opportunities are given several times after group work so as to help the studentsshowpersonalattributionandincreasepresentationskills.Thefinalscoredependsmainly on the model building assignment and several drawing practices while thewrittenexaminationtakesonly4o%.Afterthecourse,studentsshouldlearnfundamentalknowledgeof shipwithstructurefeatures,gainabilityforreadingshipplans and drawing the basic structural drawings. They can use appropriate terms todescribestructures of a whole ship and explain thefeaturesfortypical structures课程教学大纲(coursesyllabus)Aftercompletingthecourse,studentsshould1.Havegood knowledge of Ship drawing rules. (A3,A5, B2,B6, C1)2.Havegoodknowledgeofshipfeaturesandgeneralarrangementplan composition,canreadandunderstandgeneralarrangementplan.(A5,B6)3. Understand ship structure Loading and strength of ship structure, Framing types for shipskeleton. (A5, B6)4.Mastertypical shipstructureterminology(EN/CN)andunderstandtypes and stressof*学习目标(Learningshipstructures prepare severalgrouppresentations for typical ship structure.(A5, B6)Outcomes)5.Masterhowtoreadand drawatypical midshipsectionplan,to readgeneral structureplan composition contents. (A5, B3, B6)6.UseAutocaddrawingbasicshipdrawings likelinesplan,mid-shipsectionplanandnodeplan.(A5, B3, B6)7.Havea capabilityto finish assignments of building amidship section blockmodelbygroupwork. (A5, B3, B6, C4)topicsCreditTeachingtasksIntended learninghoursmethodologyoutcomesBasicReciting wordFamiliarwiththe3knowledge forLecturinglistvocabularyship drawingDiscussion:ShipsystemsUnderstandingLecturing andDifficulties*教学内容、进度 and generalthe systems and3group work, pptand meaningsarrangementcan readthe GA安排及要求ofanreportingplanplanicebreaker?(Class ScheduleDraw and readHomework ofKnowing the&Requirements)3constructionLecturingtextbooktypicalnodeplansnodeplansNode planLecturing andHomework ofUse Autocaddrawingwith3practicing intextbooksoftwareAutocadgroupShip loadingLecturing andReading andKnowing typical6and typical shipgroup work, pptconclusionofstructuresrelatedstructurereporting25
opportunities are given several times after group work so as to help the students show personal attribution and increase presentation skills. The final score depends mainly on the model building assignment and several drawing practices while the written examination takes only 40%. After the course, students should learn fundamental knowledge of ship with structure features, gain ability for reading ship plans and drawing the basic structural drawings. They can use appropriate terms to describe structures of a whole ship and explain the features for typical structures 课程教学大纲(course syllabus) *学习目标(Learning Outcomes) After completing the course, students should: 1. Have good knowledge of Ship drawing rules. (A3, A5, B2, B6, C1) 2. Have good knowledge of ship features and general arrangement plan composition, can read and understand general arrangement plan. (A5, B6) 3. Understand ship structure Loading and strength of ship structure, Framing types for ship skeleton. (A5, B6) 4. Master typical ship structure terminology(EN/CN) and understand types and stress of ship structures prepare several group presentations for typical ship structure. (A5, B6) 5. Master how to read and draw a typical midship section plan, to read general structure plan composition contents. (A5, B3, B6) 6. Use Autocad drawing basic ship drawings like lines plan, mid-ship section plan and node plan. (A5, B3, B6) 7. Have a capability to finish assignments of building a midship section block model by group work. (A5, B3, B6, C4) *教学内容、进度 安排及要求 (Class Schedule & Requirements) topics Credit hours Teaching methodology tasks Intended learning outcomes Basic knowledge for ship drawing 3 Lecturing Reciting word list Familiar with the vocabulary Ship systems and general arrangement plan 3 Lecturing and group work, ppt reporting Discussion: Difficulties and meanings of an icebreaker? Understanding the systems and can read the GA plan Draw and read construction node plans 3 Lecturing Homework of textbook Knowing the typical node plans Node plan drawing with Autocad 3 Lecturing and practicing in group Homework of textbook Use Autocad software Ship loading and typical ship structure 6 Lecturing and group work, ppt reporting Reading and conclusion of related Knowing typical structures 25
ChaptersDrawingaUnderstand andTypical midshipmidshipgrasphowto3Lecturingsectionplansection plandraw a midshipwith AutocadsectionplanGeneralUnderstand andstructure plan&6Lecturingread a generalmodel buildingstructure planpreparationBuilding modelhand-madeHand-madeComprehendand(draw midshipholds model9model buildingapply the learntsection plan)in groupbuilt in groupknowledgeLines planUnderstand and6(writtenLecturinggrasp how toexam)draw a lines planKnownhowtoQ&AandDrawa linesdraw a lines plan9Draw lines planplanpracticefrom coordinatetalbesAttendance&homework:Group workbehavior,ParticipateActively,Complete考核方式independently(10%)(AssessmentModel making:Reportand Model(20%),Group workbehavior,individual contributions.methodsandComputerdrawing:Typical midship section/Lines plan(30%)Grading)Written Exam: (40%)教材或参考资料1.Lecture note, 2016(Textbooks&Other2.D.J.Eyres,ship construction(6th edition),Heinemann,2007,ISBN:0434905577ReadingMaterials)3.KlaasvanDokkum,shipknowledge,D0KMAR,2010,iSBN:9789071500145Depending on the permit, the on-site tour may be arranged occasionally. In 2014, a well备注organized on-site tour has been carried out in the SwS shipyard, which is oneof the(Notes)famousandmodernshipyardsofChina26
Chapters Typical midship section plan 3 Lecturing Drawing a midship section plan with Autocad Understand and grasp how to draw a midship section plan General structure plan & model building preparation 6 Lecturing Understand and read a general structure plan Building model (draw midship section plan) 9 hand-made model building in group Hand-made holds model built in group Comprehend and apply the learnt knowledge Lines plan (written exam) 6 Lecturing Understand and grasp how to draw a lines plan Draw lines plan 9 Q&A and practice Draw a lines plan Known how to draw a lines plan from coordinate talbes 考核方式 (Assessment methods and Grading) Attendance & homework: Group work behavior, Participate Actively, Complete independently(10%) Model making: Report and Model(20%), Group work behavior, individual contributions. Computer drawing: Typical midship section/Lines plan(30%) Written Exam:(40%) 教材或参考资料 (Textbooks & Other Reading Materials) 1. Lecture note, 2016 2. D.J. Eyres, ship construction(6th edition) , Heinemann, 2007, ISBN: 0434905577 3. Klaas van Dokkum, ship knowledge, DOKMAR,2010,ISBN: 9789071500145 备注 (Notes) Depending on the permit, the on-site tour may be arranged occasionally. In 2014, a well organized on-site tour has been carried out in the SWS ship yard, which is one of the famous and modern shipyards of China. 26
《船舶流体力学》课程教学大纲课程基本信息(CourseInformation)*学时*学分课程代码64NA235(Credit4. 0(Course Code)(Credits)Hours)(中文)船舶流体力学*课程名称(Course Name)(英文)IntroductiontoMarineHydrodynamics课程性质专业必修课(Course Type)授课对象船舶与海洋工程、轮机工程、港口航道与海岸工程及其相关专业本科生(Audience)授课语言中文(Language ofInstruction)*开课院系船舶海洋与建筑工程学院(School)先修课程《高等数学》、《线性代数》、《理论力学》(Prerequisite)万德成、邹璐、顾解仲、课程网址授课教师刘成、王建华、赵伟文、(Coursehttp://dcwan.s.jtu.edu.cn/naocecfd/(Instructor)廖世俊、林志良Webpage)《船舶流体力学》是船舶与海洋工程本科学习的一门重要的专业基础课程,它主要介绍船舶流体力学的基础知识和分析方法,包括流体的基本性质、流体静力学、流体运动的描述方法、流体动力学基本控制方程、流体旋涡运动、理想流体势流运动、*课程简介水波运动、粘性流体力学、流体边界层、流体力学相似与因次分析法、计算流体力(Description)学和实验流体力学等基本概念和知识。要求学生学习和掌握船舶流体力学的基本概念、理论和分析方法,学习计算流体力学和实验流体力学的入门知识:不仅对流体力学的理论体系有全面了解和认识流体力学新的发展方向,而且要用流体力学的观点和方法观察、思考和分析流动现象。Introduction to Marine Hydrodynamics is a fundamental course for oceanengineering undergraduate. It mainly introduces the basic knowledge andanalysis methods of Marine hydrodynamics. Such as the basic propertiesof fluid, hydrostatics, the description of fluid motion, fluid dynamics,*课程简介the basic government equations, vortex motion, potential theories of(Description)ideal fluid, wave motion, viscous fluid mechanics, boundary layer flow,similarity and dimensional analysis, computational fluid mechanics,experimental techniques and so on. Students need to learn and master thebasic concept of hydrodynamics,introductoryknowledge of computational27
《船舶流体力学》课程教学大纲 课程基本信息(Course Information) 课程代码 (Course Code) NA235 *学时 (Credit Hours) 64 *学分 (Credits) 4.0 (中文)船舶流体力学 *课程名称 (Course Name) (英文)Introduction to Marine Hydrodynamics 课程性质 (Course Type) 专业必修课 授课对象 (Audience) 船舶与海洋工程、轮机工程、港口航道与海岸工程及其相关专业本科生 授课语言 (Language of Instruction) 中文 *开课院系 (School) 船舶海洋与建筑工程学院 先修课程 (Prerequisite) 《高等数学》、 《线性代数》、 《理论力学》 授课教师 (Instructor) 万德成、邹璐、顾解忡、 刘成、王建华、赵伟文、 廖世俊、林志良 课程网址 (Course Webpage) http://dcwan.sjtu.edu.cn/naocecfd/ *课程简介 (Description) 《船舶流体力学》是船舶与海洋工程本科学习的一门重要的专业基础课程,它主要 介绍船舶流体力学的基础知识和分析方法,包括流体的基本性质、流体静力学、流 体运动的描述方法、流体动力学基本控制方程、流体旋涡运动、理想流体势流运动、 水波运动、粘性流体力学、流体边界层、流体力学相似与因次分析法、计算流体力 学和实验流体力学等基本概念和知识。要求学生学习和掌握船舶流体力学的基本概 念、理论和分析方法,学习计算流体力学和实验流体力学的入门知识;不仅对流体 力学的理论体系有全面了解和认识流体力学新的发展方向,而且要用流体力学的观 点和方法观察、思考和分析流动现象。 *课程简介 (Description) Introduction to Marine Hydrodynamics is a fundamental course for ocean engineering undergraduate. It mainly introduces the basic knowledge and analysis methods of Marine hydrodynamics. Such as the basic properties of fluid, hydrostatics, the description of fluid motion, fluid dynamics, the basic government equations, vortex motion, potential theories of ideal fluid, wave motion, viscous fluid mechanics, boundary layer flow, similarity and dimensional analysis, computational fluid mechanics, experimental techniques and so on. Students need to learn and master the basic concept of hydrodynamics, introductory knowledge of computational 27
fluid mechanics and experiment. Students will have not only acomprehensiveunderstanding of fluid dynamics,but also the newdevelopment of this field. Thinking and analysis abilities from theviewpoint of fluid mechanics arealso veryimportant.课程教学大纲(course syllabus)(1)了解流体力学的发展历史和流体的基本特性。(A3,A5,C1,C4)(2)掌握流体静力学、运动学和动力学的基本理论(A4,A5,B2,B10,C4)(3)掌握漩涡运动、势流理论(A4,A5,B2,B10,C4)(4)掌握线性水波基本理论(A4,A5,A7,B2,B10,C4)*学习目标(5)掌握不可压粘性流体运动的基本理论(A4,A5,C4)(Learning(6)掌握边界层流动基本理论(A4,A5,B2,B10,C4)Outcomes)(7)掌握相似和因次分析基本理论(A4,A5,B2,B10,C4)(8)了解计算流体力学和实验流体力学基本知识(A3,A8,B2,B11,C4)(9)培养学生对流体力学分析能力和团队协作解决简单工程问题的能力(A4,A5,A7,B10,B12,(C4)教学内容学时教学方式作业及要求基本要求考查方式序论和流体的基本特性3习题书面作业面授/提问完成要求介绍流体静力学3习题面授/提问完成要求书面作业流体运动学8面授/提问习题完成要求书面作业流体动力学8面授/提问习题完成要求书面作业*教学内容、进度安流体的旋涡排及要求习题6面授/提问完成要求书面作业运动(Class Schedule理想流体的8面授/提问习题完成要求书面作业势流运动&Requirements)水波基本理8面授/提问习题完成要求书面作业论不可压粘性流体运动的面授/提问习题完成要求书面作业基本理论边界层基本6面授/提问习题完成要求书面作业理论书面作业流动相似与面授/提问习题完成要求428
fluid mechanics and experiment. Students will have not only a comprehensive understanding of fluid dynamics, but also the new development of this field. Thinking and analysis abilities from the viewpoint of fluid mechanics are also very important. 课程教学大纲(course syllabus) *学习目标 (Learning Outcomes) (1) 了解流体力学的发展历史和流体的基本特性。(A3,A5,C1,C4) (2) 掌握流体静力学、运动学和动力学的基本理论(A4,A5,B2,B10,C4) (3) 掌握漩涡运动、势流理论(A4,A5,B2,B10,C4) (4) 掌握线性水波基本理论(A4,A5,A7,B2,B10,C4) (5) 掌握不可压粘性流体运动的基本理论 (A4,A5,C4) (6) 掌握边界层流动基本理论 (A4,A5,B2,B10,C4) (7) 掌握相似和因次分析基本理论 (A4,A5,B2,B10,C4) (8) 了解计算流体力学和实验流体力学基本知识 (A3,A8,B2,B11,C4) (9) 培养学生对流体力学分析能力和团队协作解决简单工程问题的能力(A4,A5, A7,B10,B12,C4) *教学内容、进度安 排及要求 (Class Schedule & Requirements) 教学内容 学时 教学方式 作业及要求 基本要求 考查方式 序论和流体 的基本特性 介绍 3 面授/提问 习题 完成要求 书面作业 流体静力学 3 面授/提问 习题 完成要求 书面作业 流体运动学 8 面授/提问 习题 完成要求 书面作业 流体动力学 8 面授/提问 习题 完成要求 书面作业 流体的旋涡 运动 6 面授/提问 习题 完成要求 书面作业 理想流体的 势流运动 8 面授/提问 习题 完成要求 书面作业 水波基本理 论 8 面授/提问 习题 完成要求 书面作业 不可压粘性 流体运动的 基本理论 6 面授/提问 习题 完成要求 书面作业 边界层基本 理论 6 面授/提问 习题 完成要求 书面作业 流动相似与 4 面授/提问 习题 完成要求 书面作业 28
因次分析计算流体力无学基本知识面授无了解介绍实验流体力参观心得报4参观完成要求提交报告告学基础本课程的考试,注重对学生综合应用所学知识解决问题能力的考核,考试成绩包括两个方面:*考核方式(1)考试,占总成绩的70%。(Grading)(2)平时作业成绩,占30%。教材:《船舶水动力学》,自编讲义,万德成(已用八届)。参考资料:《水动力学基础》,刘岳元、冯铁城、刘应中编,上海交通大学出版社,1990,*教材或参考资料ISBN:9787313002624;(Textbooks &《流体力学》,许维德,国防工业出版社,1989:Other Materials)《FluidMechanics》,F.M.White,McGraw-Hill,2009,7thEd.,ISBN:9780073529349《MarineHydrodynamics》,J.N.Newman,MITPress,2017,40thanniversaryedition,ISBN:9780262534826。其它(More)备注(Notes)29
因次分析 计算流体力 学基本知识 介绍 4 面授 无 了解 无 实验流体力 学基础 4 参观 参观心得报 告 完成要求 提交报告 *考核方式 (Grading) 本课程的考试,注重对学生综合应用所学知识解决问题能力的考核,考试成绩 包括两个方面: (1)考试,占总成绩的 70%。 (2)平时作业成绩,占 30%。 *教材或参考资料 (Textbooks & Other Materials) 教材: 《船舶水动力学》,自编讲义,万德成(已用八届)。 参考资料: 《水动力学基础》,刘岳元、冯铁城、刘应中编,上海交通大学出版社,1990, ISBN:9787313002624; 《流体力学》,许维德,国防工业出版社,1989; 《Fluid Mechanics》, F.M.White, McGraw-Hill,2009,7th Ed., ISBN: 9780073529349; 《Marine Hydrodynamics》, J.N. Newman, MIT Press, 2017,40th anniversary edition,ISBN:9780262534826。 其它 (More) 备注 (Notes) 29