Title
Do the age of homes in Sacramento County Correlate to Poor Wintertime Air Quality?

Author

Janice Lam
American River College, Geography 350: Data Acquisition in GIS; Spring 2010
Contact Information (lamj3@arc.losrios.edu)

Abstract

During the winter time in Sacramento County, PM2.5 becomes the main air quality pollution problem.  Wood smoke is the greatest emission during the months of November through February.  Through a simplified analysis of attempting to find a correlation between the age of homes/frequency of homes built after year 2000, a relationship could not be found trying to relate the two information.  While the air quality monitoring site Del Paso Manor had the highest percentage of “newer” homes within a 3 mile radius, it also had the highest PM2.5 concentrations between the years of 2005-2007. 

Introduction

Air pollution problems in Sacramento County can be must be dealt with differently during different times of the year. During the summer time month, ground level ozone causes most of the summer time air quality problems. During the winter months, fine particulate matter pollution (PM2.5) becomes the issue.

There are many contributing sources to PM2.5 emissions in the Sacramento County, such as emissions from diesel trucks, unpaved road dusts, wildfires.  One of the main contributing factors for PM2.5 for the Sacramento County is emission from wood burning devices.  Many of these wood-burning devices were installed in older homes, while the newer homes now come with gas burning fireplaces.  Current rule already in place includes a no burn program during days when air quality is forecasted to be poor.

The hypothesis here is whether these ages of homes, since older homes tend to have a traditional fireplace or woodstoves while newer construction homes tend to have gas fireplaces which do not emit smoke.  This project will attempt to investigate is whether the age of homes in the county can be correlated to poor air quality during the wintertime.  Whether or not a targeted program towards neighborhoods would result in an air quality benefit -to see if there is a correlation between the age of neighborhoods and the local air quality.  The general approach will be to obtain household age information from the US census and the Sacramento GIS database and correlate it with wintertime air quality PM2.5 values to see whether or not there are distinct and significant biases towards one neighborhood versus another.

Background

Particulate matter 2.5 (PM2.5) is the term for solid or liquid particles found in the air. Some particles are large or dark enough to be seen with the naked eye and can take the form as soot or smoke. Others are so small they can be detected only with an electron microscope. Because particles originate from a variety of sources (cars, buses, diesel trucks (mobile), fireplaces, woodstoves, power plants (stationary), etc.), their chemical and physical compositions vary widely.[1] Particulate matter can be directly emitted or can be formed in the atmosphere when gaseous pollutants such as Sulfur dioxide (SO₂₎ and Nitrogen dioxides (NOx) react to form fine particles.  In 1997, the PM NAAQS, the EPA supplemented its regulations on PM10 with new regulations on PM2.5. The terms "fine" and "coarse" were originally intended to apply to the two major atmospheric particle distributions which overlap in the size range between 1 and 3 microns. Now, "fine" has been defined by EPA as PM2.5 and "coarse" as PM10–2.5. However, PM2.5 may contain, in addition to the fine-particle mode, some of the smaller sized "coarse" particles. See Figure 1 for actual size of a PM2.5 particle.

Figure 1: Diagram of Particulate Matter 2.5

Sacramento County exceeds state or federal health standards for fine particle air pollution

(PM2.5). The burning of wood or other solid fuel constitutes the single largest source of fine

particle emissions for this region during the wintertime. 

During the Sacramento Air Quality Management District’s Rule 421, Mandatory Episodic Curtailment of Wood and other Solid fuel burning analysis in 2009[2] the District contracted with Sonoma Technology Institute to conduct analysis on whether or not banning wood burning on poor air quality days would improve and help the region meet PM2.5 federal air quality standards.  They did three different analyses, a cluster analysis, a chemical mass balance (CMB) modeling and numerical modeling.  Two of these analyses (Cluster analysis and numerical modeling) involve weather information, and its conduciveness to air quality data.   While the CMB modeling indicated and speciated the emissions that would attribute to the amount of wood smoke on “high” PM2.5 days.  Neither of these analyses examined outside of the meteorology aspect of where these emissions could have been from. 

Methods

The approach used to test this hypothesis will be to gather census data from the Census Bureau database on the effective year the homes were built, and the relative statistics to show if there is a correlation between high PM2.5 concentrations and the years the homes were built.  By using ArcGIS to combine housing data and the location of the air quality monitoring sites, the frequency distribution, and the average age of the homes within a certain distance from the air quality monitoring site can be used to roughly deduce whether or not there is an indication of newer neighborhoods with the newer fireplaces can produce better air quality. 

There are three air quality monitoring sites that will be used for this project; Del Paso Manor, T street, and Health Department site.  These sites have been sited by the local air quality agency to represent the ambient air quality in Sacramento County (Figure 1), other pollutant data is also collected at these sites such as ozone, CO2, and NOx.  The three years that air quality data that is used for this project are years 2005-2007.  The reason for using a little bit of an older dataset is because during the summer of 2008, there were summer PM2.5 anomalies due to the wildfires that occurred in California.  The air quality statistics that will be used for this basis is the design value for the air quality site (the calculated value used to compare one air quality monitoring site to another, calculated using ambient air quality data) The statistic from the homes data will be the frequency of newer homes near the three sites.  The average age of homes would not be helpful in this cause because some homes that are much older (ej 1800 vs 1950s) may skew the average. Three mile buffer zones were created for each monitoring site. This allows for calm low wind speeds days but still being on a somewhat local scale. 

Figure 2. Sacramento County Monitoring Stations

Figure 3: Del Paso Manor Air Quality Site with Buffers of 3 Miles

Figure 4: Health Department Air Monitoring Site with 3 mile Buffers

Figure 5: T street Air Quality Monitoring Site 3 Mile Buffer

Results & Analysis

The percentage of “newer” homes (defined as built after year 2000) to “older” homes (homes built before 2000) at each monitoring station did not vary greatly.  Table 2 shows the percentages of homes that were built after the year 2000 at each of the monitoring stations within a 3 mile radius.

Table1: Percentage of Homes with Effective Date year 2000 or Above

There does not seem to be a strong correlation between the percentages of homes that were built after year 2000 and ambient PM2.5 air quality concentrations.  While DPM does have the highest percentages of homes built after 2000, it shows in Table 1 that it is also the highest design value site in the Sacramento County.

On average, the air quality data shows that the design value at the Health Department Air Quality site is lower than the other two sites consistently through 2005 to 2007, as shown in Table 1.  In addition to that, there were on average lower number of days that exceeded the national PM2.5 24-hour standard than of the Del Paso Manor Site and the T street monitoring site in 2007. 

Table 2: Air Quality Monitoring Site Design Values

Results from the analysis shows that the frequency of newer homes within 3 miles of the Health Department Air Monitoring Site is not greater than of the Del Paso Manor Site and the T street Air Monitoring Site. Refer to Figures 5-7.   See Figures 6-8 for the frequency of the newer homes at each of the three monitoring site locations.  As stated earlier, the percentage of homes that were built year 2000 or after near the Del Paso Manor Site is greater than of the other two sites. 

Figure 6: Health Department

Figure 7: T street

Figure 8: Del Paso Manor

Conclusion

It could not be concluded that there is a correlation between the age of homes and the ambient PM2.5 using the method stated in this analysis.  The analysis did not show that if a neighborhood had a higher percentage of newer homes that the local air quality for PM2.5 would be any better than of an older neighborhood.  This was a simplified method that did not consider meteorology such as wind direction or wind speed, and information on the actual wood burning behaviors within the certain area. 

References

California Air Resources Board, 2010. website: http://www.arb.ca.gov/adam/welcome.html, accessed April 1, 2010

Environmental Protection Agency, 2010 website: http://www.epa.gov/air/particlepollution/basic.html, accessed May 5, 2010.

Factfinder Census website: http://factfinder.census.gov/servlet/DatasetMainPageServlet?_program=ACS&_submenuId=&_lang=en&_ts=, accessed April 1, 2010

J.Chow, J.Watson, L-W. Chen, D. Lowenthal, R.Countess, S.Countess, 2004. Temporal and Spatial Variations of PM2.5 During CRPAQS Winter Intensives

SMAQMD, 2008. Rule 421, Mandatory Episodic Curtailment of Wood and Other Solid Fuel Burning Proposed Amendments