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Analyze

AUSTIN MESO

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Texas produces the highest quantities of crude oil, natural gas, and lignite coal in the United States, which, on top of its long history of legislative support for conventional energy industries, contributes to its reputation as a fossil-fuel state (EIA 2017). Nevertheless, Austin, the state capital, harbors a wealth of local residents and organizations invested in transitioning to clean-energy resources. Motivations behind these investments differ widely, however, ranging from concerns about public health and social and environmental justice to creating quality jobs and spurring economic growth. During preliminary fieldwork, I identified four unique-yet-overlapping collectives of clean-energy practitioners: 1) Austin’s public sector, 2) energy scientists and engineers, 3) energy business advocates and entrepreneurs, and 4) climate and social justice activists. Based upon initial fieldwork, these collectives appear to conceive of the risks, affordances, and the proper sociotechnical means of energy transition in divergent, if not conflicting ways. In this research, I ask if and how these diverse energy-transition imaginaries appertain to differences in conceptions of “good evidence” and the appropriate use of scientific research and knowledge in decision-making. By analyzing how different collectives of clean-energy practitioners determine the proper means of leveraging science in energy transition, I will gain an understanding of the data and evidentiary challenges entailed in city-scale energy transitions, and urban environmental governance more generally.

GEO

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Swearingen’s (2010) account of the mainstream environmental movement in Austin documents which of Austin’s “green spaces” were successfully and unsuccessfully protected from development and from the deleterious effects of nearby industries. However, Tretter (2016) and Busch’s (2017) studies provide a necessary supplement, documenting how the Austin’s lesser valued spaces (which are mostly populated by communities of color) have been routinely polluted both by residential waste (location of trash dumps) and industrial off-gassing (Sematech and Motorola plants). It is unclear, however, from these accounts whether or not, or to what extent the Austin landscape has be marked by its energy system in particular.

During preliminary research, I witnessed numerous residents of various professions attest to the impact of Austin’s coal plant (Fayette) and natural gas plant (Decker) on Austin’s air quality. During my time in Austin I will be conversing with locals about the impact of Austin’s power generation on the local landscape as well as travelling throughout the city, observing the landscape, visiting energy production sites and Desired Development Zones.

According to a study by Environment America, Texas is by far the highest emitter of airborne mercury, with a total of 11,127 in 2010 (Madsen and Randall 2011). Ohio, the next highest emitter, produced 4,218 pounds. Texas has 6 of the top ten mercury producing coal-fired power plants in the U.S.

BIO

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There is a strong correlation between the location of toxic development and manufacturing associated with Austin’s tech industry and the location of communities of color, both of which are predominantly found in East Austin. PODER has had appreciable success in combating these developments and enlisting the help of Austin’s liberal environmental elite to do so. The extent to which Austin’s environmental justice community and environmental sustainability community see eye-to-eye on this issue, however, remains a question for this research.

Techno

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By the early 20th century, the unpredictability of the Colorado River was seen as the primary “natural barrier” to development, and the early entrepreneurs saw that the river was both the key and the biggest threat (Swearingen 2010). The rocky canyons and ravines that had been cut into the Edwards Plateau above Austin offered ample choice locations to create reservoirs for controlling the flow and supplying water and power to its developing urban areas. The first failed attempt to dam the river was undertaken as early as 1890. Austin’s elite business class arranged the financing of this $1.4 million dam through municipal bonds and hailed the dam as the engineering feat of the century. With the promise of electricity and a steady water supply, they were certain that it would bring Austin into modernity. However, this rhetoric did not hold water. In 1900, the first rise of the river since the dam’s construction completely destroyed the dam, caused $9 million in property damages, and killed 47 residents (Busch 2017). A few more private dams were built over the years, but these too would all succumb to the river’s turbulence. The first long-lasting infrastructural development to enable Austin to break free of its liquid boundaries wasn’t achieved until 1911 when a steel bridge was constructed followed by a trolley line. While the bridge rendered crossing the river less risky, and therefore successfully enabled the development of Austin’s southern neighborhoods (Swearingen 2010), this did nothing to help control the river and secure the water supply in times of drought. Developers were well aware that Austin’s growth would depend on an extensive system of dams, but there was simply not enough money to finance such an endeavor. Thus, a truly adequate system of water-management infrastructure would have to wait until the shift in economic philosophy that inspired the New Deal. Lyndon B. Johnson, a native Texan that quickly learned to master New Deal politics, managed to garner federal funds for the construction of numerous dams north of Austin, along with many other important infrastructural projects (Bush 2017). Two of the most important dams were the Tom Miller Dam (completed in 1940) and the Longhorn Dam (completed in 1960). These infrastructural successes garnered Johnson much fame and recognition and launched his political career (Sansom et. al 2008).

Today, Austin is a site of energy technology innovation. Austin Technology incubator has a strong energy focus, providing “niche management”. Pecan Street provides a means for incubated technologies to test and verify their innovations. From their website: “Pecan Street is the only organization or company that combines expertise in the ‘Internet of Things,’ high-velocity data acquisition, big data analytics, and lean product development to drive disruptive innovation for water and energy.”