UMaine Piloting Interdisciplinary Renewable Energy Course

The University of Maine is piloting an interdisciplinary course based on Maine tidal power development research that aims to better understand the process of applying a comprehensive approach to renewable energy projects.

The course, Marine Renewable Energy: Engineering, Oceanography, Biology and Human Dimensions, is coordinated by Gayle Zydlewski, an associate professor of marine biology, and is offered as an upper-level undergraduate or graduate course.

The course examines the basic science and field methods of understanding power generation, potential changes to the marine environment and effects on other users of marine resources, and how these disciplines intersect to provide a comprehensive understanding of coastal ecosystems.

Teaching is shared between Zydlewski; Michael Peterson and Raul Urbina from the Mechanical Engineering Department; Huijie Xue, an expert on physical oceanography; and Jessica Jansujwicz and Teresa Johnson, experts on human dimensions and sustainability science.

The last two weeks of the course are devoted to field work and final projects, where students are given the framework to apply concepts and “put it all together,” Zydlewski says.

Fieldwork is conducted on the Penobscot River, where students use acoustics, or sounds in water, to research and collect data about fish and water currents for their final project, which ties together what they learned in the field and in the classroom.

As part of the human dimensions aspect of the course, students visit Cianbro’s manufacturing facility in Brewer to learn about the company’s use of the river and the protocols it follows for development projects.

Since 2009, a group of UMaine researchers have been studying tidal power development independently while coming together to discuss their research, according to Zydlewski. The collaborative effort has resulted in integrated research approaches to better understand the marine environment and contribute to sustainable development through data-driven science with stakeholder input, Zydlewski says.

The focus of the class, she says, is to pass on the collective knowledge and information to the students, whose generation will be faced with all aspects of renewable energy development in coastal systems.

The majority of the 10 students in the course’s pilot year are engineers at the undergraduate and graduate level. Two students are marine science majors. Hometowns vary from York, Maine, to towns in Canada, Connecticut and Massachusetts, with half of the students coming from Brazil.

Even though the course is framed around what is happening with renewable energy in Maine, Zydlewski says, various forms of renewable energy development are also being considered in Brazil, and the students would like to be able to transfer and apply what they learn back home.