Welcome to Chemical Engineering at the University of Waterloo

Professor Edward Rhodes was a professor in the Department of Chemical Engineering from 1964 to 1986. Rhodes was part of the Transport Phenomena Group and conducted research in multiphase flow and boiling heat transfer. Rhodes made significant contributions as chair of the department for 11 years, starting in 1976.

He was a kind and gifted administrator. His life and work influenced many students and young faculty members.

Rhodes’ career accomplishments also included his roles as Dean of Engineering at the University of Calgary, President of the Technical University of Nova Scotia and Vice President at Dalhousie University. He also served as Vice President of Technology for an international petrochemical company.

Rhodes was also known for his artistic side. He loved music and singing, often studying music on his lunch breaks!

He is remembered fondly by many former students, staff and faculty members.

Chemical Engineering Professor Alex Penlidis remembers Dr. Rhodes:

“Ted Rhodes was the department chair when I joined the Department of Chemical Engineering at Waterloo in 1986. He was first and foremost a kind person and a very astute and flexible administrator. He was an exemplary chair, as he was a good researcher and teacher, kind to students and colleagues alike, and a great administrator, who was interested in resolving issues and situations quickly and effectively."

Professors Michael Tam and Yuning Li have designed a solar-powered desalination device capable of utilizing over 93% of solar energy to produce fresh water from the sea via a thermal evaporation process.

This rate is five times higher than that of current technologies, making it a highly efficient solar-driven desalination system. With a production capacity of approximately 20 litres of fresh water per square meter per day, this device offers a sustainable solution to global freshwater scarcity.

Desalination of water is critical for many coastal nations to produce water for consumption and agricultural activities. Rapid population growth and increasing global water consumption by industry contribute to water scarcity.

Ever heard of the phrase coined by Friedrich Nietzsche, “the devil is in the details”? Professors William Anderson and Boxin Zhao have advanced the battle against microplastic pollution by uncovering the intricate details of how microplastics degrade in the environment. Observation and understanding the fine details of microplastics are key to eradicating them from our environment.

The research group has been able to observe the degradation of micro and nanoplastics with unprecedented detail. In collaboration with the National Research Council (NRC) researchers leveraged 3D imaging technology, which allows for a much deeper understanding of the microplastic degradation process than traditional 2D microscopy.

This detailed observation is the first of its kind, demonstrating the potential of 3D imaging as a powerful tool in microplastic research.