BEGIN:VCALENDAR PRODID:-//University at Buffalo//NONSGML CE Course Schedule//EN VERSION:2.0 CALSCALE:GREGORIAN METHOD:PUBLISH X-WR-CALNAME:UB CE Courses X-WR-TIMEZONE:America/New_York X-WR-CALDESC:University at Buffalo Chemical Engineering (CE) Course Schedule X-PUBLISHED-TTL:PT30M BEGIN:VEVENT UID:301705-16674-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Park,Sheldon J":MAILTO:sjpark6@buffalo.edu SUMMARY:CE 220 sjpark6 LOCATION:108 Obrian Hall \nAmherst, NY 14260-1100 GEO:43.000524;-78.787969 DTSTART:20240130T093000 DTEND:20240130T105000 RRULE:FREQ=WEEKLY;UNTIL=20240507T105000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Park,Sheldon J\nCourse Number/Section: CE 220LEC 000\nTitle: CE Biotechnology Principles\nDescription: Fundamental principles of biotechnology for chemical engineering majors taught using case studies that trace back from major products to the fundamental biological principles that underlie their use and the bioprocesses by which they are manufactured.\nCourse ID: 301705\nClassnumber: 16674\nEnrollment Total: 32\nSection Capacity: 45\nRoom Capacity: 80\nClassroom Tech: 108 Obrian Hall\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:008407-13114-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Thundat,Thomas George":MAILTO:tgthunda@buffalo.edu SUMMARY:CE 304 tgthunda LOCATION:322 Clemens Hall \nAmherst, NY 14260-4600 GEO:43.000393;-78.785009 DTSTART:20240130T153000 DTEND:20240130T165000 RRULE:FREQ=WEEKLY;UNTIL=20240507T165000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Thundat,Thomas George\nCourse Number/Section: CE 304LR 000\nTitle: Chem Engr Thermodyn 2\nDescription: Applies the laws and tools of equilibrium thermodynamics to chemical engineering problems, including calculation of thermodynamic properties of pure fluids and mixtures, computation of energy requirements for changing the state of a system, analysis of phase equilibria (emphasizing vapor-liquid equilibrium), and treatment of chemical reaction equilibria.\nCourse ID: 008407\nClassnumber: 13114\nEnrollment Total: 34\nSection Capacity: 60\nRoom Capacity: 63\nClassroom Tech: 322 Clemens Hall\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:008412-13181-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Parashurama,Natesh":MAILTO:nateshp@buffalo.edu SUMMARY:CE 318 nateshp LOCATION:216 Natural Sciences Complex \nAmherst, NY 14260-3000 GEO:43.000779;-78.792226 DTSTART:20240130T140000 DTEND:20240130T152000 RRULE:FREQ=WEEKLY;UNTIL=20240507T152000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Parashurama,Natesh\nCourse Number/Section: CE 318LR 000\nTitle: Transport Process 2\nDescription: The equations of change of heat and mass transport. Steady- and unsteady-state heat conduction in one and two dimensions. Free and forced convection; prediction and correlation of heat transfer. Mass transfer by diffusion and convection; analogies with heat transfer. Simultaneous mass transfer and chemical reaction.\nCourse ID: 008412\nClassnumber: 13181\nEnrollment Total: 47\nSection Capacity: 71\nRoom Capacity: 97\nClassroom Tech: 216 Natural Sciences Complex\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:008416-13017-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Kofke,Tamara G":MAILTO:tgkofke@buffalo.edu SUMMARY:CE 328 tgkofke LOCATION:112 Obrian Hall \nAmherst, NY 14260-1100 GEO:43.000524;-78.787969 DTSTART:20240124T090000 DTEND:20240124T095000 RRULE:FREQ=WEEKLY;UNTIL=20240507T095000;WKST=SU;BYDAY=WE DESCRIPTION:Instructor: Kofke,Tamara G\nCourse Number/Section: CE 328LLB 000\nTitle: Chem Engr Lab 2\nDescription: Accompanies CE 318. Continuation of CE 327.\nCourse ID: 008416\nClassnumber: 13017\nEnrollment Total: 45\nSection Capacity: 71\nRoom Capacity: 98\nClassroom Tech: 112 Obrian Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:018327-23764-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Leahy,Maura R":MAILTO:maurasep@buffalo.edu SUMMARY:CE 405 maurasep LOCATION:422 Fronczak Hall \nAmherst, NY 14260-1500 GEO:43.001236;-78.790963 DTSTART:20240129T153000 DTEND:20240129T165000 RRULE:FREQ=WEEKLY;UNTIL=20240507T165000;WKST=SU;BYDAY=MO,WE DESCRIPTION:Instructor: Leahy,Maura R\nCourse Number/Section: CE 405LEC LEA\nTitle: Special Topics\nDescription: Topics in the field of specialization selected with the permission of the instructor.\nCourse ID: 018327\nClassnumber: 23764\nEnrollment Total: 32\nSection Capacity: 31\nRoom Capacity: 58\nClassroom Tech: 422 Fronczak Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:008426-10470-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Courtemanche,David J":MAILTO:djcourte@buffalo.edu SUMMARY:CE 408 djcourte LOCATION:422 Fronczak Hall \nAmherst, NY 14260-1500 GEO:43.001236;-78.790963 DTSTART:20240129T140000 DTEND:20240129T152000 RRULE:FREQ=WEEKLY;UNTIL=20240507T152000;WKST=SU;BYDAY=MO,WE DESCRIPTION:Instructor: Courtemanche,David J\nCourse Number/Section: CE 408LR 000\nTitle: Chem Eng Plant Design\nDescription: Applies chemical engineering principles to the design of chemical plants and process equipment. Preliminary economic evaluations of plants. Process flow sheet development; material and energy balances; equipment specification, fundamentals of engineering economics and profitability analysis; strategies in process design and synthesis.\nCourse ID: 008426\nClassnumber: 10470\nEnrollment Total: 49\nSection Capacity: 58\nRoom Capacity: 58\nClassroom Tech: 422 Fronczak Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:008427-20173-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Monje-Galvan,Viviana":MAILTO:vmonje@buffalo.edu SUMMARY:CE 410 vmonje LOCATION:111 Talbert Hall \nAmherst, NY 14260-1700 GEO:43.000706;-78.790439 DTSTART:20240130T123000 DTEND:20240130T135000 RRULE:FREQ=WEEKLY;UNTIL=20240507T135000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Monje-Galvan,Viviana\nCourse Number/Section: CE 410LEC MON\nTitle: Molecular Modeling\nDescription: This course will provide students with an understanding of the methods, capabilities, and limitations of molecular modeling. It will consist of the following topics: theory, methods, and hands-on application of molecular simulation. Elementary statistical mechanics, overview of molecular modeling approaches, basic probability and statistical analysis. Students will work in small groups to study a sample system using high performance computing (HPC) cluster resources and present their findings at the end of the semester. Prior experience with advanced calculus and thermodynamics is advised.\nCourse ID: 008427\nClassnumber: 20173\nEnrollment Total: 1\nSection Capacity: 5\nRoom Capacity: 32\nClassroom Tech: 111 Talbert Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:303174-23669-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Lund,Carl R":MAILTO:lund@buffalo.edu SUMMARY:CE 414 lund LOCATION:218 Natural Sciences Complex \nAmherst, NY 14260-3000 GEO:43.000779;-78.792226 DTSTART:20240130T123000 DTEND:20240130T135000 RRULE:FREQ=WEEKLY;UNTIL=20240507T135000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Lund,Carl R\nCourse Number/Section: CE 414LEC LUN\nTitle: Energy and the Environment\nDescription: Global and multidisciplinary perspective needed to understand challenges associated with electricity production and energy options. Environmental principles relevant to: energy perspectives worldwide, low-carbon technologies, energy efficiency, biomass, hydrogen economy, fuel cells, carbon capture and storage, and energy policy and regulation. Dual listed with CE 514.\nCourse ID: 303174\nClassnumber: 23669\nEnrollment Total: 10\nSection Capacity: 15\nRoom Capacity: 97\nClassroom Tech: 218 Natural Sciences Complex\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:301745-23461-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Wu,Gang":MAILTO:gangwu@buffalo.edu SUMMARY:CE 422 gangwu LOCATION:144 Center for the Arts \nAmherst, NY 14260-6000 GEO:43.000887;-78.782930 DTSTART:20240129T090000 DTEND:20240129T102000 RRULE:FREQ=WEEKLY;UNTIL=20240507T102000;WKST=SU;BYDAY=MO,WE DESCRIPTION:Instructor: Wu,Gang\nCourse Number/Section: CE 422LEC WU\nTitle: Electrochem Energy Environ\nDescription: This course is for students in Engineering, Physics, and Chemistry in their last year of study, who are interested in sustainable renewable energy and environmental technologies. Development of such cutting-edge technologies heavily relies on understanding of electrochemical principles associated with charge/mass transfer during the reactions. This course will start with fundamental thermodynamics and kinetics of electrochemical reactions, followed by systematical descriptions of energy conversion and storage associated electrocatalysis, photocatalysis, and battery principles. The targeted technologies, such as solar cells, fuel cells, batteries, and supercapacitors will be introduced. Also, a special emphasis in this course is on environmental electrochemistry and will cover the latest electrochemical technologies in waste treatments, clean synthesis, and electrochemical sensors.\nCourse ID: 301745\nClassnumber: 23461\nEnrollment Total: 9\nSection Capacity: 20\nRoom Capacity: 48\nClassroom Tech: 144 Center for the Arts\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:303036-20216-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Parashurama,Natesh":MAILTO:nateshp@buffalo.edu SUMMARY:CE 424 nateshp LOCATION:210 Norton Hall \nAmherst, NY 14260-1800 GEO:43.001111;-78.788697 DTSTART:20240130T170000 DTEND:20240130T182000 RRULE:FREQ=WEEKLY;UNTIL=20240507T182000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Parashurama,Natesh\nCourse Number/Section: CE 424LEC NPA\nTitle: In Vivo Molecular Imaging\nDescription: Molecular imaging is a highly interdisciplinary field in which fundamental biological processes are visualized, quantified, analyzed, and modeled in living subjects. In this course, fundamental aspects of chemical engineering, radiology (physics), applied chemistry, and applied biology are taught in an integrated manner. Students learn how to read, analyze, and interpret the molecular imaging literature as well as how to analyze a molecular image. Further, students learn how to apply chemical and biological engineering principles to design molecular probes and reporter genes. Finally, students learn the basic design and function of various instrumentation used in molecular imaging, and how molecular imaging products are generated for the clinical care of patients. This course is dual listed with CE 524.\nCourse ID: 303036\nClassnumber: 20216\nEnrollment Total: 0\nSection Capacity: 20\nRoom Capacity: 40\nClassroom Tech: 210 Norton Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:008437-13011-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Kofke,Tamara G":MAILTO:tgkofke@buffalo.edu SUMMARY:CE 428 tgkofke LOCATION:104 Knox Hall \nAmherst, NY 14260 GEO:43.001083;-78.787931 DTSTART:20240126T100000 DTEND:20240126T105000 RRULE:FREQ=WEEKLY;UNTIL=20240507T105000;WKST=SU;BYDAY=FR DESCRIPTION:Instructor: Kofke,Tamara G\nCourse Number/Section: CE 428LLB 000\nTitle: Chem Engr Lab 4\nDescription: A continuation of CE 427.\nCourse ID: 008437\nClassnumber: 13011\nEnrollment Total: 51\nSection Capacity: 71\nRoom Capacity: 222\nClassroom Tech: 104 Knox Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:018330-12945-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Goyal,Amit":MAILTO:agoyal@buffalo.edu SUMMARY:CE 433 agoyal LOCATION:04 Knox Hall \nAmherst, NY 14260 GEO:43.001083;-78.787931 DTSTART:20240130T110000 DTEND:20240130T122000 RRULE:FREQ=WEEKLY;UNTIL=20240507T122000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Goyal,Amit\nCourse Number/Section: CE 433LEC 000\nTitle: Materials Sci & Corrosion\nDescription: Properties of solids, which chemical engineers need to understand and exploit in regard to chemical processing and industrial equipment; how chemical and physical structures determine the uses of the products of the chemical industry. Crystal structure, crystal defects, and how they dominate mechanical properties. Thermal and electrical properties of solids. Polymer structures and properties. Corrosion: mechanisms and prevention.\nCourse ID: 018330\nClassnumber: 12945\nEnrollment Total: 48\nSection Capacity: 61\nRoom Capacity: 71\nClassroom Tech: 4 Knox Hall\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:008439-16663-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Gunawan,Rudiyanto":MAILTO:rgunawan@buffalo.edu SUMMARY:CE 434 rgunawan LOCATION:101 Baldy Hall \nAmherst, NY 14260-1000 GEO:43.000290;-78.787115 DTSTART:20240130T123000 DTEND:20240130T135000 RRULE:FREQ=WEEKLY;UNTIL=20240507T135000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Gunawan,Rudiyanto\nCourse Number/Section: CE 434LR 000\nTitle: Chemical Systems Control\nDescription: Equips engineering students with the fundamental concepts of process control design. An introduction to the benefits of having a good control process is followed by the definitions of the control objectives, feedback and feedforward control, and the various types of variables found in process control problems. Includes the development of dynamic mathematical models for simple processes, using mass and energy balances. Introduces mathematical tools (Laplace Transformations) that help solve such mathematical models as well as define the transfer functions of typical process systems (first and second order systems). Introduces the controller concept, together with the basic principles behind the feedback control loop and its stability characteristics.\nCourse ID: 008439\nClassnumber: 16663\nEnrollment Total: 42\nSection Capacity: 71\nRoom Capacity: 99\nClassroom Tech: 101 Baldy Hall\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:018332-16137-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Neelamegham,Sriram":MAILTO:neel@buffalo.edu SUMMARY:CE 446 neel LOCATION:103 Talbert Hall \nAmherst, NY 14260-1700 GEO:43.000706;-78.790439 DTSTART:20240129T170000 DTEND:20240129T182000 RRULE:FREQ=WEEKLY;UNTIL=20240507T182000;WKST=SU;BYDAY=MO,WE DESCRIPTION:Instructor: Neelamegham,Sriram\nCourse Number/Section: CE 446LEC 000\nTitle: Biochemical Engineering\nDescription: Significant microbial products, organisms, and substrates; directing microbial activity by random mutation and recombinant DNA; kinetics of growth and product formation; types of fermenters; aeration and agitation; scale-up; sterilization; product separation.\nCourse ID: 018332\nClassnumber: 16137\nEnrollment Total: 3\nSection Capacity: 20\nRoom Capacity: 40\nClassroom Tech: 103 Talbert Hall\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:303176-20809-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Gunawan,Rudiyanto":MAILTO:rgunawan@buffalo.edu SUMMARY:CE 453 rgunawan LOCATION:210 Norton Hall \nAmherst, NY 14260-1800 GEO:43.001111;-78.788697 DTSTART:20240130T153000 DTEND:20240130T165000 RRULE:FREQ=WEEKLY;UNTIL=20240507T165000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Gunawan,Rudiyanto\nCourse Number/Section: CE 453LEC GUN\nTitle: Bioprocess Modeling\nDescription: This course introduces concepts and techniques related to the creation and use of mathematical models in the biomanufacturing of chemical and pharmaceutical products. Students will learn various modeling paradigms that are commonly used to describe cellular processes across different length and time scales, as well as tools for model identification, parameter estimation and systems analysis, and their applications to bioprocesses. The concepts learned in the course will be put into practice through a semester-long modeling group project. Dual listed with CE 553.\nCourse ID: 303176\nClassnumber: 20809\nEnrollment Total: 1\nSection Capacity: 15\nRoom Capacity: 40\nClassroom Tech: 210 Norton Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:018335-22907-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Tsianou,Marina":MAILTO:mtsianou@buffalo.edu SUMMARY:CE 457 mtsianou LOCATION:145 Park Hall \nAmherst, NY 14260-4100 GEO:42.999730;-78.788008 DTSTART:20240130T093000 DTEND:20240130T105000 RRULE:FREQ=WEEKLY;UNTIL=20240507T105000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Tsianou,Marina\nCourse Number/Section: CE 457LEC TSI\nTitle: Colloid & Surface Phenom\nDescription: Dispersed systems (e.g., suspensions, emulsions, foams, and other systems) in which surface effects dominate behavior. Surface tension. Gas adsorption and adsorption from solution. Effects of surface charge. Wetting, detergency, adhesion. Transport processes dominated by surface tension.\nCourse ID: 018335\nClassnumber: 22907\nEnrollment Total: 7\nSection Capacity: 10\nRoom Capacity: 33\nClassroom Tech: 145 Park Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:008451-12912-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Leahy,Maura R":MAILTO:maurasep@buffalo.edu SUMMARY:CE 498 maurasep LOCATION:206 Furnas Hall \nAmherst, NY 14260-4200 GEO:43.001888;-78.787226 DTSTART:20240126T130000 DTEND:20240126T135000 RRULE:FREQ=WEEKLY;UNTIL=20240507T135000;WKST=SU;BYDAY=FR DESCRIPTION:Instructor: Leahy,Maura R\nCourse Number/Section: CE 498TUT 123\nTitle: Undergraduate Research\nDescription: Students collaborate with faculty research mentors on an ongoing faculty research project or conduct independent research under the guidance of a faculty member. This experience provides students with an inquiry-based learning opportunity and engages them as active learners in a research setting.\nCourse ID: 008451\nClassnumber: 12912\nEnrollment Total: 7\nSection Capacity: 20\nRoom Capacity: 60\nClassroom Tech: 206 Furnas Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:018377-23715-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Kofke,David A":MAILTO:kofke@buffalo.edu SUMMARY:CE 500 kofke LOCATION:105 Baldy Hall \nAmherst, NY 14260-1000 GEO:43.000290;-78.787115 DTSTART:20240129T170000 DTEND:20240129T182000 RRULE:FREQ=WEEKLY;UNTIL=20240507T182000;WKST=SU;BYDAY=MO,WE DESCRIPTION:Instructor: Kofke,David A\nCourse Number/Section: CE 500LEC KOF\nTitle: Special Topics\nDescription: Advanced topics in chemical engineering to meet the needs and interests of graduate students.\nCourse ID: 018377\nClassnumber: 23715\nEnrollment Total: 12\nSection Capacity: 20\nRoom Capacity: 22\nClassroom Tech: 105 Baldy Hall\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:303173-23670-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Lund,Carl R":MAILTO:lund@buffalo.edu SUMMARY:CE 514 lund LOCATION:218 Natural Sciences Complex \nAmherst, NY 14260-3000 GEO:43.000779;-78.792226 DTSTART:20240130T123000 DTEND:20240130T135000 RRULE:FREQ=WEEKLY;UNTIL=20240507T135000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Lund,Carl R\nCourse Number/Section: CE 514LEC LUN\nTitle: Energy and the Environment\nDescription: Global and multidisciplinary perspective needed to understand challenges associated with electricity production and energy options. Environmental principles relevant to: energy perspectives worldwide, low-carbon technologies, energy efficiency, biomass, hydrogen economy, fuel cells, carbon capture and storage, and energy policy and regulation. Dual listed with CE 414.\nCourse ID: 303173\nClassnumber: 23670\nEnrollment Total: 10\nSection Capacity: 20\nRoom Capacity: 97\nClassroom Tech: 218 Natural Sciences Complex\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:303466-23509-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Yu,Miao":MAILTO:myu9@buffalo.edu SUMMARY:CE 515 myu9 LOCATION:113 Talbert Hall \nAmherst, NY 14260-1700 GEO:43.000706;-78.790439 DTSTART:20240129T153000 DTEND:20240129T165000 RRULE:FREQ=WEEKLY;UNTIL=20240507T165000;WKST=SU;BYDAY=MO,WE DESCRIPTION:Instructor: Yu,Miao\nCourse Number/Section: CE 515LEC YU\nTitle: Intro to Nanoporous Materials\nDescription: The course, "Introduction on Nanoporous Materials" is focused on synthesis, characterization, and potential applications of nanoporous materials. Specifically, this course will include overview of nanoporous materials, intermolecular interactions, adsorption in nanoporous materials and its application for surface area and pore characterization, characterization of nanoporous materials by various techniques, synthesis of nanoporous materials, and applications of nanoporous materials. After completing the course, graduate students are expected to learn the fundamentals and basics of nanoporous materials, porous materials design strategies, and their potential applications in different fields.\nCourse ID: 303466\nClassnumber: 23509\nEnrollment Total: 18\nSection Capacity: 30\nRoom Capacity: 35\nClassroom Tech: 113 Talbert Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:301756-23462-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Wu,Gang":MAILTO:gangwu@buffalo.edu SUMMARY:CE 522 gangwu LOCATION:144 Center for the Arts \nAmherst, NY 14260-6000 GEO:43.000887;-78.782930 DTSTART:20240129T090000 DTEND:20240129T102000 RRULE:FREQ=WEEKLY;UNTIL=20240507T102000;WKST=SU;BYDAY=MO,WE DESCRIPTION:Instructor: Wu,Gang\nCourse Number/Section: CE 522LEC WU\nTitle: Electrochem Energy & Envo\nDescription: This course is for graduate students in Engineering, Physics, and Chemistry who are interested in sustainable renewable energy and environmental technology. Development of such cutting-edge technologies heavily relies on understanding of electrochemical principles associated with charge/mass transfer during the reactions. This course will start with fundamental thermodynamics and kinetics of electrochemical reactions, followed by systematical descriptions of energy conversion and storage associated electrocatalysis, photocatalysis, and battery principles. The targeted technologies, such as solar cells, fuel cells, batteries, and supercapacitors will be introduced. Also, a special emphasis in this course is on environmental electrochemistry, which will cover the latest electrochemical technologies waste treatments, clean synthesis, and electrochemical sensors.\nCourse ID: 301756\nClassnumber: 23462\nEnrollment Total: 11\nSection Capacity: 20\nRoom Capacity: 48\nClassroom Tech: 144 Center for the Arts\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:303190-21076-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Parashurama,Natesh":MAILTO:nateshp@buffalo.edu SUMMARY:CE 524 nateshp LOCATION:210 Norton Hall \nAmherst, NY 14260-1800 GEO:43.001111;-78.788697 DTSTART:20240130T170000 DTEND:20240130T182000 RRULE:FREQ=WEEKLY;UNTIL=20240507T182000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Parashurama,Natesh\nCourse Number/Section: CE 524LEC NPA\nTitle: In Vivo Molecular Imaging\nDescription: Molecular Imaging is a rapidly expanding, interdisciplinary subject which focuses on quantitative imaging molecular events in living subjects by visualizing disease and by the engineering of new diagnostic and therapeutic strategies. This course will introduce senior undergraduate/beginning graduate students to this field. We will cover how bio-molecular systems are designed, and how principles of transport/pharmacokinetics, thermodynamics, and kinetics govern the generation of an in vivo imaging signal. We will also cover the physics of instrumentation including (optical (fluorescence, bioluminescence, absorption, scattering), radionuclide, magnetic, acoustic, photoacoustic etc.), and review applications of these tools for understanding the molecular basis of diseases, developing new drugs, and monitoring new therapies. For chemical or biological engineering students, imaging techniques are becoming more prevalent in industry, and there has been an explosion of new techniques. In this senior level/graduate course, we review fundamental aspects of chemical engineering , biomedical optics and radiology, physics, applied chemistry, and applied biology are taught in an integrated manner. Students learn how to read, analyze, and interpret the molecular imaging literature as well as how to analyze a "molecular image." Further, students learn how to apply chemical and biological engineering principles to design molecular probes and reporter genes that probe biological systems in living tissues. Finally, students learn the basic design and function of various instrumentation used in molecular imaging, and how molecular imaging products are generated and used for the clinical care of patients. This course is dual listed with CE 424.\nCourse ID: 303190\nClassnumber: 21076\nEnrollment Total: 13\nSection Capacity: 20\nRoom Capacity: 40\nClassroom Tech: 210 Norton Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:018381-22908-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Tsianou,Marina":MAILTO:mtsianou@buffalo.edu SUMMARY:CE 527 mtsianou LOCATION:145 Park Hall \nAmherst, NY 14260-4100 GEO:42.999730;-78.788008 DTSTART:20240130T093000 DTEND:20240130T105000 RRULE:FREQ=WEEKLY;UNTIL=20240507T105000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Tsianou,Marina\nCourse Number/Section: CE 527LEC TSI\nTitle: Colloid & Surface Phenom\nDescription: The rather traditional title `Colloid and Surface Phenomena? encompasses core concepts and issues in contemporary nanotechnology. Colloid science is concerned with particles in the nanometer to micrometer range, from inorganic particles, to organic particles, to macromolecules, to finely subdivided multiphase systems. The course introduces fundamentals of interaction forces in interfacial systems, surface, interfacial tensions and free energies, colloidal stability, association colloids: micelles, bilayers, microemulsions, and the repercussions of such fundamentals on interfacial phenomena, complex fluids, and soft matter. The course also covers special topics in nano/bio technology (supramolecules; nanoparticles; nanocoatings; carbon nanotubes; nanomachines and nanodevices; biomineralization; nanomedicine), as well as diverse colloid/`nano? applications and developments (in pharmaceutical, food, pulp and paper industry, home and personal care products, imaging technology, oil/gas extraction, environmental protection, etc.)\nCourse ID: 018381\nClassnumber: 22908\nEnrollment Total: 12\nSection Capacity: 20\nRoom Capacity: 33\nClassroom Tech: 145 Park Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:008466-22309-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Alexandridis,Paschalis":MAILTO:palexand@buffalo.edu SUMMARY:CE 529 palexand LOCATION:207 Furnas Hall \nAmherst, NY 14260-4200 GEO:43.001888;-78.787226 DTSTART:20240124T080000 DTEND:20240124T105000 RRULE:FREQ=WEEKLY;UNTIL=20240507T105000;WKST=SU;BYDAY=WE DESCRIPTION:Instructor: Alexandridis,Paschalis\nCourse Number/Section: CE 529LEC 000\nTitle: Adv. Colloid and Surface Phen\nDescription: Applications of principles of surface chemistry. Chemisorption and catalysis. Detergency. Emulsion. Flotation. Kinetics of coagulation processes. Colloidal methods of studying the molecular weight and shape of polymer molecules and other particles. Polymer adsorption. Cell membrane structure. Adhesion. Environmental applications.\nCourse ID: 008466\nClassnumber: 22309\nEnrollment Total: 7\nSection Capacity: 10\nRoom Capacity: 14\nClassroom Tech: 207 Furnas Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:008467-20288-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Monje-Galvan,Viviana":MAILTO:vmonje@buffalo.edu SUMMARY:CE 530 vmonje LOCATION:111 Talbert Hall \nAmherst, NY 14260-1700 GEO:43.000706;-78.790439 DTSTART:20240130T123000 DTEND:20240130T135000 RRULE:FREQ=WEEKLY;UNTIL=20240507T135000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Monje-Galvan,Viviana\nCourse Number/Section: CE 530LEC MON\nTitle: Molecular Modeling\nDescription: This course will provide students with an understanding of the methods, capabilities, and limitations of molecular modeling. It will consist of the following topics: theory, methods, and hands-on application of molecular simulation. Elementary statistical mechanics, overview of molecular modeling approaches, basic probability and statistical analysis. Students will perform an individual term project using high performance computing (HPC) cluster resources and submit a report with their conclusions at the end of the term. Prior experience with advanced calculus and thermodynamics is advised.\nCourse ID: 008467\nClassnumber: 20288\nEnrollment Total: 19\nSection Capacity: 25\nRoom Capacity: 32\nClassroom Tech: 111 Talbert Hall\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:018567-14153-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Goyal,Amit":MAILTO:agoyal@buffalo.edu SUMMARY:CE 534 agoyal LOCATION:04 Knox Hall \nAmherst, NY 14260 GEO:43.001083;-78.787931 DTSTART:20240130T110000 DTEND:20240130T122000 RRULE:FREQ=WEEKLY;UNTIL=20240507T122000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Goyal,Amit\nCourse Number/Section: CE 534LEC A\nTitle: Materials Sci & Corrosion\nDescription: This course is a fundamental introduction of materials science and engineering. The objective of this course is to introduce the students to the processing, structure, properties, and performance of solid materials including metals, ceramics, polymers and their composites, which students need to understand and exploit in regard to chemical processing and industrial equipment. The correlations of material synthesis, process, structures, and properties will be emphasized to provide insight into rational designs and synthesis of new materials.\nCourse ID: 018567\nClassnumber: 14153\nEnrollment Total: 0\nSection Capacity: 10\nRoom Capacity: 71\nClassroom Tech: 4 Knox Hall\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:018569-16138-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Neelamegham,Sriram":MAILTO:neel@buffalo.edu SUMMARY:CE 547 neel LOCATION:103 Talbert Hall \nAmherst, NY 14260-1700 GEO:43.000706;-78.790439 DTSTART:20240129T170000 DTEND:20240129T182000 RRULE:FREQ=WEEKLY;UNTIL=20240507T182000;WKST=SU;BYDAY=MO,WE DESCRIPTION:Instructor: Neelamegham,Sriram\nCourse Number/Section: CE 547LEC 000\nTitle: Biochemical Engineering\nDescription: This is a course on biotechnology and the use of genetic engineering methods for protein production in pharmaceutical settings. The course will cover basic biochemistry and microbiology fundamentals including microorgansims and biological molecules; structure-function relationships among macromolecules; molecular genetics; protein synthesis and genetic engineering. The course will also cover aspects related to enzyme catalysis, cell growth and bioreactor design. This includes the principles of enzyme catalysis and enzyme-substrate reactions; enzyme inhibition and modification methods; enzyme immobilization and the relative contributions of mass transfer and enzyme kinetics; stoichiometry and energetics of microbial growth; structured and unstructured biochemical models; bioreactor design and bioseparations.\nCourse ID: 018569\nClassnumber: 16138\nEnrollment Total: 9\nSection Capacity: 20\nRoom Capacity: 40\nClassroom Tech: 103 Talbert Hall\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:303175-20810-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Gunawan,Rudiyanto":MAILTO:rgunawan@buffalo.edu SUMMARY:CE 553 rgunawan LOCATION:210 Norton Hall \nAmherst, NY 14260-1800 GEO:43.001111;-78.788697 DTSTART:20240130T153000 DTEND:20240130T165000 RRULE:FREQ=WEEKLY;UNTIL=20240507T165000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Gunawan,Rudiyanto\nCourse Number/Section: CE 553LEC GUN\nTitle: Bioprocess Modeling\nDescription: This course introduces concepts and techniques related to the creation and use of mathematical models in the biomanufacturing of chemical and pharmaceutical products. Students will learn various modeling paradigms that are commonly used to describe cellular processes across different length and time scales, as well as tools for model identification, parameter estimation and systems analysis, and their applications to bioprocesses. The concepts learned in the course will be put into practice through a semester-long modeling group project. Dual listed with CE 453.\nCourse ID: 303175\nClassnumber: 20810\nEnrollment Total: 9\nSection Capacity: 20\nRoom Capacity: 40\nClassroom Tech: 210 Norton Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:008800-12985-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Swihart,Mark T.":MAILTO:swihart@buffalo.edu SUMMARY:CE 612 swihart LOCATION:206 Furnas Hall \nAmherst, NY 14260-4200 GEO:43.001888;-78.787226 DTSTART:20240124T110000 DTEND:20240124T115000 RRULE:FREQ=WEEKLY;UNTIL=20240507T115000;WKST=SU;BYDAY=WE DESCRIPTION:Instructor: Swihart,Mark T.\nCourse Number/Section: CE 612SEM 000\nTitle: Chemical Engineering Sem\nDescription: Graduate students are required to attend weekly seminars presented by distinguished speakers from academia and industry.\nCourse ID: 008800\nClassnumber: 12985\nEnrollment Total: 34\nSection Capacity: 60\nRoom Capacity: 60\nClassroom Tech: 206 Furnas Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:008801-16256-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Nathawani,Darsh Kiritbhai":MAILTO:darshkir@buffalo.edu SUMMARY:CE 621 darshkir LOCATION:107 Clemens Hall \nAmherst, NY 14260-4600 GEO:43.000393;-78.785009 DTSTART:20240130T123000 DTEND:20240130T135000 RRULE:FREQ=WEEKLY;UNTIL=20240507T135000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Nathawani,Darsh Kiritbhai\nCourse Number/Section: CE 621LEC 000\nTitle: High Perform Computing 2\nDescription: This course will be a continuation of HPC I, with a more in-depth look at key aspects of high performance parallel computing in large scale computation-intensive applications. The focus will be on algorithms, computational cost, parallelization, scalability, and performance. It is expected that students will have completed HPC I or will have a working knowledge of the topics covered in HPC I, including good command of at least one standard high-level programming language (e.g. Fortran, or C, or Python) as well as message passing software MPI and OpenMP.\nCourse ID: 008801\nClassnumber: 16256\nEnrollment Total: 0\nSection Capacity: 5\nRoom Capacity: 22\nClassroom Tech: 107 Clemens Hall\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:008802-13022-2241@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Andreadis,Stylianos":MAILTO:sandread@buffalo.edu SUMMARY:CE 630 sandread LOCATION:206 Furnas Hall \nAmherst, NY 14260-4200 GEO:43.001888;-78.787226 DTSTART:20240126T140000 DTEND:20240126T165000 RRULE:FREQ=WEEKLY;UNTIL=20240507T165000;WKST=SU;BYDAY=FR DESCRIPTION:Instructor: Andreadis,Stylianos\nCourse Number/Section: CE 630LEC 000\nTitle: Ce Research Methods 1\nDescription: This is a two-semester course that aims at training doctoral graduate students in the methodologies and practices used in chemical engineering research. Students learn the techniques for formulating, developing and completing an original research problem in their respective fields of interest. The course material covers development of new research ideas, literature search to identify the state of the art in the specific field, connectivity and cross-fertilization of ideas, multidisciplinary research, as well as instruction on the most popular experimental, theoretical and computational techniques used in chemical engineering research. Students will work on individual research projects developed during the first semester of the course. The second semester will focus on obtaining preliminary original results. Evaluation of student performance will be based on progress reports and a final report. Oral defense of the final reports in front of a committee of graduate faculty is required.\nCourse ID: 008802\nClassnumber: 13022\nEnrollment Total: 13\nSection Capacity: 30\nRoom Capacity: 60\nClassroom Tech: 206 Furnas Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:008405-10744-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Ford Versypt,Ashlee":MAILTO:ashleefv@buffalo.edu SUMMARY:CE 212 ashleefv LOCATION:14 Knox Hall \nAmherst, NY 14260 GEO:43.001083;-78.787931 DTSTART:20240827T140000 DTEND:20240827T152000 RRULE:FREQ=WEEKLY;UNTIL=20241209T152000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Ford Versypt,Ashlee\nCourse Number/Section: CE 212LR 000\nTitle: Fund of Chemical Eng\nDescription: Integrates fundamentals of mathematics, physics, and chemistry into chemical engineering concepts; laws of conservation of mass and energy.\nCourse ID: 008405\nClassnumber: 10744\nEnrollment Total: 8\nSection Capacity: 71\nRoom Capacity: 71\nClassroom Tech: 14 Knox Hall\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:303243-20955-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Monje-Galvan,Viviana":MAILTO:vmonje@buffalo.edu SUMMARY:CE 305 vmonje LOCATION:04 Knox Hall \nAmherst, NY 14260 GEO:43.001083;-78.787931 DTSTART:20240827T123000 DTEND:20240827T135000 RRULE:FREQ=WEEKLY;UNTIL=20241209T135000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Monje-Galvan,Viviana\nCourse Number/Section: CE 305LEC MON\nTitle: Prob, Stats, and Data Analytic\nDescription: Theory and applications of probability and statistics appropriate for design of experiments and analysis of data in a chemical engineering context.\nCourse ID: 303243\nClassnumber: 20955\nEnrollment Total: 7\nSection Capacity: 70\nRoom Capacity: 71\nClassroom Tech: 4 Knox Hall\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:008411-10907-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Leahy,Maura R":MAILTO:maurasep@buffalo.edu SUMMARY:CE 317 maurasep LOCATION:14 Knox Hall \nAmherst, NY 14260 GEO:43.001083;-78.787931 DTSTART:20240827T093000 DTEND:20240827T105000 RRULE:FREQ=WEEKLY;UNTIL=20241209T105000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Leahy,Maura R\nCourse Number/Section: CE 317LR 000\nTitle: Transport Process 1\nDescription: Introduces fluid statics and dynamics with examples from chemical engineering operations. Applies macroscopic mass, energy, and momentum balances to fluid flow problems. Dimensional analysis and correlation of turbulent flow data. Theories of turbulence. The Navier-Stokes equations, momentum transport and velocity profiles in one-dimensional laminar flow, boundary layers, and potential flow.\nCourse ID: 008411\nClassnumber: 10907\nEnrollment Total: 8\nSection Capacity: 71\nRoom Capacity: 71\nClassroom Tech: 14 Knox Hall\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:008417-10737-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Lund,Carl R":MAILTO:lund@buffalo.edu SUMMARY:CE 329 lund LOCATION:262 Capen Hall \nAmherst, NY 14260-1651 GEO:43.000785;-78.789615 DTSTART:20240826T100000 DTEND:20240826T105000 RRULE:FREQ=WEEKLY;UNTIL=20241209T105000;WKST=SU;BYDAY=MO,WE,FR DESCRIPTION:Instructor: Lund,Carl R\nCourse Number/Section: CE 329LEC 000\nTitle: Chemical Reaction Eng\nDescription: Chemical kinetics as applied to the design of chemical reaction equipment. Introduces the theory of reaction rates in homogeneous and heterogeneous systems; experimental methods; analysis of rate data; reactor types and design; selectivity in complex reaction systems.\nCourse ID: 008417\nClassnumber: 10737\nEnrollment Total: 3\nSection Capacity: 60\nRoom Capacity: 58\nClassroom Tech: 262 Capen Hall\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:300627-10984-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Dupuis,Michel":MAILTO:mdupuis2@buffalo.edu SUMMARY:CE 341 mdupuis2 LOCATION:120 Clemens Hall \nAmherst, NY 14260-4600 GEO:43.000393;-78.785009 DTSTART:20240827T153000 DTEND:20240827T165000 RRULE:FREQ=WEEKLY;UNTIL=20241209T165000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Dupuis,Michel\nCourse Number/Section: CE 341LEC A\nTitle: Applied CE Math\nDescription: This course covers fundamental numerical and computational methods for modeling physical phenomena and processes with a focus on chemical engineering applications. An emphasis is placed on the implementation of the numerical methods in a programming environment and computer based modeling of chemical engineering applications. Topics include the solution of linear and nonlinear algebraic equations, eigenvalue problems. Application of finite difference methods, interpolation, differentiation and integration, solution of systems of ordinary differential equations, boundary value problems, partial differential equations, and linear and nonlinear regression analysis. These methods are demonstrated via problems encountered in chemical engineering practice.\nCourse ID: 300627\nClassnumber: 10984\nEnrollment Total: 6\nSection Capacity: 88\nRoom Capacity: 88\nClassroom Tech: 120 Clemens Hall\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:018074-10466-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Wu,Gang":MAILTO:gangwu@buffalo.edu SUMMARY:CE 404 gangwu LOCATION:97 Alumni Arena \nAmherst, NY 14260-5000 GEO:43.000580;-78.781360 DTSTART:20240827T110000 DTEND:20240827T122000 RRULE:FREQ=WEEKLY;UNTIL=20241209T122000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Wu,Gang\nCourse Number/Section: CE 404LR 000\nTitle: CE Product Design\nDescription: Integrates the general framework for product design and development with molecular structure-property relations, enables students to evaluate the design of existing products and participate in the design of improved and new products.\nCourse ID: 018074\nClassnumber: 10466\nEnrollment Total: 6\nSection Capacity: 71\nRoom Capacity: 99\nClassroom Tech: 97 Alumni Arena\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:018327-21173-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Srivatsa,Narendra":MAILTO:nsrivats@buffalo.edu SUMMARY:CE 405 nsrivats LOCATION:Remote DTSTART:20240826T123000 DTEND:20240826T135000 RRULE:FREQ=WEEKLY;UNTIL=20241209T135000;WKST=SU;BYDAY=MO,WE DESCRIPTION:Instructor: Srivatsa,Narendra\nCourse Number/Section: CE 405LEC SRI\nTitle: Special Topics\nDescription: Topics in the field of specialization selected with the permission of the instructor.\nCourse ID: 018327\nClassnumber: 21173\nEnrollment Total: 1\nSection Capacity: 7\nRoom Capacity: 0\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:008425-15772-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Courtemanche,David J":MAILTO:djcourte@buffalo.edu SUMMARY:CE 407 djcourte LOCATION:422 Fronczak Hall \nAmherst, NY 14260-1500 GEO:43.001236;-78.790963 DTSTART:20240827T093000 DTEND:20240827T105000 RRULE:FREQ=WEEKLY;UNTIL=20241209T105000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Courtemanche,David J\nCourse Number/Section: CE 407LEC 000\nTitle: Separations\nDescription: Staged operations of distillation, absorption, leaching, and extraction. Phase equilibria and application of equilibrium data to calculational methods provide knowledge of solution methods and limitations for binary and multicomponent systems.\nCourse ID: 008425\nClassnumber: 15772\nEnrollment Total: 5\nSection Capacity: 58\nRoom Capacity: 58\nClassroom Tech: 422 Fronczak Hall\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:303377-22310-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Unknown":MAILTO:@buffalo.edu SUMMARY:CE 411 LOCATION:440 Park Hall \nAmherst, NY 14260-4100 GEO:42.999730;-78.788008 DTSTART:20240827T140000 DTEND:20240827T152000 RRULE:FREQ=WEEKLY;UNTIL=20241209T152000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Unknown\nCourse Number/Section: CE 411LEC PFE\nTitle: Beer, Wine, Spirits\nDescription: This course provides an introduction to the science, technology and business of craft beverage production. Beverages covered include beer, wine, spirits, hard cider, mead, and kombucha. Local guest speakers will provide a real-life perspective on their craft beverage business. The course may include optional tours of local craft beverage businesses. Course information will be presented via lectures and complementary online videos. Hand-in assignments are designed to facilitate meeting class learning goals. Students will be required to analyze and evaluate how chemistry, food microbiology, and engineering are key elements of the craft beverage processes covered in the course.\nCourse ID: 303377\nClassnumber: 22310\nEnrollment Total: 6\nSection Capacity: 40\nRoom Capacity: 40\nClassroom Tech: 440 Park Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:303481-22989-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Thundat,Thomas George":MAILTO:tgthunda@buffalo.edu SUMMARY:CE 418 tgthunda LOCATION:127A Cooke Hall \nAmherst, NY 14260-1300 GEO:42.999986;-78.791473 DTSTART:20240827T170000 DTEND:20240827T182000 RRULE:FREQ=WEEKLY;UNTIL=20241209T182000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Thundat,Thomas George\nCourse Number/Section: CE 418LEC THU\nTitle: Principles of Nanosensors\nDescription: This course will focus on the fundamental principles of nanoscale phenomena and their application in designing and developing nanosensors with emphasis on nanomechanical sensors. Topics covered include a survey of micro- and nano-fabricated sensors, molecular selectivity, related transport phenomena, interaction of light with molecular adsorbates. The course will cover the basic as well as engineering aspects of sensor system design, fabrication, and integration. Sensor design for specific sensing applications will be discussed.\nCourse ID: 303481\nClassnumber: 22989\nEnrollment Total: 0\nSection Capacity: 20\nRoom Capacity: 40\nClassroom Tech: 127 Cooke Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:008434-10978-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Kofke,Tamara G":MAILTO:tgkofke@buffalo.edu SUMMARY:CE 427 tgkofke LOCATION:119 Clemens Hall \nAmherst, NY 14260-4600 GEO:43.000393;-78.785009 DTSTART:20240829T160000 DTEND:20240829T165000 RRULE:FREQ=WEEKLY;UNTIL=20241209T165000;WKST=SU;BYDAY=TH DESCRIPTION:Instructor: Kofke,Tamara G\nCourse Number/Section: CE 427LLB 000\nTitle: Chem Eng Lab 3\nDescription: Continuation of CE 328.\nCourse ID: 008434\nClassnumber: 10978\nEnrollment Total: 6\nSection Capacity: 45\nRoom Capacity: 45\nClassroom Tech: 119 Clemens Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:008440-17037-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Cheng,Chong":MAILTO:ccheng8@buffalo.edu SUMMARY:CE 435 ccheng8 LOCATION:337 Bell Hall \nAmherst, NY 14260-2050 GEO:43.001475;-78.787025 DTSTART:20240827T123000 DTEND:20240827T135000 RRULE:FREQ=WEEKLY;UNTIL=20241209T135000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Cheng,Chong\nCourse Number/Section: CE 435LEC 000\nTitle: Intro to Polymers\nDescription: Classifies polymers with respect to structure and formation reaction; relations between chemical structure and physical properties; some characteristics of polymer solutions; mechanical behavior; and engineering properties.\nCourse ID: 008440\nClassnumber: 17037\nEnrollment Total: 0\nSection Capacity: 19\nRoom Capacity: 39\nClassroom Tech: 337 Bell Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:303136-20883-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Courtemanche,David J":MAILTO:djcourte@buffalo.edu SUMMARY:CE 441 djcourte LOCATION:127A Cooke Hall \nAmherst, NY 14260-1300 GEO:42.999986;-78.791473 DTSTART:20240826T100000 DTEND:20240826T105000 RRULE:FREQ=WEEKLY;UNTIL=20241209T105000;WKST=SU;BYDAY=MO,WE,FR DESCRIPTION:Instructor: Courtemanche,David J\nCourse Number/Section: CE 441LEC COU\nTitle: Six Sigma for Chem Engineers\nDescription: Course introduces students to Six Sigma statistical methodology for identifying critical process variables that affect process operability. Emphasis is on how to define and quantify the process goal and methods to determine the proper variables to affect continuous positive improvement on a chemical process.\nCourse ID: 303136\nClassnumber: 20883\nEnrollment Total: 0\nSection Capacity: 20\nRoom Capacity: 40\nClassroom Tech: 127 Cooke Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:018334-16310-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Park,Sheldon J":MAILTO:sjpark6@buffalo.edu SUMMARY:CE 450 sjpark6 LOCATION:352 Academic Center \nAmherst, NY 14261-0026 GEO:43.008783;-78.785398 DTSTART:20240827T123000 DTEND:20240827T135000 RRULE:FREQ=WEEKLY;UNTIL=20241209T135000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Park,Sheldon J\nCourse Number/Section: CE 450LEC 000\nTitle: Protein Engineering\nDescription: Introduction to protein engineering and design. This course teaches students to think of protein as an entity that can be engineered using molecular tools in order to achieve novel physical and chemical properties. Students first learn the fundamentals of protein structure and how protein structure dictates function, which includes discussion of protein structure, biochemistry, molecular biology techniques, the basics of physical and organic chemistry, and molecular modeling through computer visualization. Additionally, students learn different protein design strategies, including knowledge-based design, computational protein design, and directed evolution, that are commonly used for protein engineering. Examples of engineered proteins with novel structural and functional properties are extensively discussed to illustrate how design principles are applied to real life problems.\nCourse ID: 018334\nClassnumber: 16310\nEnrollment Total: 0\nSection Capacity: 20\nRoom Capacity: 32\nClassroom Tech: 352 Academic Center\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:303062-19790-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Alexandridis,Paschalis":MAILTO:palexand@buffalo.edu SUMMARY:CE 452 palexand LOCATION:127A Cooke Hall \nAmherst, NY 14260-1300 GEO:42.999986;-78.791473 DTSTART:20240828T170000 DTEND:20240828T195000 RRULE:FREQ=WEEKLY;UNTIL=20241209T195000;WKST=SU;BYDAY=WE DESCRIPTION:Instructor: Alexandridis,Paschalis\nCourse Number/Section: CE 452LEC ALE\nTitle: Petroleum Engineering\nDescription: Petroleum engineering encompasses activities related to the production of hydrocarbons (crude oil and natural gas), ranging from exploration and drilling, to well completion and production, to processing and transportation of hydrocarbon products. This course introduces key terminology and concepts from petrophysics, drilling, production and reservoir engineering that are needed to understand oil and gas production. Topics covered include: properties of reservoir fluids and rock; petroleum geology; well drilling, logging, and completion; enhanced oil recovery; upstream facilities; production and reservoir performance; midstream and downstream operations; and flow assurance. The course places oil and gas production in the global energy context, and discusses economics, environmental and regulatory issues. This course is dual listed with CE 552.\nCourse ID: 303062\nClassnumber: 19790\nEnrollment Total: 0\nSection Capacity: 19\nRoom Capacity: 40\nClassroom Tech: 127 Cooke Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:008451-10454-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Ford Versypt,Ashlee":MAILTO:ashleefv@buffalo.edu SUMMARY:CE 498 ashleefv LOCATION:204 Clemens Hall \nAmherst, NY 14260-4600 GEO:43.000393;-78.785009 DTSTART:20240826T130000 DTEND:20240826T135000 RRULE:FREQ=WEEKLY;UNTIL=20241209T135000;WKST=SU;BYDAY=MO DESCRIPTION:Instructor: Ford Versypt,Ashlee\nCourse Number/Section: CE 498TUT 123\nTitle: Undergraduate Research\nDescription: Students collaborate with faculty research mentors on an ongoing faculty research project or conduct independent research under the guidance of a faculty member. This experience provides students with an inquiry-based learning opportunity and engages them as active learners in a research setting.\nCourse ID: 008451\nClassnumber: 10454\nEnrollment Total: 0\nSection Capacity: 15\nRoom Capacity: 21\nClassroom Tech: 204 Clemens Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:018379-21174-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Srivatsa,Narendra":MAILTO:nsrivats@buffalo.edu SUMMARY:CE 505 nsrivats LOCATION:Remote DTSTART:20240826T123000 DTEND:20240826T135000 RRULE:FREQ=WEEKLY;UNTIL=20241209T135000;WKST=SU;BYDAY=MO,WE DESCRIPTION:Instructor: Srivatsa,Narendra\nCourse Number/Section: CE 505LEC SRI\nTitle: Special Topics\nDescription: Advanced topics in chemical engineering to meet the needs and interests of graduate students.\nCourse ID: 018379\nClassnumber: 21174\nEnrollment Total: 0\nSection Capacity: 16\nRoom Capacity: 0\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:008458-10467-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Unknown":MAILTO:@buffalo.edu SUMMARY:CE 509 LOCATION:115 Baldy Hall \nAmherst, NY 14260-1000 GEO:43.000290;-78.787115 DTSTART:20240827T093000 DTEND:20240827T105000 RRULE:FREQ=WEEKLY;UNTIL=20241209T105000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Unknown\nCourse Number/Section: CE 509LEC 000\nTitle: Transport Phenomena 1\nDescription: Introduction to the principles of transport phenomena, particularly fluid mechanics. Fully developed laminar flows. Navier-Stokes equations derived from the point of view of momentum transport. Boundary layer concepts and assumptions discussed and applied to specific configurations. Creeping flows in relation to specific applications. Mathematical techniques, including orthogonal function expansions and similarity-type solutions. Buoyancy-driven flows. Applications in reverse osmosis, crystallization, and chromatography. Asymptotic solutions valid for high Prandtl and Schmidt numbers. Phenomenological theories of turbulence. Free surface and conduit flows.\nCourse ID: 008458\nClassnumber: 10467\nEnrollment Total: 0\nSection Capacity: 20\nRoom Capacity: 20\nClassroom Tech: 115 Baldy Hall\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:023888-21563-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Neelamegham,Sriram":MAILTO:neel@buffalo.edu SUMMARY:CE 517 neel LOCATION:17 Clemens Hall \nAmherst, NY 14260-4600 GEO:43.000393;-78.785009 DTSTART:20240826T091000 DTEND:20240826T103000 RRULE:FREQ=WEEKLY;UNTIL=20241209T103000;WKST=SU;BYDAY=MO,WE DESCRIPTION:Instructor: Neelamegham,Sriram\nCourse Number/Section: CE 517LEC NEE\nTitle: Bioengineering Principles\nDescription: This is an advanced bioengineering course designed to teach engineering graduate students fundamental concepts that will assist them to transition from traditional engineering based education to bioengineering research. To achieve this goal, the class seeks to educate the students on fundamental as well as practical knowledge that are directly relevant to the type of research that is conducted in bioengineering laboratories.\nCourse ID: 023888\nClassnumber: 21563\nEnrollment Total: 1\nSection Capacity: 35\nRoom Capacity: 45\nClassroom Tech: 17 Clemens Hall\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:303272-21178-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Thundat,Thomas George":MAILTO:tgthunda@buffalo.edu SUMMARY:CE 518 tgthunda LOCATION:127A Cooke Hall \nAmherst, NY 14260-1300 GEO:42.999986;-78.791473 DTSTART:20240827T170000 DTEND:20240827T182000 RRULE:FREQ=WEEKLY;UNTIL=20241209T182000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Thundat,Thomas George\nCourse Number/Section: CE 518LEC THU\nTitle: Principles of Nanosensors\nDescription: The field of nanosensors is one of the most diverse areas of research. This interdisciplinary course will focus on the fundamental physical, chemical, and biological principles underpinning the sensing mechanisms, interpreting the results, and designing /choosing sensor combinations that can overcome the limitations imposed by sensing conditions. Lectures will focus on fundamentals, as well as on applied science/engineering. This course is dual listed with CE 418.\nCourse ID: 303272\nClassnumber: 21178\nEnrollment Total: 0\nSection Capacity: 20\nRoom Capacity: 40\nClassroom Tech: 127 Cooke Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:008463-10808-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Shi,Kaihang":MAILTO:kaihangs@buffalo.edu SUMMARY:CE 525 kaihangs LOCATION:04 Clemens Hall \nAmherst, NY 14260-4600 GEO:43.000393;-78.785009 DTSTART:20240826T153000 DTEND:20240826T165000 RRULE:FREQ=WEEKLY;UNTIL=20241209T165000;WKST=SU;BYDAY=MO,WE DESCRIPTION:Instructor: Shi,Kaihang\nCourse Number/Section: CE 525LEC 000\nTitle: Adv Chem Thermodynamics\nDescription: Brief review of classical equilibrium thermodynamics based on the second law. Statistical concepts helpful in calculating properties of mixtures. Calculations of phase equilibria in binary and multi-component systems using modern approaches based on molecular thermodynamics.\nCourse ID: 008463\nClassnumber: 10808\nEnrollment Total: 0\nSection Capacity: 45\nRoom Capacity: 45\nClassroom Tech: 4 Clemens Hall\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:008468-15189-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Nitsche,Johannes M.":MAILTO:nitsche@buffalo.edu SUMMARY:CE 531 nitsche LOCATION:06 Clemens Hall \nAmherst, NY 14260-4600 GEO:43.000393;-78.785009 DTSTART:20240827T170000 DTEND:20240827T182000 RRULE:FREQ=WEEKLY;UNTIL=20241209T182000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Nitsche,Johannes M.\nCourse Number/Section: CE 531LEC 000\nTitle: CE Mathematics & Computation\nDescription: Mathematical and computational techniques of particular interest to chemical engineers. Essential multivariable calculus and coordinate systems. Legendre transforms. Analytical solution of nth-order linear ODEs. Matrix eigenvalue problems, analytical solution of systems of 1st-order linear ODEs, stability of equilibria. Fourier series, method of separation of variables for solving linear elliptic and parabolic PDEs. Programming with Matlab. Numerical solution of systems of nonlinear 1st-order ODEs, as well as linear elliptic, quasilinear parabolic and other PDEs. Applications to model problems describing diagnostic flow cells and controlled drug release.\nCourse ID: 008468\nClassnumber: 15189\nEnrollment Total: 0\nSection Capacity: 45\nRoom Capacity: 45\nClassroom Tech: 6 Clemens Hall\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:018568-17038-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Cheng,Chong":MAILTO:ccheng8@buffalo.edu SUMMARY:CE 535 ccheng8 LOCATION:337 Bell Hall \nAmherst, NY 14260-2050 GEO:43.001475;-78.787025 DTSTART:20240827T123000 DTEND:20240827T135000 RRULE:FREQ=WEEKLY;UNTIL=20241209T135000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Cheng,Chong\nCourse Number/Section: CE 535LEC 000\nTitle: Polymer Sci & Engineerg 1\nDescription: Polymer Science and Engineering I is an introductory course on polymers. With the current global annual production of over 400 million tons, polymers are one of the most important materials, with broad applications in everyday life as well as in nearly every industry. CE535 will cover fundamental aspects of polymer chemistry and polymer physics. It focuses on the synthetic methods and structure-property relationship of polymers.\nCourse ID: 018568\nClassnumber: 17038\nEnrollment Total: 0\nSection Capacity: 19\nRoom Capacity: 39\nClassroom Tech: 337 Bell Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:301883-16309-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Lin,Haiqing":MAILTO:haiqingl@buffalo.edu SUMMARY:CE 540 haiqingl LOCATION:110 Baldy Hall \nAmherst, NY 14260-1000 GEO:43.000290;-78.787115 DTSTART:20240827T153000 DTEND:20240827T165000 RRULE:FREQ=WEEKLY;UNTIL=20241209T165000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Lin,Haiqing\nCourse Number/Section: CE 540LEC 000\nTitle: Materials Principles\nDescription: This course covers the fundamental principles of material science and engineering for graduate level students as they apply to basic chemical and biological engineering systems. Four topics will be discussed in-depth, including materials structure, thermodynamics, kinetics and properties. Materials structure includes chemical bonding, crystals and imperfections; materials thermodynamics include phase diagram and transformation; kinetics includes diffusion and solid-state chemical reactions. Electrical, optical and magnetic properties will be discussed in conjunction with applications that rely on these properties and corresponding characterization techniques. This course will cover major material systems (metals, ceramics, polymers and composites) and provides example of structure/property relationship. The use of computational simulation for materials research will be introduced.\nCourse ID: 301883\nClassnumber: 16309\nEnrollment Total: 0\nSection Capacity: 46\nRoom Capacity: 46\nClassroom Tech: 110 Baldy Hall\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:303091-20884-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Courtemanche,David J":MAILTO:djcourte@buffalo.edu SUMMARY:CE 541 djcourte LOCATION:127A Cooke Hall \nAmherst, NY 14260-1300 GEO:42.999986;-78.791473 DTSTART:20240826T100000 DTEND:20240826T105000 RRULE:FREQ=WEEKLY;UNTIL=20241209T105000;WKST=SU;BYDAY=MO,WE,FR DESCRIPTION:Instructor: Courtemanche,David J\nCourse Number/Section: CE 541LEC COU\nTitle: Six Sigma for Chem Engineers\nDescription: Introduction to Six Sigma statistical methodology for identifying critical process variables that affect process operability. Emphasis will be on how to define and quantify the process goal and methods to determine the proper variables to affect continuous positive improvement on a chemical process.\nCourse ID: 303091\nClassnumber: 20884\nEnrollment Total: 0\nSection Capacity: 20\nRoom Capacity: 40\nClassroom Tech: 127 Cooke Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:018570-16311-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Park,Sheldon J":MAILTO:sjpark6@buffalo.edu SUMMARY:CE 550 sjpark6 LOCATION:352 Academic Center \nAmherst, NY 14261-0026 GEO:43.008783;-78.785398 DTSTART:20240827T123000 DTEND:20240827T135000 RRULE:FREQ=WEEKLY;UNTIL=20241209T135000;WKST=SU;BYDAY=TU,TH DESCRIPTION:Instructor: Park,Sheldon J\nCourse Number/Section: CE 550LEC 000\nTitle: Protein Engineering\nDescription: This course discusses the fundamentals of protein structure and how protein structure dictates function. The students learn various experimental techniques used to analyze proteins as well as the strategies used to engineer novel proteins, including knowledge-based design and directed evolution. Literature examples are presented to illustrate the process of protein engineering and how engineered proteins are used to solve problems in biotechnology and medicine.\nCourse ID: 018570\nClassnumber: 16311\nEnrollment Total: 1\nSection Capacity: 20\nRoom Capacity: 32\nClassroom Tech: 352 Academic Center\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:302989-19766-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Alexandridis,Paschalis":MAILTO:palexand@buffalo.edu SUMMARY:CE 552 palexand LOCATION:127A Cooke Hall \nAmherst, NY 14260-1300 GEO:42.999986;-78.791473 DTSTART:20240828T170000 DTEND:20240828T195000 RRULE:FREQ=WEEKLY;UNTIL=20241209T195000;WKST=SU;BYDAY=WE DESCRIPTION:Instructor: Alexandridis,Paschalis\nCourse Number/Section: CE 552LEC ALE\nTitle: Petroleum Engineering\nDescription: Petroleum engineering encompasses activities related to the production of hydrocarbons (crude oil and natural gas), ranging from exploration and drilling, to well completion and production, to processing and transportation of hydrocarbon products. This course introduces key terminology and concepts from petrophysics, drilling, production and reservoir engineering that are needed to understand oil and gas production. Topics covered include: properties of reservoir fluids and rock; petroleum geology; well drilling, logging, and completion; enhanced oil recovery; upstream facilities; production and reservoir performance; midstream and downstream operations; and flow assurance. The course places oil and gas production in the global energy context, and discusses economics, environmental and regulatory issues.\nCourse ID: 302989\nClassnumber: 19766\nEnrollment Total: 0\nSection Capacity: 19\nRoom Capacity: 40\nClassroom Tech: 127 Cooke Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:008486-10911-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Nitsche,Johannes M.":MAILTO:nitsche@buffalo.edu SUMMARY:CE 561 nitsche LOCATION:337 Bell Hall \nAmherst, NY 14260-2050 GEO:43.001475;-78.787025 DTSTART:20240826T140000 DTEND:20240826T145000 RRULE:FREQ=WEEKLY;UNTIL=20241209T145000;WKST=SU;BYDAY=MO,WE,FR DESCRIPTION:Instructor: Nitsche,Johannes M.\nCourse Number/Section: CE 561LEC 000\nTitle: Applied Chem Kinetics 1\nDescription: Applications of chemical kinetics, thermodynamics, and transport phenomena to the design of chemical reactors. More practical than theoretical.\nCourse ID: 008486\nClassnumber: 10911\nEnrollment Total: 0\nSection Capacity: 39\nRoom Capacity: 39\nClassroom Tech: 337 Bell Hall\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:008799-10902-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Unknown":MAILTO:@buffalo.edu SUMMARY:CE 611 LOCATION:206 Furnas Hall \nAmherst, NY 14260-4200 GEO:43.001888;-78.787226 DTSTART:20240828T110000 DTEND:20240828T115000 RRULE:FREQ=WEEKLY;UNTIL=20241209T115000;WKST=SU;BYDAY=WE DESCRIPTION:Instructor: Unknown\nCourse Number/Section: CE 611SEM 000\nTitle: Chemical Engineering Sem\nDescription: Graduate students are required to attend weekly seminars presented by distinguished speakers from academia and industry.\nCourse ID: 008799\nClassnumber: 10902\nEnrollment Total: 0\nSection Capacity: 60\nRoom Capacity: 60\nClassroom Tech: 206 Furnas Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:018608-10734-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Jones,Matthew D":MAILTO:jonesm@buffalo.edu SUMMARY:CE 620 jonesm LOCATION:325 Bell Hall \nAmherst, NY 14260-2050 GEO:43.001475;-78.787025 DTSTART:20240826T110000 DTEND:20240826T115000 RRULE:FREQ=WEEKLY;UNTIL=20241209T115000;WKST=SU;BYDAY=MO,WE,FR DESCRIPTION:Instructor: Jones,Matthew D\nCourse Number/Section: CE 620LEC 000\nTitle: High Perform Computing 1\nDescription: The first semester of a two-semester course sequence that will introduce students to the fundamental concepts of scientific computing, with particular attention given to algorithms that are well-suited to high performance computer architectures. The first semester will concentrate on computational linear algebra, including iterative and direct methods for solving linear systems and for eigenvalue problems, and the use of BLAS and other public domain libraries. This course is equivalent to CDA 609, CSE 547, MAE 609, MTH 667, PHY 515, and GLY 609.\nCourse ID: 018608\nClassnumber: 10734\nEnrollment Total: 0\nSection Capacity: 4\nRoom Capacity: 21\nClassroom Tech: 325 Bell Hall\nFinal Exam: Y END:VEVENT BEGIN:VEVENT UID:008803-10825-2249@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Andreadis,Stylianos":MAILTO:sandread@buffalo.edu SUMMARY:CE 631 sandread LOCATION:206 Furnas Hall \nAmherst, NY 14260-4200 GEO:43.001888;-78.787226 DTSTART:20240830T140000 DTEND:20240830T165000 RRULE:FREQ=WEEKLY;UNTIL=20241209T165000;WKST=SU;BYDAY=FR DESCRIPTION:Instructor: Andreadis,Stylianos\nCourse Number/Section: CE 631LEC 000\nTitle: Ce Research Methods 2\nDescription: This is a two-semester course that aims at training doctoral graduate students in the methodologies and practices used in chemical engineering research. Students learn the techniques for formulating, developing and completing an original research problem in their respective fields of interest. The course material covers development of new research ideas, literature search to identify the state of the art in the specific field, connectivity and cross-fertilization of ideas, multidisciplinary research, as well as instruction on the most popular experimental, theoretical and computational techniques used in chemical engineering research. Students will work on individual research projects developed during the first semester of the course. The second semester will focus on obtaining preliminary original results. Evaluation of student performance will be based on progress reports and a final report. Oral defense of the final reports in front of a committee of graduate faculty is required.\nCourse ID: 008803\nClassnumber: 10825\nEnrollment Total: 0\nSection Capacity: 30\nRoom Capacity: 60\nClassroom Tech: 206 Furnas Hall\nFinal Exam: N END:VEVENT BEGIN:VEVENT UID:301705-16674-2241-fin@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Park,Sheldon J":MAILTO:sjpark6@buffalo.edu SUMMARY:CE 220 sjpark6 Final Exam LOCATION:108 Obrian Hall \nAmherst, NY 14260-1100 GEO:43.000524;-78.787969 DTSTART:20240514T80000 DTEND:20240514T110000 DESCRIPTION:Instructor: Park,Sheldon J\nCourse Number/Section: CE 220LEC 000\nTitle: CE Biotechnology Principles\nDescription: Fundamental principles of biotechnology for chemical engineering majors taught using case studies that trace back from major products to the fundamental biological principles that underlie their use and the bioprocesses by which they are manufactured.\nCourse ID: 301705\nClassnumber: 16674\nClassroom Tech: 108 Obrian Hall\nEnrollment Total: 32\nSection Capacity: 45\nRoom Capacity: 80\nClass Exam Type: FIN\nExam Seat Spacing: 1 END:VEVENT BEGIN:VEVENT UID:008407-13114-2241-fin@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Thundat,Thomas George":MAILTO:tgthunda@buffalo.edu SUMMARY:CE 304 tgthunda Final Exam LOCATION:322 Clemens Hall \nAmherst, NY 14260-4600 GEO:43.000393;-78.785009 DTSTART:20240510T114500 DTEND:20240510T144500 DESCRIPTION:Instructor: Thundat,Thomas George\nCourse Number/Section: CE 304LR 000\nTitle: Chem Engr Thermodyn 2\nDescription: Applies the laws and tools of equilibrium thermodynamics to chemical engineering problems, including calculation of thermodynamic properties of pure fluids and mixtures, computation of energy requirements for changing the state of a system, analysis of phase equilibria (emphasizing vapor-liquid equilibrium), and treatment of chemical reaction equilibria.\nCourse ID: 008407\nClassnumber: 13114\nClassroom Tech: 322 Clemens Hall\nEnrollment Total: 34\nSection Capacity: 60\nRoom Capacity: 63\nClass Exam Type: FIN\nExam Seat Spacing: 1 END:VEVENT BEGIN:VEVENT UID:008412-13181-2241-fin@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Parashurama,Natesh":MAILTO:nateshp@buffalo.edu SUMMARY:CE 318 nateshp Final Exam LOCATION:220 Natural Sciences Complex \nAmherst, NY 14260-3000 GEO:43.000779;-78.792226 DTSTART:20240513T153000 DTEND:20240513T183000 DESCRIPTION:Instructor: Parashurama,Natesh\nCourse Number/Section: CE 318LR 000\nTitle: Transport Process 2\nDescription: The equations of change of heat and mass transport. Steady- and unsteady-state heat conduction in one and two dimensions. Free and forced convection; prediction and correlation of heat transfer. Mass transfer by diffusion and convection; analogies with heat transfer. Simultaneous mass transfer and chemical reaction.\nCourse ID: 008412\nClassnumber: 13181\nClassroom Tech: 220 Natural Sciences Complex\nEnrollment Total: 47\nSection Capacity: 71\nRoom Capacity: 90\nClass Exam Type: FIN\nExam Seat Spacing: 2 END:VEVENT BEGIN:VEVENT UID:018327-23764-2241-fin@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Leahy,Maura R":MAILTO:maurasep@buffalo.edu SUMMARY:CE 405 maurasep Final Exam LOCATION:422 Fronczak Hall \nAmherst, NY 14260-1500 GEO:43.001236;-78.790963 DTSTART:20240510T153000 DTEND:20240510T183000 DESCRIPTION:Instructor: Leahy,Maura R\nCourse Number/Section: CE 405LEC LEA\nTitle: Special Topics\nDescription: Topics in the field of specialization selected with the permission of the instructor.\nCourse ID: 018327\nClassnumber: 23764\nClassroom Tech: 422 Fronczak Hall\nEnrollment Total: 32\nSection Capacity: 31\nRoom Capacity: 58\nClass Exam Type: FIN\nExam Seat Spacing: 1 END:VEVENT BEGIN:VEVENT UID:008427-20173-2241-fin@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Monje-Galvan,Viviana":MAILTO:vmonje@buffalo.edu SUMMARY:CE 410 vmonje Final Exam LOCATION:111 Talbert Hall \nAmherst, NY 14260-1700 GEO:43.000706;-78.790439 DTSTART:20240514T114500 DTEND:20240514T144500 DESCRIPTION:Instructor: Monje-Galvan,Viviana\nCourse Number/Section: CE 410LEC MON\nTitle: Molecular Modeling\nDescription: This course will provide students with an understanding of the methods, capabilities, and limitations of molecular modeling. It will consist of the following topics: theory, methods, and hands-on application of molecular simulation. Elementary statistical mechanics, overview of molecular modeling approaches, basic probability and statistical analysis. Students will work in small groups to study a sample system using high performance computing (HPC) cluster resources and present their findings at the end of the semester. Prior experience with advanced calculus and thermodynamics is advised.\nCourse ID: 008427\nClassnumber: 20173\nClassroom Tech: 111 Talbert Hall\nEnrollment Total: 1\nSection Capacity: 5\nRoom Capacity: 32\nClass Exam Type: FIN\nExam Seat Spacing: 1 END:VEVENT BEGIN:VEVENT UID:301745-23461-2241-fin@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Wu,Gang":MAILTO:gangwu@buffalo.edu SUMMARY:CE 422 gangwu Final Exam LOCATION:144 Center for the Arts \nAmherst, NY 14260-6000 GEO:43.000887;-78.782930 DTSTART:20240513T80000 DTEND:20240513T110000 DESCRIPTION:Instructor: Wu,Gang\nCourse Number/Section: CE 422LEC WU\nTitle: Electrochem Energy Environ\nDescription: This course is for students in Engineering, Physics, and Chemistry in their last year of study, who are interested in sustainable renewable energy and environmental technologies. Development of such cutting-edge technologies heavily relies on understanding of electrochemical principles associated with charge/mass transfer during the reactions. This course will start with fundamental thermodynamics and kinetics of electrochemical reactions, followed by systematical descriptions of energy conversion and storage associated electrocatalysis, photocatalysis, and battery principles. The targeted technologies, such as solar cells, fuel cells, batteries, and supercapacitors will be introduced. Also, a special emphasis in this course is on environmental electrochemistry and will cover the latest electrochemical technologies in waste treatments, clean synthesis, and electrochemical sensors.\nCourse ID: 301745\nClassnumber: 23461\nClassroom Tech: 144 Center for the Arts\nEnrollment Total: 9\nSection Capacity: 20\nRoom Capacity: 48\nClass Exam Type: FIN\nExam Seat Spacing: 1 END:VEVENT BEGIN:VEVENT UID:018330-12945-2241-fin@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Goyal,Amit":MAILTO:agoyal@buffalo.edu SUMMARY:CE 433 agoyal Final Exam LOCATION:04 Knox Hall \nAmherst, NY 14260 GEO:43.001083;-78.787931 DTSTART:20240509T114500 DTEND:20240509T144500 DESCRIPTION:Instructor: Goyal,Amit\nCourse Number/Section: CE 433LEC 000\nTitle: Materials Sci & Corrosion\nDescription: Properties of solids, which chemical engineers need to understand and exploit in regard to chemical processing and industrial equipment; how chemical and physical structures determine the uses of the products of the chemical industry. Crystal structure, crystal defects, and how they dominate mechanical properties. Thermal and electrical properties of solids. Polymer structures and properties. Corrosion: mechanisms and prevention.\nCourse ID: 018330\nClassnumber: 12945\nClassroom Tech: 4 Knox Hall\nEnrollment Total: 48\nSection Capacity: 61\nRoom Capacity: 71\nClass Exam Type: FIN\nExam Seat Spacing: 1 END:VEVENT BEGIN:VEVENT UID:008439-16663-2241-fin@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Gunawan,Rudiyanto":MAILTO:rgunawan@buffalo.edu SUMMARY:CE 434 rgunawan Final Exam LOCATION:101 Baldy Hall \nAmherst, NY 14260-1000 GEO:43.000290;-78.787115 DTSTART:20240514T114500 DTEND:20240514T144500 DESCRIPTION:Instructor: Gunawan,Rudiyanto\nCourse Number/Section: CE 434LR 000\nTitle: Chemical Systems Control\nDescription: Equips engineering students with the fundamental concepts of process control design. An introduction to the benefits of having a good control process is followed by the definitions of the control objectives, feedback and feedforward control, and the various types of variables found in process control problems. Includes the development of dynamic mathematical models for simple processes, using mass and energy balances. Introduces mathematical tools (Laplace Transformations) that help solve such mathematical models as well as define the transfer functions of typical process systems (first and second order systems). Introduces the controller concept, together with the basic principles behind the feedback control loop and its stability characteristics.\nCourse ID: 008439\nClassnumber: 16663\nClassroom Tech: 101 Baldy Hall\nEnrollment Total: 42\nSection Capacity: 71\nRoom Capacity: 99\nClass Exam Type: FIN\nExam Seat Spacing: 2 END:VEVENT BEGIN:VEVENT UID:018332-16137-2241-fin@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Neelamegham,Sriram":MAILTO:neel@buffalo.edu SUMMARY:CE 446 neel Final Exam LOCATION:103 Talbert Hall \nAmherst, NY 14260-1700 GEO:43.000706;-78.790439 DTSTART:20240510T191500 DTEND:20240510T221500 DESCRIPTION:Instructor: Neelamegham,Sriram\nCourse Number/Section: CE 446LEC 000\nTitle: Biochemical Engineering\nDescription: Significant microbial products, organisms, and substrates; directing microbial activity by random mutation and recombinant DNA; kinetics of growth and product formation; types of fermenters; aeration and agitation; scale-up; sterilization; product separation.\nCourse ID: 018332\nClassnumber: 16137\nClassroom Tech: 103 Talbert Hall\nEnrollment Total: 3\nSection Capacity: 20\nRoom Capacity: 40\nClass Exam Type: FIN\nExam Seat Spacing: 1 END:VEVENT BEGIN:VEVENT UID:018377-23715-2241-fin@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Kofke,David A":MAILTO:kofke@buffalo.edu SUMMARY:CE 500 kofke Final Exam LOCATION:105 Baldy Hall \nAmherst, NY 14260-1000 GEO:43.000290;-78.787115 DTSTART:20240510T191500 DTEND:20240510T221500 DESCRIPTION:Instructor: Kofke,David A\nCourse Number/Section: CE 500LEC KOF\nTitle: Special Topics\nDescription: Advanced topics in chemical engineering to meet the needs and interests of graduate students.\nCourse ID: 018377\nClassnumber: 23715\nClassroom Tech: 105 Baldy Hall\nEnrollment Total: 12\nSection Capacity: 20\nRoom Capacity: 22\nClass Exam Type: FIN\nExam Seat Spacing: 2 END:VEVENT BEGIN:VEVENT UID:301756-23462-2241-fin@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Wu,Gang":MAILTO:gangwu@buffalo.edu SUMMARY:CE 522 gangwu Final Exam LOCATION:144 Center for the Arts \nAmherst, NY 14260-6000 GEO:43.000887;-78.782930 DTSTART:20240513T80000 DTEND:20240513T110000 DESCRIPTION:Instructor: Wu,Gang\nCourse Number/Section: CE 522LEC WU\nTitle: Electrochem Energy & Envo\nDescription: This course is for graduate students in Engineering, Physics, and Chemistry who are interested in sustainable renewable energy and environmental technology. Development of such cutting-edge technologies heavily relies on understanding of electrochemical principles associated with charge/mass transfer during the reactions. This course will start with fundamental thermodynamics and kinetics of electrochemical reactions, followed by systematical descriptions of energy conversion and storage associated electrocatalysis, photocatalysis, and battery principles. The targeted technologies, such as solar cells, fuel cells, batteries, and supercapacitors will be introduced. Also, a special emphasis in this course is on environmental electrochemistry, which will cover the latest electrochemical technologies waste treatments, clean synthesis, and electrochemical sensors.\nCourse ID: 301756\nClassnumber: 23462\nClassroom Tech: 144 Center for the Arts\nEnrollment Total: 11\nSection Capacity: 20\nRoom Capacity: 48\nClass Exam Type: FIN\nExam Seat Spacing: 2 END:VEVENT BEGIN:VEVENT UID:008467-20288-2241-fin@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Monje-Galvan,Viviana":MAILTO:vmonje@buffalo.edu SUMMARY:CE 530 vmonje Final Exam LOCATION:111 Talbert Hall \nAmherst, NY 14260-1700 GEO:43.000706;-78.790439 DTSTART:20240514T114500 DTEND:20240514T144500 DESCRIPTION:Instructor: Monje-Galvan,Viviana\nCourse Number/Section: CE 530LEC MON\nTitle: Molecular Modeling\nDescription: This course will provide students with an understanding of the methods, capabilities, and limitations of molecular modeling. It will consist of the following topics: theory, methods, and hands-on application of molecular simulation. Elementary statistical mechanics, overview of molecular modeling approaches, basic probability and statistical analysis. Students will perform an individual term project using high performance computing (HPC) cluster resources and submit a report with their conclusions at the end of the term. Prior experience with advanced calculus and thermodynamics is advised.\nCourse ID: 008467\nClassnumber: 20288\nClassroom Tech: 111 Talbert Hall\nEnrollment Total: 19\nSection Capacity: 25\nRoom Capacity: 32\nClass Exam Type: FIN\nExam Seat Spacing: 1 END:VEVENT BEGIN:VEVENT UID:018567-14153-2241-fin@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Goyal,Amit":MAILTO:agoyal@buffalo.edu SUMMARY:CE 534 agoyal Final Exam LOCATION:04 Knox Hall \nAmherst, NY 14260 GEO:43.001083;-78.787931 DTSTART:20240509T114500 DTEND:20240509T144500 DESCRIPTION:Instructor: Goyal,Amit\nCourse Number/Section: CE 534LEC A\nTitle: Materials Sci & Corrosion\nDescription: This course is a fundamental introduction of materials science and engineering. The objective of this course is to introduce the students to the processing, structure, properties, and performance of solid materials including metals, ceramics, polymers and their composites, which students need to understand and exploit in regard to chemical processing and industrial equipment. The correlations of material synthesis, process, structures, and properties will be emphasized to provide insight into rational designs and synthesis of new materials.\nCourse ID: 018567\nClassnumber: 14153\nClassroom Tech: 4 Knox Hall\nEnrollment Total: 0\nSection Capacity: 10\nRoom Capacity: 71\nClass Exam Type: FIN\nExam Seat Spacing: 1 END:VEVENT BEGIN:VEVENT UID:018569-16138-2241-fin@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Neelamegham,Sriram":MAILTO:neel@buffalo.edu SUMMARY:CE 547 neel Final Exam LOCATION:103 Talbert Hall \nAmherst, NY 14260-1700 GEO:43.000706;-78.790439 DTSTART:20240510T191500 DTEND:20240510T221500 DESCRIPTION:Instructor: Neelamegham,Sriram\nCourse Number/Section: CE 547LEC 000\nTitle: Biochemical Engineering\nDescription: This is a course on biotechnology and the use of genetic engineering methods for protein production in pharmaceutical settings. The course will cover basic biochemistry and microbiology fundamentals including microorgansims and biological molecules; structure-function relationships among macromolecules; molecular genetics; protein synthesis and genetic engineering. The course will also cover aspects related to enzyme catalysis, cell growth and bioreactor design. This includes the principles of enzyme catalysis and enzyme-substrate reactions; enzyme inhibition and modification methods; enzyme immobilization and the relative contributions of mass transfer and enzyme kinetics; stoichiometry and energetics of microbial growth; structured and unstructured biochemical models; bioreactor design and bioseparations.\nCourse ID: 018569\nClassnumber: 16138\nClassroom Tech: 103 Talbert Hall\nEnrollment Total: 9\nSection Capacity: 20\nRoom Capacity: 40\nClass Exam Type: FIN\nExam Seat Spacing: 1 END:VEVENT BEGIN:VEVENT UID:008801-16256-2241-fin@buffalo.edu DTSTAMP:20240329T110002Z ORGANIZER;CN="Nathawani,Darsh Kiritbhai":MAILTO:darshkir@buffalo.edu SUMMARY:CE 621 darshkir Final Exam LOCATION:107 Clemens Hall \nAmherst, NY 14260-4600 GEO:43.000393;-78.785009 DTSTART:20240514T114500 DTEND:20240514T144500 DESCRIPTION:Instructor: Nathawani,Darsh Kiritbhai\nCourse Number/Section: CE 621LEC 000\nTitle: High Perform Computing 2\nDescription: This course will be a continuation of HPC I, with a more in-depth look at key aspects of high performance parallel computing in large scale computation-intensive applications. The focus will be on algorithms, computational cost, parallelization, scalability, and performance. It is expected that students will have completed HPC I or will have a working knowledge of the topics covered in HPC I, including good command of at least one standard high-level programming language (e.g. Fortran, or C, or Python) as well as message passing software MPI and OpenMP.\nCourse ID: 008801\nClassnumber: 16256\nClassroom Tech: 107 Clemens Hall\nEnrollment Total: 0\nSection Capacity: 5\nRoom Capacity: 22\nClass Exam Type: FIN\nExam Seat Spacing: 1 END:VEVENT END:VCALENDAR