Dr. Cook’s research promotes the design and development of sustainable water systems. Dr. Cook’s research takes a systems perspective in order to identify the most crucial components and best ways to improve a system’s performance. Specifically, she couples biological process models with experimentation and sustainability tools, like life cycle assessment and life cycle costing. With this approach, her research involves determining the operational limits of biological treatment systems, advancing technologies that recover resources from waste, integrating environmental and economic factors into the design and decision-making processes, and identifying strategic and appropriate implementations of a closed water treatment system.
wastewater treatment, environmental biotechnology, resource recovery from waste, sustainable design, sustainability-based decision-making, sustainable water system implementation
CVEN 5534 - Wastewater Treatment
Spring 2018 / Spring 2019 / Spring 2021
Covers the processes used to treat municipal wastewater, focusing on biological processes. Includes: design of aerobic, anoxic, anaerobic and suspended growth technologies to remove and transform pollutants; design and assessment of treatment approaches that recover energy, nutrients and water from wastewater; application of fundamental concepts of aquatic chemistry, environmental microbiology and computational models. Recommended prerequisites: CVEN 5404 and CVEN 5484 and CVEN 5464.
EVEN 3550 - Sustainability Principles for Engineers
Fall 2018 / Fall 2020
An introduction to sustainability principles in the field of environmental engineering. Students will apply these principles to engineering problems in order to evaluate the environmental, economic and social implications of engineering and design decisions. Topics include definitions of sustainability, main engineering sustainability challenges (e.g., water, climate and materials), pollution generation and prevention and sustainability assessment tools.