U of A researcher designs better controls for indoor ventilation systems to stop spread of SARS-CoV-2

Research, Health And Wellness

U of A researcher designs better controls for indoor ventilation systems to stop spread of SARS-CoV-2

A high-tech HVAC system that adapts to building occupancy is one of six U of A post-doctoral projects backed by ��ֱ�� Innovates to improve the health of ��ֱ��ns.

March 11, 2021 By Gillian Rutherford

Engineering researcher Yousef Alipouri is working on smart controls for HVAC systems that optimize ventilation based on how many people are in a building, and even increase ventilation when someone may be sneezing or coughing. Alipouri is among six U of A post-doctoral fellows whose health-related projects are receiving new funding from ��ֱ�� Innovates. (Photo: Supplied)

A ��ֱ�� engineering researcher is building smarter controls for building ventilation systems to maximize fresh air intake and minimize the spread of viruses such as SARS-CoV-2, which causes COVID-19.

Yousef Alipouri’s project is one of six to receive new funding from the

“With our approach we can control viruses indoors and hopefully avoid shutdowns like we’ve seen during the COVID-19 pandemic,” said Alipouri, a post-doctoral fellow in the Faculty of Engineering. “It will be beneficial to industry and to all ��ֱ��ns.”

Public health organizations including the and have stated that poor heating, ventilation and air conditioning (HVAC) systems in indoor spaces—ranging from restaurants and factories to schools and even airplanes—likely contribute to the spread of disease through airborne transmission.

Alipouri’s supervisor, , an assistant professor of mechanical engineering, is funded by the to . Alipouri and Zhong began the control project last year with funding from , and recently .

Sensing a sneeze or cough

The new control system will use sensors, image processing and machine learning to optimize HVAC systems depending on how the space is being used. For example, the now recommends that ventilation systems should be operated for two hours before a building is occupied and continued until two hours after it is vacated. The control system will learn to predict occupancy so it only runs when needed, to conserve energy and reduce costs. Temperature and humidity will be constantly monitored and adjusted to remain at optimum levels.

The system could even detect whether everyone is wearing a mask upon entering the building, or register that someone is sneezing or coughing, and respond by increasing ventilation when the risk is deemed higher.

“If you look at the HVAC systems that are available in the market in Canada right now, most companies are looking for this type of functionality—a kind of pandemic mode for HVAC,” Alipouri said.

The next step for the research will be to build a simulator to show how the virus responds to varying indoor air conditions. Alipouri is also working with HVAC companies to test and implement the system.

Five more health-focused projects

Five other ��ֱ�� researchers also received ��ֱ�� Innovates Postdoctoral Fellowships in Health Innovation, for a total of $660,000 over two years, with the possibility of up to $330,000 in one-year renewals. The goal of the fellowships is to drive growth and competitiveness in health care.

, Faculty of Engineering

Abdollah will collaborate with to study functional electrical stimulation cycling, which involves applying an electrical current to a spinal cord injury patient’s skin to activate weak or paralyzed muscles. While this treatment is commonly prescribed for people with chronic injuries to improve cardiovascular health and build muscle, this project will examine whether the treatment can be applied within 10 days of an injury to promote recovery of injured nerves.

Anika Rahman, Faculty of Medicine & Dentistry

Rahman will study the biochemical and metabolic changes that occur within red blood cells that are frozen, and later thawed, in order to preserve them for transfusion.

, Faculty of Pharmacy and Pharmaceutical Sciences

Clozapine is the only drug approved for patients with treatment-resistant schizophrenia, but it can cause severe side-effects, such as lowered white blood cell count and inflammation of the heart, which can lead to heart attack. Babu will look for small genetic changes that predict these problems, and will also test an antioxidant to try to prevent them.

, Faculty of Rehabilitation Medicine

Godziuk will develop a screening program to detect sarcopenia, a serious health condition that leads to low muscle mass, in patients who also have advanced osteoarthritis in their knees. The screening will analyze hand grip strength and body composition. Godziuk will also study whether people with sarcopenia have poorer outcomes following knee replacement surgery.

, Faculty of Agricultural, Life & Environmental Sciences

It’s known that polyunsaturated fatty acids from fish oil are good for health, particularly for people with inflammatory conditions such as rheumatoid arthritis, but they aren’t very palatable. Similar oils can be derived from plants such as flax and corn gromwell (Buglossoides arvensis). Monirujjaman will study whether plant-derived oils can reduce the severity of rheumatoid arthritis symptoms.

Great ideas change the world, but ideas need a push forward. At the ��ֱ��, we know that push has never been more important as we do our part to rebuild ��ֱ�� and keep doors of opportunity open to all. We're making research discoveries. We’re cultivating entrepreneurs. And we’re giving our students the knowledge and skills they need to turn today's ideas into tomorrow's innovations. Read more stories about U of A innovators.

����ֱ��