课程目录
化学工程类
ChE 110, Introduction to 化学工程
1学分,1课时
学生将获得适用于所有工程学科的基本工程技能 通过以问题和合作为基础的学习练习,获得清晰的理解 化学工程师的实践与其他工程学科的对比 traditional and contemporary work environments and careers. 本课程将介绍 工程计算,如材料和能源平衡,成本分析,和 工程软件程序.
ChE 110L, Introduction to 化学工程 Lab
1个学分,1个实验小时
本实验着重于工程设计、计算和应用的第一手经验 simulations using ChemCAD, Lab VIEW, and Excel. Additionally, data acquisition and 分析将会介绍. Small teams will design, build, and test a system, resulting in a written report, oral presentation, and design competition.
No 200-Level 化学工程 classes are offered.
ChE 326, Principles of 化学工程 I
3 credits, 3 class hours; Prerequisite: CHEM 121 Corequisite: MATH 132
开设秋季学期
Introduction to stoichiometric computations. Calculations of energy and material balance. Elementary 过程分析 and reactor design. 单相和多相系统. (相同 如METE 326)
ChE 327, Principles of 化学工程 II
3 credits, 3 class hours; Prerequisite: ChE 326 Corequisite: MATH 231
开设春季学期
Introduction to non‐steady state, transient material and energy balances. 解决方案 方法采用逻辑编程,电子表格和过程仿真软件. 统计 过程分析.
ChE 345L, 化学工程 Design Lab
1 credit, 3 lab hours; Prerequisites: ES 347, ChE 326 Corequisite: ES 350
开设春季学期
团队导向的项目设计. Introduction to design fundamentals and creative problem‐solving 技术. Written and oral presentations summarizing team progress.
ChE 349, 化学工程 Thermodynamics
3 credits, 3 class hours; Prerequisites: MATH 231; CHEM 121, PHYS 121; ES 347 is recommended
开设秋季学期
混合物、相和化学性质的理论和工程应用 反应平衡. (与MATE 350相同)
化学过程动力学
3 credits, 3 class hours; Prerequisites: ChE 326, 349, MATH 335 Corequisite: ES 350
开设春季学期
Fundamentals of chemical reaction kinetics and chemical reactor design. 发展 均相和非均相反应的速率方程,催化,扩散控制 reactions, and transport 流程. (原编号为ChE 451)
ChE 352,分离过程
3 credits, 3 class hours; Prerequisites: ChE 326, 349 Corequisite: ES 350
开设春季学期
解决二元和多组分平衡问题的过程方法 混合物. Phase equilibrium, absorption, distillation (binary and multicomponent), liquid‐liquid extraction, leaching. Design of staged operations for separating gas‐liquid, liquid‐liquid, solid‐liquid, and gas‐solid 混合物. (原编号为ChE 442)
ChE 371, 解决方案 方法 for Chemical Engineers
3 credits, 3 class hours; Prerequisites: ChE 327 Corequisites: MATH 335, ES 350
开设秋季学期
化学工程问题的解析和数值解决技术的应用 热力学,流体传输,传热,传质,动力学和过程 控制. 所涵盖的主题包括线性和非线性代数集的解 方程,常微分方程,偏微分方程. 强调 如何解决学生在化学工程领域会遇到的问题.
ChE 443, Process Dynamics and Control
2 credits, 2 class hours; Prerequisites: MATH 335 Corequisites: ChE 371
开设秋季学期
过程动力学和控制理论应用于化学,机械和其他工程 流程. 控制系统设计.
ChE 443L, Chemical Process Dynamics & 控制实验室
1 credit, 3 lab hours; Corequisite: ChE 443
Computer modeling of system dynamics. Design, implementation, and tuning of process 控制 systems for chemical 流程.
ChE 445L,单位操作实验室
1 credit, 3 lab hours; Prerequisite: ChE 351, 352
开设秋季学期
演示热交换、流体流动和质量传递现象的实验室练习 in common unit operations found in the chemical process industries.
ChE 461, Chemical Plant Design, Economics, and Management I
3 credits, 1 class hour, 6 lab hours; Prerequisites: ChE 351 and ChE 352
开设秋季学期
两个学期的课程序列,其中一个设计项目被用来说明 化工厂设计、经济和管理的原理和过程. 讲座 主题包括知识产权、资本和运营成本估算、能源 conservation, design optimization and scaling of chemical 流程. 商业用途 available process simulation software emphasized.
ChE 462, Chemical Plant Design, Economics, and Management II
3 credits, 1 class hour, 6 lab hours; Prerequisite: ChE 461
开设春季学期
ChE 461的延续.
ChE 463, 463D, Design and Analysis of Experiments
3 credits, 3 class hours; Prerequisite: Senior standing
统计和建模方法对材料科学中的许多问题都很重要 和工程. Examples are chosen from a number of actual experiences. 安全注意事项 实验设计包括风险分析,风险如何整合,以及 how formal procedures should be established. The use of information sources, such as materials safety data sheets (MSDS). (同MATE 430)
ch464天然气工程
3 credits, 3 class hours; Prerequisite: PETR 245 or ChE 349
开设秋季学期
Composition and properties of natural gas. 气体分离器设计. 可液化物的回收 天然气产品. Conditioning, transmission, and compression, measurement of gas, gas pipeline design, and gas 存储. (同PETR 464)
ChE 465, Catalyst Characterization Techniques
3 credits, 3 class hours; Prerequisite: ChE 349 or MATE 350 or CHEM 332 or instructor’s 同意
本课程概述了用于表征催化材料的技术 包括数据分析以及将物理和化学性质与催化联系起来 activity at the laboratory and process level. Topics include x‐ ray methods, neutron 散射方法,物理吸附,化学吸附,程控温度 技术,光电子能谱,振动能谱,和电子显微镜.
470,燃料电池技术
3 credits, 3 class hours; Prerequisite: Consent of instructor
燃料电池技术的原理,包括燃料电池的分类和 运行机制. Analysis of the underlying thermodynamics and physical factors which govern fuel cell performance and efficiency. 细胞成分和整合 电池设计.
ChE 472, 472D, Advanced Transport Phenomena
3 credits, 3 class hours; Prerequisite: ES 216 and 350 or MATE 314 or 同意 of instructor
Advanced topics in momentum, heat, and mass transfer. 牛顿和非牛顿 流体行为和层流问题,基本湍流概念,能量 平衡应用于不可压缩流体流动,流动和真空生产. 傅里叶的 材料的导热规律,稳态和随时间变化的热传导; application in solidification, elementary convective heat transfer. 扩散系数的 材料,在气体,液体和固体中的扩散,以及通过多孔介质,时间依赖 diffusion, and interphase mass transfer.
ChE 473, Polymer Materials Engineering
3 credits, 3 class hours; Prerequisite: MATE 202 or 同意 of instructor
每年秋季学期提供
介绍高分子材料的分类和性能. 方法 of polymer synthesis and processing. Special emphasis on structure, viscoelasticity, 机械性能.
ChE 474, Polymer Processing and Characterization
3 credits, 2 class hours, 3 lab hours; Prerequisite: Consent of instructor
The basics of rheology, calorimetry and 机械测试 are covered. 一个特定的 使用聚合物(e).g., an epoxy) throughout the course and the processing of this 聚合物被覆盖. 学生应掌握仪器的使用知识 and analysis tools used in the course. These include rheometers, calorimeters, and 机械测试. The primary analysis tool is Kaleidagraph software. (同MATE) 474.)
ChE 475, 475D,爆炸物担保
3 credits, 3 class hours; Prerequisite: Upper‐class standing or 同意 of instructor
开设春季学期
An introduction to explosives and other energetic materials. 基本的化学成分, 商业、军事和临时(恐怖主义)的性质和环境影响 explosives and some pyrotechnics will be compared. 冲击波的基本物理学 和爆轰. Explosive effects, blast detection, tagging and environmental issues. 案例研究或最近的爆炸事件将被用来描述各种恐怖主义手段. 处理爆炸性物料的安全及运输分类 存储. (同exl 414.)
ChE 476给药技术
3 credits, 3 class hours; Prerequisite: Senior standing or 同意 of instructor
重点是药物输送技术的当前发展,只进行简短的讨论 常见的临床技术. The first portion of the class focuses on various delivery 验证成功靶向给药所需的机制和工具 in vitro, in vivo and diagnostic tools).
课程的第二部分侧重于基于药物传递的当前发展 关于发表的研究论文. Students will read, digest, and critically analyze scientific work from leading research laboratories. 学生也将获得宝贵的 沟通工具,因为每个学生都会向全班展示一篇感兴趣的文章. 最后,课程的第三部分侧重于重要材料的表征 生物样品制备、SEM、TEM、DSC、流式细胞术、荧光等方法 显微镜,ELISA检测. Shares lecture with MATE 576 with additional expectations 研究生学分.
ch485,高级研讨会
1 credit, 3 lab hours; Prerequisite: Senior standing or 同意 of instructor
开设秋季学期
Student and outside speaker presentations of topics of current interest. 同行和 video review of each student’s work. 职业规划.
ChE 491,独立学习
Credit hours to be arranged; Prerequisite: Consent of instructor
Individual study of chemical engineering problems of special interest.