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Courses - Fall 2023
ENME
Engineering, Mechanical Department Site
ENME202
(Perm Req)
Computing Fundamentals for Engineers
Credits: 3
Grad Meth: Reg, P-F, Aud
Corequisite: Must be concurrently enrolled in MATH141.
Restriction: Permission of ENGR-Mechanical Engineering department.
Credit only granted for: ENAE202 or ENME202.
Introduction to computational tools for the solution of engineering problems. C++ & MATLAB programming including branching and loops, functions, file handling, arrays, and data structures. Students will be introduced to object-oriented programming, basic computing, algorithms, and principles of software engineering.
ENME272
(Perm Req)
Introduction to Computer Aided Design
Credits: 2
Grad Meth: Reg, P-F, Aud
Prerequisite: Must have completed or be concurrently enrolled in MATH141.
Restriction: Permission of ENGR-Mechanical Engineering department.
Credit only granted for: ENME414 or ENME272.
Fundamentals of CAD, using solid modeling packages (Pro/E, SolidWorks, and Autodesk Inventor). Two and three dimensional drawing. Dimensioning and specifications. Introduction of CAD based analysis tools. Students will complete a design project.
ENME299Z
(Perm Req)
Topics in Mechanical Engineering; The Legend of Zelda: A Link to Machine Design
Credits: 1
Grad Meth: Reg, Aud
ENME331
(Perm Req)
Credits: 3
Grad Meth: Reg, P-F, Aud
Prerequisite: ENES232 and ENES221.
Credit only granted for: BIOE331, ENCE305, ENFP300, or ENME331.
Principles of fluid mechanics. Mass, momentum and energy conservation. Hydrostatics. Control volume analysis. Internal and external flow. Boundary layers. Modern measurement techniques. Computer analysis. Laboratory experiments.
ENME332
(Perm Req)
Transfer Processes
Credits: 3
Grad Meth: Reg, P-F, Aud
Prerequisite: ENME331.
Credit only granted for: ENME332 or ENFP312.
The principles of heat transfer. Conduction in solids. Convection. Radiation. Modern measurement techniques. Computer analysis.
ENME350
(Perm Req)
Electronics and Instrumentation I
Credits: 3
Grad Meth: Reg
Prerequisite: PHYS271 and PHYS270.
Modern instrumentation. Basic circuit design, standard microelectronic circuits. Digital data acquisition and control. Signal conditioning. Instrumentation interfacing. Designing and testing of analog circuits. Laboratory experiments.
ENME351
(Perm Req)
Electronics and Instrumentation II
Credits: 3
Grad Meth: Reg, P-F, Aud
Prerequisite: PHYS271, ENME350, and PHYS270.
Continuation of ENME 350. Modern instrumentation. Basic circuit design, standard microelectronic circuits. Digital data acquisition and control. Signal conditioning. Instrumentation interfacing. Designing and testing of analog circuits. Laboratory experiments.
ENME361
(Perm Req)
Vibration, Controls and Optimization I
Credits: 3
Grad Meth: Reg, P-F, Aud
Prerequisite: ENES220, ENES221, and MATH246; and (MATH206 or ENME202).
Restriction: Must be in Engineering: Mechanical program.
Fundamentals of vibration, controls and optimization. Analysis and design in time, Laplace and frequency domains. Mathematical description of system response, system stability, control and optimization. Optimal design of mechanical systems.
ENME371
(Perm Req)
Product Engineering and Manufacturing
Credits: 3
Grad Meth: Reg, P-F, Aud
Prerequisite: ENES221; and (ENME392 or STAT400).
Restriction: Must be in Engineering: Mechanical program.
Business aspects of engineering product development. Relationship of design and manufacturing. Product specification. Statistical process control. Design team development. The development process.
ENME382
(Perm Req)
Introduction to Materials Engineering
Credits: 3
Grad Meth: Reg, P-F, Aud
Prerequisite: ENES100; and permission of ENGR-Mechanical Engineering department.
Corequisite: MATH241.
Recommended: PHYS261 and PHYS260.
Restriction: Permission of ENGR-Mechanical Engineering department.
Cross-listed with ENMA300.
Credit only granted for: ENMA300 or ENME382.
Structure of materials, chemical composition, phase transformations, corrosion and mechanical properties of metals, ceramics, polymers and related materials. Materials selection in engineering applications.
ENME392
(Perm Req)
Statistical Methods for Product and Processes Development
Credits: 3
Grad Meth: Reg, P-F, Aud
Prerequisite: MATH241.
Integrated statistical methodology for the improvement of products and processes in terms of performance, quality and cost. Designed experimentation. Statistical process control. Software application. Laboratory activities.
Delivered via ITV.
ENME400
(Perm Req)
Credits: 3
Grad Meth: Reg, P-F, Aud
Prerequisite: Must have completed or be concurrently enrolled in ENME361.
Restriction: Permission of ENGR-Mechanical Engineering department.
Design of mechanical elements and planar machines. Failure theories. Design of pressure vessels, joints, rotating elements, and transmission elements. Kinematic structures, graphical, analytical, and numerical analysis and synthesis of linkages, gear trains, and flywheels are covered.
ENME401
(Perm Req)
Entrepreneurial Design Realization
Credits: 3
Grad Meth: Reg, P-F, Aud
Restriction: Must have senior standing and permission of instructor.
Cross-listed with: ENES401.
Credit only granted for: ENME401, ENME489B or ENES401.
Formerly: ENME489B.
The vision for this course, and an aspect that makes it unique, is to expose students to the opportunities and challenges of bringing a product design to reality (entrepreneurship). The emphasis is on environmentally and socially sustainable projects. The end-product of this course will be full-scale implementations or complete design "packages" that can be taken to potential stakeholders.
ENME408
(Perm Req)
Selected Topics in Engineering Design; Automotive Design
Credits: 3
Grad Meth: Reg, P-F, Aud
Restriction: Must be in Engineering: Mechanical program; and senior standing. Or permission of ENGR-Mechanical Engineering department. Repeatable to 6 credits if content differs.

Creativity and innovation in design. Generalized performance analysis, reliability and optimization as applied to the design of components an engineering systems. Use of computers in design of multivariable systems.
ENME416
(Perm Req)
Additive Manufacturing
Credits: 3
Grad Meth: Reg, P-F, Aud
Prerequisite: ENME331. And ENME272; or ENME414.
Restriction: Permission of ENGR-Mechanical Engineering department.
Develop a comprehensive understanding of fundamental additive manufacturing, 3D printing approaches, including: extrusion-based deposition, stereolithography, powder bed-based melting, and inkjet-based deposition. Cultivate a design for-additive manufacturing skillset for CAD and CAM methodologies to produce successful 3D prints. Fabricate 3D mechanical objects using a variety of 3D printing technologies on campus. Execute a design project that demonstrates how additive manufacturing technologies can overcome critical limitations of traditional manufacturing processes.
ENME417
(Perm Req)
Numerical Methods in Engineering
Credits: 3
Grad Meth: Reg, P-F, Aud
Recommended: Senior standing.
Restriction: Permission of ENGR-Mechanical Engineering department.
Jointly offered with: ENME745.
Credit only granted for: ENME745, ENME808B, ENME417 or ENME489J.
Formerly: ENME489J.
Covers the fundamental aspects of how to apply analytical mathematical concepts to discrete data. The course is aimed at graduate students and senior undergraduate students in any area of engineering, and treats the material in a general manner that is not specific to any application or field of specialization.
ENME422
Indoor Environment and Mechanical Systems
Credits: 3
Grad Meth: Reg, Aud
Prerequisite: ENES232 and ENME332.
Jointly offered with: ENME753.
Credit only granted for: ENME422 or ENME753.
Fundamentals of indoor air quality and its measurements. Exploration of air cleaning technologies for gaseous, particulate and infectious agent contaminants. Simulations of air flow and contaminants with multi-zone models to allow testing of both contaminant dispersion in buildings and effectiveness of air cleaning technologies.
ENME423
(Perm Req)
Modern Climate Control and Building Energy Design/Analysis
Credits: 3
Grad Meth: Reg, P-F, Aud
Prerequisite: ENES232.
Corequisite: ENME332.
Restriction: Permission of ENGR-Mechanical Engineering department.
Fundamentals and design calculations of heat and moisture transfer in buildings; evaluation of cooling, heating and power requirements of buildings; building energy consumption simulations, use of alternative energy and energy conservation measures in buildings; fundamentals of fans/pumps and air/water distribution in buildings; introduction to refrigeration and energy systems for data centers and other mission-critical facilities.
Delivered via ITV.
ENME425
(Perm Req)
Energy Conversion Systems for Sustianability
Credits: 3
Grad Meth: Reg, P-F, Aud
Prerequisite: ENES232.
Restriction: Permission of the Mechanical Engineering Department.
Credit only granted for: ENME489X or ENME425.
Formerly: ENME489X.
Focus on energy sustainability with view on changing global energy availability and use. Addresses the objective of greatly reducing our dependence on the finite amounts of fossil energy sources available for our quest to achieve environmentally benign sustainable energy for green environment. The emphasis will be on sustainability issues, discussion on supply, demand and storage, energy transmission, global warming and carbon management, biomass-resources, uses and production of biofuels, national energy policy discussion, carbon emission, energy security and economics to ensure future energy needs can be met without compromising the ability of future generation to meet their own needs with due considerations to increase in global temperatures.
ENME426
(Perm Req)
Production Management
Credits: 3
Grad Meth: Reg, P-F, Aud
Credit only granted for: BMGT385 or ENME426.
The basic concepts and models needed to understand and design manufacturing systems, including the history of manufacturing, performance measures, queuing systems, variability, production planning and scheduling, lean manufacturing, and pull production control.
ENME430
(Perm Req)
Fundamentals of Nuclear Reactor Engineering
Credits: 3
Grad Meth: Reg, P-F, Aud
Prerequisite: MATH246.
Restriction: Permission of ENGR-Mechanical Engineering department.
Fundamental aspects of nuclear physics and nuclear engineering, including nuclear interactions; various types of radiation and their effects on materials and humans; and basic reactor physics topics, including simplified theory of reactor critically.
ENME432
(Perm Req)
Reactor and Radiation Measurements Laboratory
Credits: 3
Grad Meth: Reg, P-F, Aud
Prerequisite: ENME430 and MATH246.
Restriction: Permission of ENGR-Mechanical Engineering department.
Basics concepts of nuclear radiation and radiation detectors including types of radiation, radioactive decay, and interactions of radiation with matter.
ENME441
(Perm Req)
Mechatronics and the Internet of Things
Credits: 3
Grad Meth: Reg, P-F, Aud
Prerequisite: ENME351.
Restriction: Permission of ENGR-Mechanical Engineering department.
Credit only granted for: ENME489B or ENME441.
Formerly: ENME489B.
Mechatronics and the Internet of Things combines sensors, actuators, computation, and communication to realize integrated objects capable of robust Internet-based interfacing. Students will gain experience with circuit development, mechatronic systems, MicroPython coding, and Internet communication protocols using the ESP32 microcontroller platform. The project-focused course combines lectures and hands-on labs to drive learning at the convergence of mechanics, electronics, and software domains for IoT smart object development.
ENME444
(Perm Req)
Assistive Robotics
Credits: 3
Grad Meth: Reg, P-F, Aud
Prerequisite: ENME351; and must have completed or be concurrently enrolled in ENME462.
Restriction: Permission of ENGR-Mechanical Engineering department.
Fundamentals of assistive robots used in a wide varietyof ways to help humans with disabilities. Three application areas will be covered: (1) Rehabilitation robotics to recover motor function from neurologic injuries such as stroke, (2) Prosthetics to enable mobility function in amputees, and (3) Social robotics for cognitive impairment and developmental disorders such as autism. Theory behind different control systems employed by assistive robotics, as well as the mechanical design, sensors & actuators, and user interfaces behind representative robots in the respective areas. Guidelines for designing assistive robots. Ethical and regulatory considerations in the design of assistive robots.
ENME454
(Perm Req)
Credits: 3
Grad Meth: Reg, P-F, Aud
Corequisite: ENME361.
Restriction: Permission of ENGR-Mechanical Engineering department.
The fundamentals of passenger vehicle and light truck design and vehicle dynamics are covered. The engineering principles associated with acceleration, braking, handling, ride quality, aerodynamics, and tire mechanics are discussed, as well as suspension and steering design.
ENME462
(Perm Req)
Vibrations, Controls, and Optimization II
Credits: 3
Grad Meth: Reg, P-F, Aud
Prerequisite: ENME361.
Restriction: Permission of the Mechanical Engineering Department.
Continuation of ENME361. Fundamentals of vibration, controls, and optimization. Analysis and design in time, Laplace and frequency domains. Mathematical descriptions of system response, system stability, control and optimization. Optimal design of mechanical systems.
Delivered via ITV.
ENME470
(Perm Req)
Finite Element Analysis
Credits: 3
Grad Meth: Reg, P-F, Aud
Restriction: Senior standing; and permission of ENGR-Mechanical Engineering department.
Basic concepts of the theory of the finite element method. Applications in solid mechanics and heat transfer.
ENME472
(Perm Req)
Integrated Product and Process Development
Credits: 3
Grad Meth: Reg, P-F, Aud
Prerequisite: ENME331, ENME361, ENME351, and ENME371; and must have completed or be concurrently enrolled in ENME332.
Restriction: Permission of the Department of Mechanical Engineering.
Integration of product development with the development process. Design strategies. Product architecture. Design for manufacturing. Selection of materials. Design for assembly.
ENME473
(Perm Req)
Mechanical Design of Electronic Systems
Credits: 3
Grad Meth: Reg, P-F, Aud
Design considerations in the packaging of electronic systems. Production of circuit boards and design of electronic assemblies. Vibration, shock, fatigue and thermal considerations.
Delivered via ITV.
ENME480
(Perm Req)
Introduction to Robotics
Credits: 3
Grad Meth: Reg, P-F, Aud
Prerequisite: MATH246 or ENES221; and (CMSC131, ENME202, ENAE202 or ENEE150).
Restriction: Must be in the Robotics and Autonomous Systems minor; or Permission of ENGR-Mechanical Engineering department.
An introductory course in robotics that will educate students in the elementary concepts of robotics. The course will encompass both theory and experiments.
ENME485
(Perm Req)
Credits: 3
Grad Meth: Reg, Aud
Prerequisite: ENME 202 or equivalent, experience using Python, or permission of the instructor.
Jointly offered with: ENME691.
Credit only granted for: ENME 485 or ENME 691.
In today's competitive business environments, companies have urgent needs to use advanced analytical tools to manage their data to gain more insights and make timely decisions. Those insights include equipment and machine health condition, system remaining useful life, system performance, and other key performance indicators. With the advent of smart networks and devices, an abundance of data now exists in virtually every level of industry, from the individual asset to different field applications. This data is often not used to its greatest potential. Most organizations understand the need for acquiring useful data, but do not understand how to make the data useable. This course will introduce AI for industrial applications in a systematical way including machine learning, prognostics and health management (PHM), data-centric engineering analytics--that ultimately enable students to gain effective abilities to systematically engineer industrial data and analytic tools to improve quality, reliability, productivity and resilience of industrial systems.
ENME488
(Perm Req)
Credits: 3
Grad Meth: Reg, P-F, Aud
Limited to mechanical engineering seniors.
Contact department for information to register for this course.
ENME489
(Perm Req)
Special Topics in Mechanical Engineering
Credits: 3
Grad Meth: Reg, P-F, Aud
Contact department for information to register for this course.
ENME489C
Special Topics in Mechanical Engineering; Sustainable Energy Conversion and the Environment
Credits: 3
Grad Meth: Reg, P-F, Aud
ENME489F
(Perm Req)
Special Topics in Mechanical Engineering; Dynamics of Atmospheric Flight
Credits: 3
Grad Meth: Reg, P-F, Aud
Prerequisite: ENME331.
ENME489O
(Perm Req)
Special Topics in Mechanical Engineering; Design for Manufacturing and Assembly
Credits: 3
Grad Meth: Reg, Aud
Prerequisite: ENME382. Restriction: permission of department.
ENME489U
(Perm Req)
Special Topics in Mechanical Engineering; Fluid Structure Interactions
Credits: 3
Grad Meth: Reg, P-F, Aud
Prerequisites: ENME 361 and ENME 331.
ENME489V
(Perm Req)
Special Topics in Mechanical Engineering; Mechanical Contracting
Credits: 3
Grad Meth: Reg, P-F, Aud
ENME605
Advanced Systems Control
Credits: 3
Grad Meth: Reg, Aud
Prerequisite: ENME462; or permission of instructor.
Modern control theory for both continuous and discrete systems. State space representation is reviewed and the concepts of controllability and observability are discussed. Design methods of deterministic observers are presented and optimal control theory is formulated. Control techniques for modifying system characteristics are discussed.
ENME610
Engineering Optimization
Credits: 3
Grad Meth: Reg, Aud
Overview of applied single- and multi- objective optimization and decision making concepts and techniques with applications in engineering design and/or manufacturing problems. Topics include formulation examples, concepts, optimality conditions, unconstrained/constrained methods, and post-optimality sensitivity analysis. Students are expected to work on a semester-long real-world multi-objective engineering project.
ENME631
Advanced Conduction and Radiation Heat Transfer
Credits: 3
Grad Meth: Reg, Aud
Prerequisite: ENME332; or students who have taken courses with comparable content may contact the department; or permission of instructor.
Theory of conduction and radiation. Diffused and directional, poly- and mono-chromatic sources. Quantitative optics. Radiation in enclosures. Participating media. Integrodifferential equations. Multidimensional, transient and steady-state conduction. Phase change. Coordinate system transformations.
ENME640
Fundamentals of Fluid Mechanics
Credits: 3
Grad Meth: Reg, Aud
Prerequisite: Must have completed partial differential equations at the level of MATH 462; or permission of ENGR-Mechanical Engineering department.
Formerly: ENME651.
Equations governing the conservation of mass, momentum, vorticity and energy in fluid flows. Low Reynolds number flows. Boundary layers. The equations are illustrated by analyzing a number of simple flows. Emphasis is placed on physical understanding to facilitate the study of advanced topics in fluid mechanics.
ENME645
Fluid-Structure Interactions
Credits: 3
Grad Meth: Reg, Aud
Prerequisite: ENME331 and ENME361.
Restriction: Must be a student in the Clark School of Engineering.
Credit only granted for: ENME498U, ENME645 or ENME809C.
Formerly: ENME809C.
Fundamentals of fluid-structure interactions, fluid-elastic instabilities (buckling, flutter, galloping) and their engineering applications. Possible domains of applications are civil engineering, aerospace engineering, ocean engineering, biomechanics, and soft robotics. Examples include tall bridges, aircraft wing, parachutes, solid rocket motor, turbomachinery, offshore platform, subsea pipelines, paper printing, MEMS mircochannels, blood flow in arteries, and heart valves. The fish swimming mechanics with be studied to inspire novel efficient propulsion mechanisms for soft robotics applications.
ENME670
Continuum Mechanics
Credits: 3
Grad Meth: Reg, Aud
Mechanics of deformable bodies, finite deformation and strain measures, kinematics of continua and global and local balance laws. Thermodynamics of continua, first and second laws. Introduction to constitutive theory for elastic solids, viscous fluids and memory dependent materials. Examples of exact solutions for linear and hyper elastic solids and Stokesian fluids.
ENME672
Composite Materials
Credits: 3
Grad Meth: Reg, Aud
Micromechanics of advanced composites with passive and active reinforcements, mathematical models and engineering implications, effective properties and damage mechanics, recent advances in "adaptive" or "smart" composites.
ENME690
Mechanical Fundamentals of Electronic Systems
Credits: 3
Grad Meth: Reg, Aud
An understanding of the fundamental mechanical principles used in design of electronic devices and their integration into electronic systems will be provided. Focus will be placed on the effect of materials compatibility, thermal stress, mechanical stress, and environmental exposure on product performance, durability and cost. Both electronic devices and package assemblies will be considered. Analysis of package assemblies to understand thermal and mechanical stress effects will be emphasized through student projects.
ENME691
Credits: 3
Grad Meth: Reg, Aud
Prerequisite: ENME202; or equivalent; experience using Python; or permission of the instructor.
Credit only granted for: ENME485 or ENME691.
Introduces students to advanced technologies - such as machine learning and tools, prognostics and health management (PHM), and data-centric engineering analytics - that ultimately enable the conversion of industrial big data into decision-ready information that can be used to improve the design, the productivity and the efficiency of industrial systems.
ENME701
Sustainable Energy Conversion and the Environment
Credits: 3
Grad Meth: Reg, Aud
Prerequisite: Undergraduate thermodynamics course or permission of instructor.
Discussion of the major sources and end-uses of energy in our society with particular emphasis on renewable energy production and utilization. The course introduces a range of innovative technologies and discusses them in the context of the current energy infrastructure. Renewable sources such as wind and solar, and renewable enabling technologies such as energy storage are discussed in detail. Particular attention is paid to the environmental impact of the various forms of energy. This course is designed to provide, when taken together with ENME635, a comprehensive overview of sustainable energy production and utilization including carbon capture and sequestration.
ENME725
Probabilistic Optimization
Credits: 3
Grad Meth: Reg, Aud
Prerequisite: An advanced undergraduate course in probability and a graduate course in optimization or permission of the instructor required.
Cross-listed with ENCE725.
Credit only granted for: ENME725 or ENCE725.
Provide an introduction to optimization under uncertainty. Chance-constrained programming, reliability programming, value of information, two stage problems with recourse, decomposition methods, nonlinear and linear programming theory, probability theory. The objectives of this course are to provide understanding for studying problems that involve optimization under uncertainty, learn about various stochastic programming formulations (chance constrained programs, two stage methods with recourse, etc.) relevant to engineering and economic settings, present theory for solutions to such problems, and present algorithms to solve these problems.
ENME737
Application of AI in Reliability: Prognostics and Systems Health Management (PHM)
Credits: 3
Grad Meth: Reg, Aud
Credit only granted for: ENME737 or ENME808A.
Formerly: ENME808A.
Prognostics and health management (PHM) is an enabling discipline consisting of technologies and methods to assess the reliability of a product in its actual life cycle conditions to determine the advent of failure and mitigate system risk. PHM permits the reliability of a system to be evaluated and predicted in its actual application conditions. In recent years, prognostics and health management (PHM) has emerged as a key enabling technology to provide an early warning of failure; to forecast maintenance as needed; to reduce maintenance cycles; to assess the potential for life extensions; and to improve future designs and qualification methods. In the future, PHM will enable systems to assess their own real-time performance (self-cognizant health management and diagnostics) under actual usage conditions and adaptively enhance life cycle sustainment with risk-mitigation actions that will virtually eliminate unplanned failures.
ENME744
Additive Manufacturing
Credits: 3
Grad Meth: Reg, Aud
Prerequisite: ENME272 and ENME331; or students who have taken courses with comparable content may contact the department. Jointly offered wit h ENME416.
Credit only granted for: ENME 416 OR ENME 744.
Develop a comprehensive understanding of fundamental additive manufacturing-alternatively, "three-dimensional (3D) printing-approaches, including extrusion-based deposition, stereolithography, powder bed-based melting, and inkjet-based deposition. Cultivate a "design-for-additive manufacturing" skill set for combining computer-aided design (CAD) and computer-aided manufacturing (CAM) methodologies to produce successful 3D prints. Fabricate 3D mechanical objects using a variety of 3D printing technologies on campus. Execute a design project that demonstrates how additive manufacturing technologies can overcome critical limitations of traditional manufacturing processes.
ENME745
Numerical Methods in Engineering
Credits: 3
Grad Meth: Reg, Aud
Jointly offered with: ENME417.
Credit only granted for: ENME745, ENME808B, ENME417 or ENME489J.
Formerly: ENME808B.
Fundamental aspects of how to apply analytical mathematical concepts to discrete data. The course is aimed at graduate students in any area of engineering, and treats the material in a general manner that is not specific to any application or field of specialization.
ENME753
Indoor Environment and Mechanical Systems
Credits: 3
Grad Meth: Reg, Aud
Jointly offered with: ENME422.
Credit only granted for: ENME422, ENME753, or ENME808U.
Formerly: ENME808U.
Fundamentals of indoor air quality and its measurements. Exploration of air cleaning technologies for gaseous, particulate and infectious agent contaminants. Simulations of air flow and contaminants with multi-zone models to allow testing of both contaminant dispersion in buildings and effectiveness of air cleaning technologies.
ENME770
System Sustainment: The Science and Policy of Sustaining Critical Systems
Credits: 3
Grad Meth: Reg, Aud
Credit only granted for: PLCY798J or ENME770.
Introduces the important attributes of system sustainment (system maintenance, support and upgrade) by integrating data analytics, cost analysis and public policy. Topics include: acquisition, reliability, maintenance, availability, inventory management, supply chain, life-cycle cost and contracting.
ENME799
(Perm Req)
Master's Thesis Research
Credits: 1 - 6
Grad Meth: S-F
Contact department for information to register for this course.
ENME808
Advanced Topics in Mechanical Engineering
Credits: 3
Grad Meth: Reg, Aud
Contact department for information to register for this course.
ENME808Q
(Perm Req)
Advanced Topics in Mechanical Engineering; Modern Climate Control and Building Energy Design/Analysis
Credits: 3
Grad Meth: Reg, Aud
Prerequisite: ENES232. Corequisite: ENME332. Restriction: Permission of ENGR-Mechanical Engineering department.

Fundamentals and design calculations of heat and moisture transfer in buildings; evaluation of cooling, heating and power requirements of buildings; building energy consumption simulations, use of alternative energy and energy conservation measures in buildings; fundamentals of fans/pumps and air/water distribution in buildings; introduction to refrigeration and energy systems for data centers and other mission-critical facilities.
ENME898
Pre-Candidacy Research
Credits: 1 - 8
Grad Meth: Reg
Contact department for information to register for this course.
ENME899
(Perm Req)
Doctoral Dissertation Research
Credits: 6
Grad Meth: S-F
Contact department for information to register for this course.