学 号____________ 密 级____________
哈尔滨工程大学本科生毕业论文
毕业论文题目
院(系)名称:核科学与技术学院 专业名称:核工程与核技术 学生姓名:XXX 指导教师:XXX 教授
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哈尔滨工程大学
2013年6月
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学 号____________ 密 级____________
毕业论文题目
title(英文标题,2号Times New Roman)
学 生 姓 名:
所 在 学 院:核科学与技术学院 所 在 专 业:核工程与核技术 指 导 教 师: 职 称: 所 在 单 位:
论文提交日期:2013年6月?日 论文答辩日期:2013年6月?日 学位授予单位:哈尔滨工程大学
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摘 要
论文摘要是论文的内容不加注释和评论的简短陈述,一般应说明毕业论文的目的、方法、结果和最终结论等,其重点是研究所采用的方法和技术,扼要地说明结果和结论。摘要中不宜使用公式、图表、非公知公用的符号和术语。中文摘要以300-400字为宜,
(小4号宋体,行间距为“固定值”22磅)
…… …… …… …… ……
关键词:关键词是供检索用的主题词条,应是能覆盖论文主要内容的单词或术语。关键词一般为3-5个,以显著的字符另起一行,排在摘要的左下方,按范围由大到小排列。
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ABSTRACT
外文摘要以250个实词为宜。
(小4号Times New Roman 体,行间距为“固定值”22磅)
…… …… …… …… ……
Key words:小4号Times New Roman体,行距为固定值22磅;(与中文对应)
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目 录
第1章 绪论 ················································································································1
1.1 ·········································································································································· 1 1.2 ·········································································································································· 1
1.2.1 ······························································································································ 2
(第1章没有本章小结,其它章都有)
……
第2章 ························································································································5
2.1 ·········································································································································· 5
……
2.4 本章小结 ······················································································································· 10 第3章 ····················································································································· 11
3.1 ········································································································································ 11
……
3.5 本章小结 ······················································································································· 15 第4章 ····················································································································· 16
4.1 ········································································································································ 16
……
4.5 本章小结 ······················································································································· 20 第5章 ····················································································································· 21
5.1 ········································································································································ 21
……
5.4 本章小结 ······················································································································· 30 结论 ·························································································································· 31 参考文献 ··················································································································· 32 攻读学士学位期间发表的论文和取得的科研成果 ······················································ 33 致谢 ·························································································································· 34
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第1章 绪论(小2号黑体)
1.1 课题背景(小3号黑体)
随着世界核能技术的开发与应用,研制中小型核电机组反应堆的呼声越来越高,由于一体化压水堆在技术和经济性方面,特别适用于中小规模核电站,且完全满足未来核电站的安全性要求,因此近十年来,越来越多的国家开展了一体化压水堆的研究工作。
(小4号宋体,行间距为“固定值”22磅)
……
1.2 世界一体化压水堆的概况
一体化压水堆具有占用空间小,使用寿命长,安全性高等优点,特别适用于中小型电站和核电机组,全世界已有十多个国家先后加入了研究开发一体化反应堆技术的行列,同时国际原子能机构对这一研究工作给予了高度重视和大力支持,并专门召开专题国际学术交流会,有力的推动了一体化压水堆技术快速发展。
1.2.1 固有安全一体化UZrHx动力堆INSURE-100(4号黑体)
INSURE-100[1]的整个一回路系统集中布置在一个内高约8.5m内径约3.0m的压力壳内。顶部空间是容积约9m3的稳压器。20台套管式直流蒸汽发生器放在环形下降段上部。堆芯位于压力壳下部。堆芯顶部距蒸汽发生器底部1.25m,这有利于降低蒸汽发生器的辐照损伤。
…… ……
第1章无本章小结
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第2章 直流蒸汽发生器
2.1 直流蒸汽发生器的结构及特点
…… ……
在一体化反应堆中,通常采用直流蒸汽发生器。如图2.1所示。
图2.1 直流蒸汽发生器(小五号宋体)
…… ……
2.4 本章小结
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第3章 仿真模型的建立
3.1 概述
…… ……
点堆中子动力学方程如下:
6dnniCiq (3-1) dtli1dCiiniCi (3-2) dtl…… ……
表3.1 主要技术经济指标表(小4号宋体)
序号 1 2 3 4 5 名称 设计吞吐量 泊位数 码头总长度 陆域纵深 陆域面积 单位 万吨/年 个 m m 万m2 数量 25.5 2 120 307 5.73 备注 粮食12万吨/年,杂货13.5万吨/年 —— —— —— ——
表3.2 各组分lgBi值
T=1500K 序号 组分 1 2 O2+ HO2 lgBi 5.26 5.26 组分 HO2 O2+ lgBi 6.43 6.42 T=2000K 可编辑
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3 H2O+ 注:“+”表示重要成分(小5号宋体)
3.5 本章小结
4.76 H2O+ 6.18 …… ……
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结 论
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参考文献
参考文献的著录均应符合国家有关标准。参考文献的序号左顶格,并用数字加方括号表示,如[1],[2],…,以与正文中的指示序号一致。每一参考文献条目的最后均以“.”结束,参考文献条目中涉及括号时均采用半角括号“()”。各类参考文献条目的编排格式以及示例如下。
1.连续出版物
[序号] 主要责任者.文献题名[J].刊名,出版年份,卷号(期号):起止页码. 例如:
[1] 赵哲英,马玉龙.电负载对压电振动系统特性的影响[J].声学
报,1981,3(2):92-102P.
2.专著
[序号] 主要责任者.文献题名[M].出版地:出版者,出版年:起止页码. 例如:
[2] 刘国梁,王成.图书馆史研究[M].北京:高等教育出版社,1979:15-18,31P. 3.会议论文集
[序号] 主要责任者.文献题名[A].主编.论文集名[C].出版地:出版者,出版年:起止页
码.
例如:
[3] 杭勇,杨明,陆娟.基于NI产品的高压共轨柴油机电控单元测试系统的开发[A].基于计算机的测试测量和自动化应用方案论文集[C].上海:美国国家仪器中国分公司,2006:1-5P. 4.学位论文
[序号] 主要责任者.文献题名[D].保存地:保存单位,年份. 例如:
[4] 张京.水利水电理论[D].武汉:武汉大学,1997. 5.报告
[序号] 主要责任者.文献题名[R].报告地:报告会主办单位,年份. 例如:
[5] 冯宜章.核反应堆压力容器的LBB分析[R].北京:清华大学核能技术研究院,1997.
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6.专利文献
[序号] 专利所有者.专利题名[P].专利国别:专利号,发布日期. 例如:
[6] 姜锡州.一种温热外敷药制备方案[P].中国专利:881056078,1983-08-12. 7.国际、国家标准
[序号] 标准代号,标准名称[S].出版地:出版者,出版年. 例如:
[7] GB/T16159-1996,汉语拼音正词法基本规则[S].北京:中国标准出版社,1996. 8.报纸文章
[序号] 主要责任者.文献题名[N].报纸名,出版日期(版次). 例如:
[8] 张黎.情感工学破解‘舒服’之谜[N].光明日报,2000-04-17(B1). 9. 电子文献
[序号] 主要责任者.电子文献题名[电子文献及载体类型标识].电子文献的出处或可
获得地址,发表或更新日期/引用日期(任选).
例如:
[9] 王明亮.关于中国学术期刊标准化数据库系统工程的进展
[EB/OL].http://www.cajcd.edu.cn/pub/wml.txt/980810-2.html,1998-08-16/1998-10-04.
电子文献类型的参考文献,建议下列字母作为标识:数据库[DB],计算机程序[CP],电子公告[EB]。
引用参考文献类型及其标识说明如下:
根据GB3469规定,以单字母方式标示以下各种参考文献类型,如表2.1所示:
表2.1 参考文献的标识 参考文献类型 文献类型标识 参考文献类型 文献类型标识 专著 M 学位论文 D 论文集 C 报告 R (单篇论文) (A) 标准 S 报纸文章 N 专利 P 期刊文章 J 其他文献 Z
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攻读学士学位期间发表的论文和取得的科研成果
(如果没有成果此页可以删除)
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致 谢
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