ENERGY 101: Energy and the Environment (EARTHSYS 101)
Energy use in modern society and the consequences of current and future energy use patterns. Case studies illustrate resource estimation, engineering analysis of energy systems, and options for managing carbon emissions. Focus is on energy definitions, use patterns, resource estimation, pollution. Recommended:
MATH 21 or 42.
Terms: Win

Units: 3

UG Reqs: GER:DBEngrAppSci, WAYAQR, WAYSMA

Grading: Letter or Credit/No Credit
Instructors:
Durlofsky, L. (PI)
;
Kovscek, A. (PI)
ENERGY 102: Fundamentals of Renewable Power (EARTHSYS 102)
Do you want a much better understanding of renewable power technologies? Did you know that wind and solar are the fastest growing forms of electricity generation? Are you interested in hearing about the most recent, and future, designs for green power? Do you want to understand what limits power extraction from renewable resources and how current designs could be improved? This course dives deep into these and related issues for wind, solar, biomass, geothermal, tidal and wave power technologies. We welcome all student, from nonmajors to MBAs and grad students. If you are potentially interested in an energy or environmental related major, this course is particularly useful. Recommended:
Math 21 or 42.
Terms: Spr

Units: 3

UG Reqs: GER:DBEngrAppSci, WAYSMA

Grading: Letter or Credit/No Credit
Instructors:
Gerritsen, M. (PI)
;
Kovscek, A. (PI)
ENERGY 120: Fundamentals of Petroleum Engineering (ENGR 120)
Lectures, problems, field trip. Engineering topics in petroleum recovery; origin, discovery, and development of oil and gas. Chemical, physical, and thermodynamic properties of oil and natural gas. Material balance equations and reserve estimates using volumetric calculations. Gas laws. Single phase and multiphase flow through porous media.
Terms: Aut

Units: 3

UG Reqs: GER:DBEngrAppSci, WAYFR, WAYSMA

Grading: Letter or Credit/No Credit
Instructors:
Battiato, I. (PI)
;
Horne, R. (PI)
ENERGY 121: Fundamentals of Multiphase Flow (ENERGY 221)
Multiphase flow in porous media. Wettability, capillary pressure, imbibition and drainage, Leverett Jfunction, transition zone, vertical equilibrium. Relative permeabilities, Darcy's law for multiphase flow, fractional flow equation, effects of gravity, BuckleyLeverett theory, recovery predictions, volumetric linear scaling, JBN and JonesRozelle determination of relative permeability. Frontal advance equation, BuckleyLeverett equation as frontal advance solution, tracers in multiphase flow, adsorption, threephase relative permeabilities.
Terms: Win

Units: 3

UG Reqs: GER:DBEngrAppSci

Grading: Letter (ABCD/NP)
Instructors:
Tchelepi, H. (PI)
ENERGY 167: Engineering Valuation and Appraisal of Oil and Gas Wells, Facilities, and Properties (ENERGY 267)
Appraisal of development and remedial work on oil and gas wells; appraisal of producing properties; estimation of productive capacity, reserves; operating costs, depletion, and depreciation; value of future profits, taxation, fair market value; original or guided research problems on economic topics with report. Prerequisite: consent of instructor.
Terms: Win

Units: 3

UG Reqs: GER:DBEngrAppSci

Grading: Letter or Credit/No Credit
Instructors:
Kourt, W. (PI)
;
Pande, K. (PI)
ENERGY 180: Oil and Gas Production Engineering (ENERGY 280)
Design and analysis of production systems for oil and gas reservoirs. Topics: well completion, singlephase and multiphase flow in wells and gathering systems, artificial lift and field processing, well stimulation, inflow performance. Prerequisite: 120.
Terms: alternate years, given next year, last offered Winter 2019

Units: 3

UG Reqs: GER:DBEngrAppSci

Grading: Letter (ABCD/NP)
ENGR 10: Introduction to Engineering Analysis
Integrated approach to the fundamental scientific principles that are the cornerstones of engineering analysis: conservation of mass, atomic species, charge, momentum, angular momentum, energy, production of entropy expressed in the form of balance equations on carefully defined systems, and incorporating simple physical models. Emphasis is on setting up analysis problems arising in engineering. Topics: simple analytical solutions, numerical solutions of linear algebraic equations, and laboratory experiences. Provides the foundation and tools for subsequent engineering courses. Prerequisite: AP Physics and AP Calculus or equivalent.
Terms: Win

Units: 4

UG Reqs: GER:DBEngrAppSci, WAYAQR, WAYFR

Grading: Letter (ABCD/NP)
Instructors:
Cappelli, M. (PI)
ENGR 14: Intro to Solid Mechanics
Introduction to engineering analysis using the principles of engineering solid mechanics. Builds on the math and physical reasoning concepts in
Physics 41 to develop skills in evaluation of engineered systems across a variety of fields. Foundational ideas for more advanced solid mechanics courses such as ME80 or
CEE101A. Interactive lecture sessions focused on mathematical application of key concepts, with weekly complementary lab session on testing and designing systems that embody these concepts. Limited enrollment, subject to instructor approval. Prerequisite:
Physics 41.
Terms: Aut, Win, Spr

Units: 3

UG Reqs: GER:DBEngrAppSci

Grading: Letter (ABCD/NP)
Instructors:
Billington, S. (PI)
;
Sheppard, S. (PI)
ENGR 15: Dynamics
The application of Newton's Laws to solve 2D and 3D static and dynamic problems, particle and rigid body dynamics, freebody diagrams, and equations of motion, with application to mechanical, biomechanical, and aerospace systems. Computer numerical solution and dynamic response. Prerequisites: Calculus (differentiation and integration) such as
MATH 41; and
ENGR 14 (statics and strength) or a mechanics course in physics such as
PHYSICS 41.
Terms: Win, Spr

Units: 3

UG Reqs: GER:DBEngrAppSci, WAYSMA

Grading: Letter (ABCD/NP)
Instructors:
Lew, A. (PI)
;
Rock, S. (PI)
ENGR 20: Introduction to Chemical Engineering (CHEMENG 20)
Overview of chemical engineering through discussion and engineering analysis of physical and chemical processes. Topics: overall staged separations, material and energy balances, concepts of rate processes, energy and mass transport, and kinetics of chemical reactions. Applications of these concepts to areas of current technological importance: biotechnology, energy, production of chemicals, materials processing, and purification. Prerequisite:
CHEM 31.
Terms: Win

Units: 4

UG Reqs: GER:DBEngrAppSci, WAYAQR, WAYSMA

Grading: Letter (ABCD/NP)
Instructors:
Tarpeh, W. (PI)
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