| 液化天然气船货舱内部压力研究 |
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| 引用本文: | 吴嘉蒙,吕立伟,蔡诗剑.液化天然气船货舱内部压力研究[J].上海造船,2011(1):37-42. |
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| 作者姓名: | 吴嘉蒙 吕立伟 蔡诗剑 |
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| 作者单位: | 708研究所,上海,200011 |
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| 基金项目: | 工信部十一五高技术船舶科研计划项目--大型液化天然气船工程开发 |
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| 摘 要: | LNG船的货舱内部压力应按照IGC规则的要求进行计算。其中,无因次加速度合成方法和横稳心高(GM值)是影响货舱内部压力的重要因素。IGC规则允许采用2种方法来进行无因次加速度的合成:二维加速度椭圆合成法和三维加速度椭球合成法。针对某22万m3薄膜型LNG船,编制了载荷计算电子表格,比较了这2种加速度合成方法导致的货舱内部压力的差异,电子表格计算结果与船级社相应计算软件的结果相一致。另外,就GM值对货舱内部压力的影响进行了讨论。
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| 关 键 词: | LNG船 IGC规则 无因次加速度 横稳心高 |
Research on the Internal Pressure of LNG Carrier Cargo Tank |
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| WU Jia-meng,LU Li-wei,CAI Shi-jian.Research on the Internal Pressure of LNG Carrier Cargo Tank[J].Shanghai Shipbuilding,2011(1):37-42. |
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| Authors: | WU Jia-meng LU Li-wei CAI Shi-jian |
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| Institution: | WU Jia-meng,LU Li-wei,CAI Shi-jian |
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| Abstract: | The internal pressure of LNG carrier's cargo tank should be calculated according to IGC code,where composition of the non-dimensional acceleration components and calculation of the metacentric height (GM) are the key factors to influence the internal pressure of cargo tank.ICG codes allow two methods to compose the non-dimensional acceleration:2D acceleration ellipses and 3D acceleration ellipsoids.Load calculation spreadsheet is programmed for a 220,000 m3 membrane LNG carrier to study the difference of resulting internal pressure by the two methods;same calculation results are obtained using the spreadsheet as according to the classification regulations.In addition,the effect of GM on cargo tank internal pressure is discussed. |
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| Keywords: | LNG carrier IGC code non-dimensional acceleration metacentric height |
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