CHEMICAL ENGINEERING (CHE)

CHE 2010. Introduction to Chemical Engineering Analysis. Lec. 3. Credit 3.
Prerequisites: BE 1120, CHEM 1120, MATH 1910. Quantitative descriptions of chemical engineering systems. Conservation equations, rate processes, mathematical analysis.

CHE 2210. Chemical Engineering Laboratory I. Lab. 3. Credit 1.
Laboratory experiences with emphasis on measurement techniques and report writing.

CHE 3010. Chemical Engineering Thermodynamics I. Lec. 3. Credit 3.
Prerequisites: CHEM 1120, MATH 1910. First, Second and Third Laws of Thermodynamics. Single-and multi-phase systems, analysis of flow processes and energy systems.

CHE 3020. Chemical Engineering Thermodynamics II. Lec. 3. Credit 3.
Prerequisites: CHE 3010 or equivalent. Prediction of phase equilibrium, chemical equilibrium and thermodynamic analysis of processes.

CHE 3110. Transfer Science I. Lec. 4. Credit 4.
Prerequisites: CHE 2010, MATH 2110. Principles, design, and operation of systems for heat transfer and the transportation of fluids and solids.

CHE 3120. Transfer Science II. Lec. 3. Credit 3.
Prerequisite: CHE 2010. Principles, design, and operation of equipment for the separation and purification of materials; emphasizes distillation, extraction, and leaching.

CHE 3220. Chemical Engineering Laboratory II. Lab. 3. Credit 1.
Prerequisite or parallel: CHE 3120. Experimental studies in fluid mechanics and heat transfer.

CHE 4110 (5110). Computational Heat, Mass, and Momentum Transfer.  Lec. 3. Credit 3.
Prerequisite: CHE 3110. General equations describing heat, mass, and momentum transport. Similarities and differences in transport properties are studied.

CHE 4130 (5130). Transfer Science III. Lec. 3. Credit 3.
Prerequisite: CHE 2010. Principles, design, and operation of equipment for the separation and purification of materials.

CHE 4210 (5210). Chemical Reaction Engineering. Lec. 3. Lab. 1. Credit 4.
Prerequisite: ChE 3020 or consent of instructor. Chemical reaction kinetics and chemical reactor design. There is an emphasis on homogeneous reactions and ideal and non-ideal reactors. Introduction to laboratory experiments to illustrate typical situations found in chemical reacting systems: kinetics parameter determination, residence time visualization, introduction to different types of reactors, (i.e., batch, tubular, and gradientless).

CHE 4230. Chemical Engineering Laboratory III.  Lab. 6. Credit 2.
Pre/Co-requisite: CHE 3120. Laboratory experiences in typical chemical engineering systems. Experiments are designed to integrate the subject matter from several subject areas.

CHE 4240. Chemical Engineering Laboratory IVa.  Lab. 3. Credit 1.
Pre/Co-requisite: CHE 4130. Laboratory experiences in typical chemical engineering systems. Experiments are designed to integrate the subject matter from several subject areas.

CHE 4241.  Chemical Engineering Laboratory IVb.  Lab. 3.  Credit 1.
Prerequisite(s):  ChE 4130.  Laboratory experiences in biochemical engineering systems.

CHE 4300 (5300). Introduction to Air Pollution. Lec. 3. Credit 3.
Prerequisite: CHE 3110. Problems of air pollution and their solutions. Analysis and design of devices for the control of air pollutants from chemical processes.

CHE 4410. Process Design I. Lec. 3. Credit 3.
Prerequisite: CHE 3120. Synthesis, design, economics, and optimization of chemical systems.

CHE 4420. Process Design II. Lec. 3. Credit 3.
Prerequisite: CHE 4410. Continuation of Design I but with emphasis on complex chemical systems. Introduction to the use of computer-aided process simulation codes.

CHE (ME) 4470 (5470).  Interdisciplinary Studies in Ceramic Materials Processing.  Lec. 3.  Credit 3.
Prerequisite:  Senior standing in engineering, mathematics, chemistry (calculus-based), or physics.  Selected materials synthesis for metals, ceramics and their composites; application of fracture mechanics and failure models; mechanical, chemical and morphological characterization theory and practice; materials design.

CHE 4510 (5510). Applied Mathematics in Chemical Engineering. Lec. 3. Credit 3.
Prerequisite: CHE 3020, CHE 3120, or equivalents and MATH 2120. Applied numerical methods and the solution of differential equations in chemical engineering.

CHE 4540. Process Dynamics and Control. Lec. 3. Credit 3.
Prerequisites: CHE 3120, MATH 2120. Analysis of the dynamic behavior of chemical processes. Basic control principles and methods of measuring and controlling process variables.

CHE 4660 (5660). Biochemical Engineering. Lec. 3. Credit 3.
Prerequisite: CHE 4210 or consent of instructor. Applications of chemical engineering principles to the study of biochemical systems.

CHE 4730 (5730). Chemical Engineering Operations. Lec. 3. Credit 3.
Prerequisite: Senior standing. Decision-making techniques as applied to management of chemical processing plants.

CHE 4810. Developing areas in Chemical Engineering. Lec. 1. Credit 1.
Prerequisite: Senior standing in Chemical Engineering. Introduction to an emerging subject area in chemical engineering.

CHE 4910. Chemical Engineering Seminar. Lec. 1. Credit 1.
Prerequisite: Senior standing in Chemical Engineering. Presentation and discussion of topics of interest to students in Chemical Engineering.

CHE 4911. Chemical Engineering Seminar for the BS-MS Fast Track. Lec. 1. Credit 1.
Prerequisite: Students approved for BS-MS Fast-Track. Research methodology, ethics and preparing for graduate studies in Chemical Engineering.

CHE (ECE, ME) 4950 (5950).  Introduction to MicroElectroMechanical Systems (MEMS).  Lec. 3.  Credit 3.
Prerequisite:  Senior standing in engineering or consent of instructor.  Introduce the design, fabrication and performance of MEMS devices.  Topics include bulk and surface micromachining, photolithography, sensors, actuation systems, optical MEMS, microcantilever based systems.

CHE 4990. Introduction to Research. Credits 1 to 3 per semester. Maximum 12.
Research and development problems, laboratory investigations, planning experimental programs, correlating and reporting results. Because of the impossibility of duplicating the conditions on a special problem, this course may not be repeated for the improvement of a grade.

Course descriptions for 6000 and 7000-level courses are contained in the Graduate Catalog.