Global Arc

The course introduces the students to the basic chemical and physical processes of relevance in environmental engineering. Mass and energy balance and transport concepts are introduced and the chemical principles governing reaction kinetics and phase partitioning are presented. We then turn our focus to the applications in environmental engineering problems related to water and air pollution. Two 80-minute lectures, one precept. Prerequisite: CHM 201 and MAT 104 (can be taken concurrently) or instructor's permission.

Known as "Bridges", this course focuses on structural engineering as a new art form begun during the Industrial Revolution and flourishing today in long-span bridges, thin shell concrete vaults and tall buildings. Through critical analysis of major works, students are introduced to the methods of evaluating engineered structures as an art form. Students study the works and ideas of individual engineers through their basic calculations, their builder's mentality and their aesthetic imagination. Illustrations are taken from various cities and countries, demonstrating the influence of culture on our built environment. Two lectures, one precept.

Known as "Bridges", this course focuses on structural engineering as a new art form begun during the Industrial Revolution and flourishing today in long-span bridges, thin shell concrete vaults, and tall buildings. Through laboratory experiments students study the scientific basis for structural performance and thereby connect external forms to the internal forces in the major works of structural engineers. Illustrations are taken from various cities and countries thus demonstrating the influence of culture on our built environment. Two lectures, one three-hour laboratory.

The course covers the environmental and geological engineering principles relevant to the entire energy supply chain from mining and extraction of fuels, to power production, to disposal of wastes and sequestration of greenhouse gases. Both conventional and renewable energy are considered. Students will learn the engineering principles and practices to address environmental challenges and to find the best ways to utilize earth systems to our advantage. This course is a requirement for the Geological Engineering certificate program. Two lectures. Prerequisites: CHM201 and MAT104 or permission of the instructor.

The course starts by introducing the conservation principles and related concepts used to describe fluids and their behavior. Mass conservation is addressed first, with a focus on its application to pollutant transport problems in environmental media. Momentum conservation, including the effects of buoyancy and earth's rotation, is then presented. Fundamentals of heat transfer are then combined with the first law of thermodynamics to understand the coupling between heat and momentum transport. We then proceed to apply these laws to study air and water flows in various environmental systems, with a focus on the atmospheric boundary layer.

Analysis of fundamental processes in the hydrologic cycle, including precipitation, evapotranspiration, infiltration, streamflow and groundwater flow. Course is required for concentrators. Prerequisite: MAT 201. Two lectures, one preceptorial.

This three-week course, offered as part of a four-course study abroad semester, takes place at Princeton Univeristy's Mpala Research Centre in central Kenya. The course will provide an introduction to the principles of hydrological sciences via the development and application of instrumentation for characterizing surface/subsurface hydrological dynamics in field settings. Lectures and field activities will address the theory of operation, design, and implementation of methods used to quantify hydrological patterns and processes. Prerequisite: MAT 201.

Designed to teach experimental measurement techniques in environmental engineering and their interpretations. General considerations for experimental design and data analysis will be covered. Key techniques used to measure the physical, chemical and biological attributes of environmental media will be taught through various hands-on modules that cover flow and transport of contaminants in the atmosphere, hydrologic measurements of soil-moisture dynamics in response to precipitation events, and measurements of solar and wind energy resources. One three-hour laboratory, one lecture. Prerequisites: CEE207 and CEE306 or Permission of Instructor.

Students will study the chemical and physical processes involved in the sources, transformation, transport, and sinks of air pollutants on local to global scales. Societal problems such as photochemical smog, particulate matter, greenhouse gases, and stratospheric ozone depletion will be investigated using fundamental concepts in chemistry, physics, and engineering. For the class project, students will select a trace gas species or family of gases and analyze recent field and remote sensing data based upon material covered in the course. Environments to be studied include very clean, remote portions of the globe to urban air quality.

Develop notions of internal forces and displacements. Instruct how to design and analyze structures. Present fundamental principles of structural analysis, determination of internal forces, deflections under the static load conditions. Introduce the bending theory of plane beams and the basic energy theorems. Develop the theory of the first order for continuous girders, frames, arches, suspension bridges, trusses, including both statically determinate and indeterminate structures. Present basic principles for construction of influence lines and determination of extreme influences. Two lectures, one precept. Prerequisite: CEE205 or MAE223.