Nearly half of the air inside a home can come from the garage and homes with attached garages also have higher indoor levels of certain air pollutants. These air pollutants include benzene, CO, and NO2. In the winter, polluted air is drawn into the home from the attached garage because of the higher pressures found in the garage.
Dr. Daniel Aubin, Team Leader of the Indoor Air Quality Group at NRC’s Construction Research Centre, spoke at the SOCAAR Seminar on November 7th about two separate interventions to reduce residential exposures to pollutants from attached garages. These findings came from a joint study conducted by Health Canada and the National Research Council Canada, which tested the effectiveness of an exhaust ventilation in the garage and an improved sealing of the garage-house interface wall. Continue reading
Reducing air pollution is vital for the protection of public health. Short-term effects of polluted air include, interfering with being able to breathe deeply during exercising and impairing visibility from haze. Long-term effects for individuals may be a lifetime burden of reduced lung function because they don’t fully develop due to pollution exposure during childhood. Air pollution has also been linked to premature death from heath attacks.
Robert Harley, professor in the Department of Civil and Environmental Engineering at the University of California, Berkley, spoke about a model use to understand the emissions and atmospheric formation processes for formaldehyde pollutants at the SOCAAR Seminar on March 28th. Continue reading
Photo credit: www.lung.ca
Millions of people die each year from long-term exposure to fine particulate matter, classified as PM2.5. Studies have also shown a correlation between influenza-like illness and increased PM2.5. Although it’s well known that microorganisms exist in particulate matter (bioaerosols), the infectivity of viruses when they interact with particulate matter is relatively unknown. At the SOCAAR Seminar on March 7, Dr. Nicolas Groulx, a Postdoctoral Intern in the Department of Microbiology & Division of Infectious Diseases at Sunnybrook Health Sciences Centre and Research Institute and the University of Toronto, spoke about the effects of environmental pollutants on the infectivity of viruses in the air. Continue reading
Many energy conservation programs are driven by the goal of reducing carbon emissions. But air quality is also an important factor to be considered when implementing energy conservation programs. Dr. Andrew Knox, who works with CLEAResult, spoke at the SOCAAR Seminar on February 7th about the value energy conservation can provide to reducing air quality externalities. Continue reading
Dr. Cora Young, Assistant Professor in the Department of Chemistry at York University, presented their research into the chemical drivers of climate and the fate and transport of contaminants at the SOCAAR Seminar held on January 10th, 2018. The talk gave insights on the molecular composition of brown carbon, aging, and the limitations of mass spectrometry in detection and characterization of brown carbon.
Global carbon dioxide emissions have significant contributions from the electricity and heat generation sector. In 2011, this sector accounted for over 40 per cent of global emissions. Shifting power generation from fossil fuels to renewable energy can have a powerful role in reducing emissions. The IEA forecast for the share of renewable energy in global power generation has grown over the last decade. But limitations to profitable clean energy projects exist due to high upfront costs and a lack of accessible financing.
CoPower is a clean energy finance and crowd investment company that matches clean energy firms with investors by selling retail green bonds. Jonathan Frank, director of clean energy projects at CoPower, spoke about creative financing solutions to support the growth of Canada’s clean energy industries at the SOCAAR Seminar on July 5th. Continue reading
Cities with growing populations have turned to urban planning strategies like mixed-use development. In this type of development Individuals who live, work, and seek entertainment in these urban areas can be exposed to air pollution that is regionally transported and from locally emitted sources.
Urban air pollution measurements typically rely on a few, widely separated monitoring sites to assess population-scale exposure. Existing monitoring techniques may not be able to capture the spatial variability of the air pollutant. Dr. Naomi Zimmerman, a Postdoctoral Research Associate at Carnegie Mellon University’s Department of Mechanical Engineering, spoke about her research to characterize urban spatial and temporal pollutant gradients across Pittsburgh at the SOCAAR Seminar on May 29.
The chemical production industry is currently among the largest users of fossil fuel and is responsible for about seven per cent of global greenhouse gas (GHG) emissions. Yet the majority of policies and government programs around the world incentivize biofuel usage in the transportation section while few programs exist to encourage using biomass in the chemicals industry.
Dr. Daniel Posen, an Assistant Professor in the University of Toronto’s Departments of Civil Engineering, spoke about the use of biomass as a strategy for reducing GHG emissions in the North America at the SOCAAR seminar on April 5.
Toronto has a high concentration of multi-unit residential buildings (MURBs) with the bulk that were built during the 1960s and 1970s. Today, these buildings are mostly owned by social housing and around 29 per cent of all rental units in Toronto are social housing MURBs. Current issues with MURBs are linked to energy usage not being considered when these buildings were built and also not being well maintained. Toronto is now In the midst of a second boom for MURBs but there is limited data on how the newer MURBs are performing.
At the SOCAAR Seminar on March 1st, Dr. Marianne Touchie, Assistant Professor at the University of Toronto’s Departments of Civil Engineering and Mechanical Engineering spoke about why energy retrofits of MURBs should take a comprehensive and not piecemeal approach.
Atmospheric fine particle mass mostly originates from emissions from motor vehicles, wildfires and other combustion processes. When emissions are exposed to oxidants and sunlight, they evolve chemically and physically to generate secondary particulate matter. Dr. Allen L. Robinson, Head of the Department of Mechanical Engineering at Carnegie Mellon University, shared results from their investigations of atmospheric evolution of emissions at the SOCAAR Seminar on February 1, 2017. Continue reading