Can workplace and building design help filter polluted air?

Research Project Name

A Breath of Fresh Air

What We Did

We conducted a three-year study focused on student life on university campuses, and the role of the residence hall in fostering student success. In the first phase of our research, we examined the study habits of high school seniors using surveys, focus groups, and one-on-one interviews to document their preferred methods of learning before attending university.

We then conducted surveys, focus groups, and meetings with university students and administrators to understand challenges that current college students face regarding studying and focusing specific to their living situations. Ultimately, we used this information to identify areas for improvement, measure students’ perceptions of the on-campus living experience, and understand the challenges faced by facilities and building managers as solutions are developed.

The Context

The World Health Organization has set the allowable AQI (Air Quality Index) level at 50; it is not unusual for Shanghai residents to experience levels over six times that amount. Many commuters wear particulate masks on their way to and from work, and even while working on days when AQI levels rise above 300. Pollution in China is an urgent problem that not only affects indoor air quality and occupant health, but also contributes to increased energy consumption to filter and circulate indoor air, reduced natural daylighting due to heavy smog, and decreased productivity and overall well-being among workers.

As our clients continue to seek LEED certification for new projects, addressing issues of daylighting, energy consumption, and ventilation is an ongoing challenge in such heavily polluted environments. Local economies and communities also suffer as people remain reluctant to breathe outside air, and become less willing to leave their homes and workplaces.

The Results

Concerns about air pollution are part of daily life in China. In a survey we conducted with 150 residents, respondents stressed both the significant challenges air pollution adds to their daily lives, and expressed a feeling of helplessness about solving the problem—when asked if there was anything they could do to improve air quality, 4 of 5 respondents said no.

Air pollution isn’t just a respiratory issue; it has broad-reaching effects. Contaminated air not only affects respiratory health but also contributes to decreased daylighting. Smog clouds concentrate and dissipate over hours, days, and seasons, and our designs need to not only provide clean indoor air, but also be able to respond to fluctuating levels of daylight. Interestingly, while it was originally believed that pollution in Shanghai was worse in winter months due to increased coal burning, through analyzing meteorological data, we determined that it was also due to a seasonal change in wind direction.

Traditional air filtration helps building air quality, but also compounds broader issues via increased energy consumption. The importance of dramatic energy reduction and clean energy generation in building design may be one of the biggest takeaways from our research. Significant amounts of energy are consumed to filter air. Our own research shows a 7 percent increase in energy consumption in commercial office buildings (COBs) with the addition of air pollution filtration systems, even in those that achieve LEED Platinum certification. COB energy demand accounts for 60 percent of the total energy demand in metropolitan cities. If 7 percent is added to the existing 60 percent, it only creates a larger problem if that energy is 70 percent supplied by coal, as it is in China. Personal home filters are even worse, adding 1,280 grams of pollutant an hour at the energy source, while filtering only 62 grams in that same hour.

Much of the energy consumption and pollution in China are due to U.S.-owned and other foreign-owned industry. In thinking about energy conservation, those living outside of China should also consider the impact of buying goods that are manufactured in China. A recent study conducted by Peking University and UC Irvine found that 24 percent of pollution on the U.S. West Coast can be linked to manufacturing U.S. products in China.

What This Means

We can’t rely on air pollution reduction; we need to design buildings to address this issue now. Reducing air pollution is absolutely necessary, but it is not something we can take for granted. We must continue to design buildings to withstand high levels of pollution. In China, the carbon cap will not be put into effect until 2030, which is more than a decade away. Even after the carbon cap, pollution migration still remains a major threat as countries such as Iran, Pakistan, Bangladesh, and Mongolia continue to be big polluters in the region, with their pollution often drifting over to China.

We must continue to encourage the use of public transit and reduce pollution due to automobile traffic. Currently, 77 percent of survey respondents commute by some means other than automobile, but car sales continue to increase. China has 128 car owners per 1,000 capita compared with 809 in the U.S., but the sulfur content in China's fuel is significantly higher. Through government planning bureaus, we must use design to shift the focus away from the luxury and convenience of automobiles, and encourage increased use of public transit.

Public education must emphasize that air pollution is a problem not unique to China, and that it can be resolved. Our research also uncovered a general lack of understanding about the topic of pollution—the sources of pollutants, what it means to talk about particulate matter, and how pollution has changed historically—not just in China, but in other major cities as well. By instead emphasizing cleanliness and the idea of “clean” design, we can simplify conversations to express the benefits of a pollution-free environment to our clients, colleagues, and communities.

What’s Next?

It remains a tremendous challenge to reduce indoor air pollution while also reducing energy consumption within a building. It is vital that we take the lead in designing buildings throughout Asia that address both issues simultaneously.

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Dan Winey, Ray Shick, Kyle Mertensmeyer, Clifford Champion, Ryan Choe, Tom Ford, Danielle Gharst, Russell Gilchrist, Ningning Guan, Yangchao Ni, Amber Sun, Hai Tran, Vickie Wang, Weiwei Wei, Brad Wilkins, Zang Wu

Year Completed