points for the up-date are in the direction of finding out appropriate functions for the variation of tidal current velocity and the ship speed through the water. Then, he investigated to find out such functions and made his proposal. Finally, the applicability of the new procedure is assessed by the analysis of simulated speed trial results of a VLCC. 相似文献
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由于英国船舶研究协会修正法在目前实船测速中仍被较多的采用,因此该文简要介绍英国船舶研究协会修正法的理论基础,从风、流、浅水效应三个方面详细解释了测速时的具体修正方法,并对最终修正结果做了介绍。同时对在实际应用时可以采用的表格计算的方法做了比较详细的演示,并提供实例以供参考。 相似文献
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H. S. Kim M. C. Kim K. S. Choi C. J. Lee 《Journal of Marine Science and Technology》2013,18(4):515-523
A speed sea trial was performed in the Amundsen Sea in February and March of 2012. The Korean ice breaking research vessel “Araon” was used to check speed performance on the big floes. Two of ice trial cases were carried out. We describe the time history of location, the engine power, and the revolutions per minute during the ice trial, and the trajectory of the ship. Additionally, the measured ice properties are considered and discussed. The ice trial results were analyzed according to variation in ice thicknesses, ice strength, propulsion power, and the speed level of the ship. Our analysis results are compared to model test results and ice trial results. A correction to the target ice thickness was used to compare the power and speed relation in the same ice thickness because it is easy to know the relative speed performance of the ship. The Hamburgische Schiffbau-Versuchs Anstalt method was applied for the correction. The speed of Araon in big floes was higher than the speed in level ice. The speed after the correction at 10 MW of power and 103 cm of ice thickness was 5.4 knots based on analysis results. 相似文献
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试航时,对于在2级海况以上测得的船速数据,必须进行波浪修正.针对柏林水池(VWS)提出的波浪修正办法,以某油轮为例,采用GUM测量不确定度分析方法,对考虑波浪影响的船速测量进行了不确定度分析. 相似文献