发布时间 : 星期三 文章成品油船的主尺度确定及总布置设计更新完毕开始阅读4996d06acaaedd3383c4d31c
网络教育学院
本 科 生 毕 业 论 文(设 计)
题 目:原创优秀论文
71000DWT成品油船的主尺度确定及总布置设计
学习中心: 上海奥鹏直属学习中心
层 次: 专科起点本科 专 业: 船舶与海洋工程
年 级: 学 号: 学 生: 指导教师: 完成日期: 2011年9月 6日
71000成品油船的主尺度确定及总布设计
内容摘要
毕业设计内容为71000DWT成品油船主尺度确定及总布置设计。设计过程中主要参考 61000DWT 成品油船等相近船为母型船,遵循《钢质海船入级与建造规范》(2006)等相应规范进行设计。设计过程中综合考虑船舶自身性能及经济性等因素。
毕业设计过程主要包括以下几个部分:主尺度确定,根据任务书的要求并参考母型船初步确定主尺度,再对容积、航速及稳性等性能进行校核,最终确定船舶主尺度;总布置设计,按照规范要求并参考母型船进行总布置设计,区划船舶主体和上层建筑,布置船舶舱室和设备。
关键词:成品油船;主尺度;总布置
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71000成品油船的主尺度确定及总布设计
目 录
内容摘要 ··························································································································· I 设计任务书 ·······················································································································1 1现代油船发展及相关母型资料 ····················································································2
1.1现代油船发展 ·····································································································2 1.2现代油船特点 ·····································································································2 1.3相关母型资料 ·····································································································3
1.3.1 主要尺度 ·································································································4 1.3.2 航速、螺旋桨及续航力 ·········································································4
2船舶主要要素的初步拟定 ····························································································5
2.1排水量和主尺度的初步确定 ·············································································5
2.1.1 设计分析 ·································································································5 2.1.2 估算排水量 ·····························································································5 2.1.3初始方案拟定 ··························································································6 2.2主机选型 ·············································································································7 2.3空船重量估算 ·····································································································7
2.3.1 船体钢料重量
2.3.2 舣装设备重量
Whf ····················································································8 ···················································································8 ···················································································8
W2.3.3 机电设备重量
Wm2.4重力与浮力平衡 ·································································································8 2.5性能校核 ··········································································································· 10
2.5.1稳性校核 ································································································ 10 2.5.2航速校核 ································································································ 11
2.5.3容积校核································································································· 13
2.6 本章小结 ·········································································································· 15 3 总布置设计 ················································································································· 16
3.1.主船体内部船舱的布置··················································································· 16
3.1.1 总体划分 ······························································································· 16
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71000成品油船的主尺度确定及总布设计
3.1.2 内部舱室划分 ······················································································· 17 3.1.3上甲板布置 ···························································································· 18 3.2上层建筑布置 ··································································································· 18 3.3 总布置图绘制 ·································································································· 19 3.4 本章小结 ·········································································································· 19 4 结论 ··························································································································· 20 参考文献 ························································································································· 21 附 录 ··························································································································· 22 致 谢 ··························································································································· 23
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