学校名称:Northwestern University
学院名称:McCormick School of Engineering & Applied Science麦考密克工程与应用科学学院
专业名称:Master of Science in Chemical Engineering
化学和生物学专业的科学硕士培养研究生成为工业和大学环境的top。 我们提供严格的论文和非论文选项,可在九个月内完成。
必修课程让学生广泛接触核心化学工程概念的高级主题,而技术选修课则向学生介绍当前化学和生物工程实践的主题多样性,包括生物技术,纳米工程和可持续性。 可以从该系的任何教师那里征集基于论文的硕士学位的项目。
研究方向
Biotechnology, bioengineering, and complexity生物技术,生物工程和复杂性
Energy and sustainability能源和可持续性
Materials and nanoengineering材料和纳米工程
课程设置
要想获得化学和生物工程理学硕士学位,你需要修多少门课取决于你是否要为论文答辩。
论文和非论文选项
论文选择的要求包括至少完成七门课程,外加至少三个研究单元,以获得一篇令人满意的论文的口头答辩。
非论文选项要求至少10门课程。选择非学位论文的学生通常在9-15个月内完成学业。
化学工程课程的分配要求如下:
Departmental Coursework
In order to fulfill The Graduate School and departmental requirements you must complete 10 courses according to the following specifications: 为了满足研究生院和部门要求,您必须按照以下规范完成10门课程:
Core Courses
Three courses in the areas of transport processes and chemical process principles (kinetics and thermodynamics). 运输过程和化学过程原理(动力学和热力学)领域的三门课程:
Fluid Mechanics流体力学
Heat and Mass Transfer传热传质
Chemical Engineering Kinetics and Reactor Design化学工程动力学和反应器设计
Advanced Thermodynamics高级热力学
Departmental Electives
One elective must be taken within the chemical and biological engineering department if the thesis option is selected. Three electives must be taken within the department if the non-thesis option is selected. 如果选择论文选项,必须在化学和生物工程系内选修一门。 如果选择非论文选项,则必须在部门内选修三门选修课。
Additional Electives
Three additional graduate-level electives must be taken if the thesis option is selected. Four additional electives must be taken if the non-thesis option is selected. These electives can be chosen from courses available in Department of Chemical and Biological Engineering, another engineering department, or a science or math department. These courses must be 300, 400, or 500-level classes listed as graduate level courses by The Graduate School. 如果选择了论文选项,则必须选修三门研究生级别的选修课。 如果选择非论文选项,则必须选择四门选修课。 这些选修课可以从化学与生物工程系,其他工程系或科学或数学系的课程中选择。 这些课程必须是300,400或500级课程,由研究生院列为研究生课程。
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课程列表 可点开看课程描述 |
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CHEM_ENG 190: Engineering of Chemical and Biological Processes CHEM_ENG 210: Analysis of Chemical Process Systems CHEM_ENG 211: Thermodynamics CHEM_ENG 212: Phase Equilibrium and Staged Separations CHEM_ENG 275: Molecular and Cell Biology for Engineers CHEM_ENG 307: Kinetics and Reactor Engineering CHEM_ENG 312: Probability and Statistics for Chemical Engineering CHEM_ENG 321: Fluid Mechanics CHEM_ENG 322: Heat Transfer CHEM_ENG 323: Mass Transfer CHEM_ENG 330: Molecular Engineering and Statistical Mechanics CHEM_ENG 341: Dynamics and Control of Chemical and Biological Processes CHEM_ENG 342: Chemical Engineering Laboratory CHEM_ENG 345: Process Optimization for Energy and Sustainability CHEM_ENG 351: Process Economics, Design, and Evaluation CHEM_ENG 352: Chemical Engineering Design Projects CHEM_ENG 355: Chemical Product Design CHEM_ENG 361: Introduction to Polymers CHEM_ENG 364: Chemical Processing and the Environment CHEM_ENG 365: Sustainability, Technology, and Society CHEM_ENG 367: Quantitative Methods in Life Cycle Analysis CHEM_ENG 372: Bionanotechnology CHEM_ENG 373: Biotechnology and Global Health CHEM_ENG 375: Biochemical Engineering CHEM_ENG 376: Principles of Synthetic Biology CHEM_ENG 377: Bioseparations CHEM_ENG 379: Computational Biology: Principles and Applications CHEM_ENG 381: Practical Biological Imaging CHEM_ENG 382: Biotechnology Regulatory Science CHEM_ENG 390: Personal and Organizational Effectiveness CHEM_ENG 395: *Special Topics in Chemical Engineering CHEM_ENG 404: Advanced Thermodynamics CHEM_ENG 406: Selected Topics in Thermodynamics CHEM_ENG 408: Chemical Engineering Kinetics and Reactor Design CHEM_ENG 409: Advanced Reactor Design CHEM_ENG 410: Principles of Heterogeneous Catalysis CHEM_ENG 421: Fluid Mechanics CHEM_ENG 422: Heat and Mass Transfer CHEM_ENG 451: Applied Molecular Modeling CHEM_ENG 462: Viscoelasticity and Flow in Polymer Systems CHEM_ENG 463: Polymerization Reaction Engineering CHEM_ENG 477: Bioseparations CHEM_ENG 478: Advances in Biotechnology CHEM_ENG 489: *Selected Topics in Chemical Engineering |
CHEM_ENG 190:化学和生物过程工程 CHEM_ENG 210:化学过程系统分析 CHEM_ENG 211:热力学 CHEM_ENG 212:相平衡和分阶段分离 CHEM_ENG 275:工程师的分子和细胞生物学 CHEM_ENG 307:动力学和反应器工程 CHEM_ENG 312:化学工程的概率和统计学 CHEM_ENG 321:流体力学 CHEM_ENG 322:传热 CHEM_ENG 323:传质 CHEM_ENG 330:分子工程与统计力学 CHEM_ENG 341:化学和生物过程的动力学和控制 CHEM_ENG 342:化学工程实验室 CHEM_ENG 345:能源和可持续性的流程优化 CHEM_ENG 351:流程经济学,设计和评估 CHEM_ENG 352:化学工程设计项目 CHEM_ENG 355:化学产品设计 CHEM_ENG 361:聚合物简介 CHEM_ENG 364:化学加工与环境 CHEM_ENG 365:可持续发展,技术和社会 CHEM_ENG 367:生命周期分析中的定量方法 CHEM_ENG 372:生物纳米技术 CHEM_ENG 373:生物技术与全球健康 CHEM_ENG 375:生化工程 CHEM_ENG 376:合成生物学原理 CHEM_ENG 377:生物分离 CHEM_ENG 379:计算生物学:原理和应用 CHEM_ENG 381:实用生物成像 CHEM_ENG 382:生物技术监管科学 CHEM_ENG 390:个人和组织的有效性 CHEM_ENG 395:*化学工程专题 CHEM_ENG 404:先进的热力学 CHEM_ENG 406:热力学专题 CHEM_ENG 408:化学工程动力学和反应器设计 CHEM_ENG 409:先进的反应器设计 CHEM_ENG 410:多相催化原理 CHEM_ENG 421:流体力学 CHEM_ENG 422:传热传质 CHEM_ENG 451:应用分子模拟 CHEM_ENG 462:聚合物体系中的粘弹性和流动性 CHEM_ENG 463:聚合反应工程 CHEM_ENG 477:生物分离 CHEM_ENG 478:生物技术的进步 CHEM_ENG 489:*化学工程专题 |
申请要求
Required application materials include:
· Application Fee:95$
· Your resume or CV
· A statement of purpose:所有申请人都必须在完成在线申请时上传目的声明。 您的目的声明应描述以下内容:
w 您进行研究生学习的目的和目标。
w 您拥有的任何特殊研究兴趣或资格。
w 为什么选择申请西北大学。
w 在提交之前,应将目的声明上载到在线申请中。 除非您的部门的说明另有说明,否则您的陈述应为1至2页,单行间距。
· Recommendations 3封,在考虑推荐人时,请考虑以下问题:
w 您申请的课程中的教师是否知道您的信函作者?
w 他们会为你写一些公平而周到的建议吗?
w 他们能否谈谈您的学术研究和成就以及您的研究生学习潜力?
· Your GRE test scores
· Academic transcripts,GPA3.0-4.0
· Deadline:5.1
· English proficiency requirements for international students:
· TOEFL exam,
· IELTS exam, or
