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Adams_J: Hawaii's Setting: (Threatened) Potential for a Just Transition to Renewable Energy

jradams1

Being an archipelago, powering Hawaii's energy grid is a notable economic and technological challenge. As local resources and infrastructures for electricity production are limited, the state consumes nearly 7x more energy that it produces (EIA 2023). Much of Hawaii's power plants are powered by different forms of imported petroleum (including 76.4 Btu of jet fuel! (EIA 2023)), which makes up about 4/5 of the state's energy resource mix (EIA 2023). While they are comparatively easy to ship, these fuels are also much more expensive than other fossil fuels (such as natural gas or coal), which power many of the grids in the continental US. As a result, Hawaii has the highest retail price of electricity of any state in the US, at about 3x the national average price (EIA 2023). Another of Hawaii's energy disadvantages is that each island is run as a separate electricity grid, with no undersea electricity transmission cables. This means that, for grid security reasons, each separate island has to produce a surplus of energy (what's called an energy reserve margin target) to ensure grid reliability against unpredictable factors (such as a sudden operation failure of a power plant coinciding with an upswing in energy demand). For comparison, Hawaii Electric, which powers about 95% of the state's electricity (EIA 2023), set's its energy reserve margin at 30% (Hawaii Electric 2021), while most grids in the contiguous US shoot for a reserve margin of about 15%-20% (Energy Knowledge Base ND). 

That said, due in part to these stringent techno-economic challenges, Hawaii has also pushed quite strongly for the state's transition to renewable energy. Hawaii has set the date for 100% renewable energy to 2045, the earliest target date for this transition in the US. Oahu and Maui hit 34.5% renewable energy in 2021, surpassing the goal to hit 30% by 2020 (Oglesby 2021). A smaller electric coop reported that its energy mix achieved a whopping 60% renewables in 2020 (Oglesby 2021). Interestingly, rooftop solar (which is often seen as a less practical/less significant strategy for achieving renewable energy transition) made up the highest source of renewable energy (EIA 2023).

While these facts show promise for a cleaner and more sustainable and energy-independent energy system in Hawaii, these energy transition efforts have also posed new sociotechnical and ethical challenges of their own. Back n 2022,  the Hawaii State Senate passed a renewable energy bill that threatened to severely limit the state's ability to plan and implement a "just transition" to renewable energy. Rehashing many of the arguments against renewable energy in the contiguous US, the bill cited the "intermittency" of solar and wind power as a threat to grid security and thus proposed a policy that would require the state to produce at least 1/3 of its power from more "firm" renewable resources that can produce energy around the clock (i.e. hydroelectric dams, geothermal, and also biomass, renewable biodiesel, and renewable natural gas). While technically renewable, many of these so called "firm" sources continue to emit GHGs and other harmful pollutants that threaten the climate, ecosystems, and public health (Kane 2022). Others, like the hydro electric project in Kauai, continue to threaten the fishing and agricultural operations that many residents rely on for their own staples or for growing cash crops to produce their income (Lyte 2023). Using plantation-era ditch systems, Kauai's hydro project planned to divert an estimated 4 billion gallons of water from the Waimea River watershed, which would all but dry up the river's numerous braided streams upon which many residents depend. As Brittany Lyte notes in her article covering the issue (2023), this plantation-era practice reproduces the cultural and ecological destruction native Hawaiians have been facing and fighting against for over a century.

While activists continue to struggle to ensure that the Kauai hydro project will be ecologically and socially just, to the relief of many environmental and renewable energy advocates, the Hawaii Governor vetoed the aforementioned renewable energy bill in July of 2022. That said, the very fact that this bill passed the state senate illustrates the potential for "renewable energy" transitions to reproduce many of the same social, economic, and even climate and environmental justice issues and challenges that these transitions are (at least superficially) intended to mitigate or resolve.

Sources:

Energy Information Administration. 2023. “Hawaii Profile.” 2023. https://www.eia.gov/state/print.php?sid=HI.Energy KnowledgeBase. n.d. “Reserve Margin · Energy KnowledgeBase.” Accessed October 20, 2023. https://energyknowledgebase.com/topics/reserve-margin.asp.Kane, Julia. 2022. “A Hawaii Bill Would Limit Solar Power. Gov Ige Plans to Veto It.” Grist. July 5, 2022. https://grist.org/climate-energy/hawaii-governor-veto-controversial-renewable-energy-bill/.Lyte, Brittany. 2023. “The Shift to a Green Energy Future Is Renewing Plantation-Era Water Wars in Hawaii.” Grist. March 26, 2023. https://www.civilbeat.org/2023/03/the-shift-to-a-green-energy-future-is-renewing-plantation-era-water-wars-on-kauai/.Oglesby, Cameron. 2021. “Hawaii’s Renewable Outlook? Sunny!” Grist. February 24, 2021. https://grist.org/beacon/hawaiis-renewable-outlook-sunny/.

The Glass Plate

sgknowles

By Scott G. Knowles: As part of the STL Anthropocene Field Campus the research team visited the Wood Refinery Refinery History Museum on March 9, 2019. This museum is located on the grounds of the Wood River Refinery, a Shell Oil refinery built in 1917 and today owned by Phillips 66. The site is Roxana, Illinois, just upriver from Granite City, and just over two miles from the convergence of the Mississippi and Missouri Rivers. Sitting on the actual grounds of the refinery, the museum is an invitation to think across the micro, meso, and macro scales of the Quotidian Anthropocene, in terms of geography and also in terms of time. This refinery was built at the crux of the WWI, at a time when United States petrochemical production was entering an intensive phase of production, invention, corporate structuring, and global engagement. The museum is an invitation to think across temporal scales, backwards to the start of the refinery--through the individual lives of the workers and engineers whose lives defined the refinery--and forward to indeterminate points of future memory. This photo captures a key moment in an informal interview we did with one of the history guides. He had worked in the museum for decades before retiring. He explained to us that the museum sits in the former research facility of the refinery--and the glass plat he is showing reveals a beautiful artifact, a photograph made of the complex when it was built. Our guide only showed us this collection of slides after our conversation had advanced, perhaps after he was sure we were truly interested in his story, and the deeper history of the refinery. The pride in the place, the community of workers, and the teaching ability of the museum was manifest. The research team felt impressed, but also concerned about the health impacts (and naturally the environmental impacts as well) of the refinery. There was a mismatch in the scales--the memory of the individual tied to emotions of pride and knowledge of hard work done there--and the Anthropocene, global scale of petrochemicals. How do we resolve this mismatch? The glass plate is somehow a clue.

J_Adams: We need "regrouping" skills of Multi-sited/sighted ethnography

jradams1

It seems to me that our era is one of dispersion and disarticulation. This is not the same as the siloed domains of disciplinary society. These siloes are what has been undone. Cultural critique and also even transdisciplinarity have, I think, at times, been both symptomatic and catalyst of this wide-spread historical trend of dispersion. That doesn't mean we need to return to the siloes, it means we need to be smarter and more intentional in the way we coordinate our critiques and our collaborations.

It seems to me that what we need are new skills and expertise in what could be called "regrouping." This is a key dynamic of anthropology and ethnography since its very beginning. But it's even more apparent in contemporary, multi-sited/sighted ethnography: i.e. the intentionally constructed research designs inspired by Marcus's early work on the method.

I think we need theoretically informed coordinational capacities. Experimenting with new kinds of partnerships, organizational designs, production and flows of information.

J_Adams: CARB

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The Community Air Protection Program Online Resource Center is "a one-stop shop to obtain data, guidance, and tools to support improving air quality at the community scale. The Resource Center serves as a centralized repository of information and resources for use by community members, air districts, and the public. It will be continuously updated as new documents, materials, and data become available."

J_Adams: CARB AB617 Meeting

jradams1

See this recording and supporting documents for CARB's AB 617 Consultation Group Meeting on February 26, 2020.

"The AB 617 Consultation Group includes individuals representing environmental justice organizations, air districts, industry, academia, public health organizations, and local government. Consultation Group meetings provide an opportunity to discuss of various aspects of Community Air Protection Program implementation. Consultation Group meetings complement additional outreach and consultation efforts through a variety of forums including public workshops, community meetings, and discussions with individual organizations and stakeholders."

J_Adams: CARB's Accomplishments

jradams1

"CARB establishes state air quality regulations which protect public health by addressing all major sources of smog-forming air pollution, and other forms of air pollution. As a result, cars today are 99 percent cleaner than in the 1970s, resulting in less air pollution overall, shorter hospital stays and fewer days missed from school and work due to respiratory and cardiopulmonary diseases.

California regulations, based on extensive research and sound science, have driven innovation, leading to significant technological developments such as the catalytic converter (which helped slash ozone by 60 percent), and the production of highly marketable low- and zero-emission cars and trucks, and cleaner fuels.

The Global Warming Solutions Act of 2006 (Nunez) expanded CARB’s role to development and oversight of California’s main greenhouse gas reduction programs. These include cap-and-trade, the Low Carbon Fuel Standard and the zero-emission vehicle (ZEV) programs. As a result of these efforts, the state is on track to roll back carbon emissions to 1990 levels by 2020. With the passage of additional laws (such as SB 32 in 2014 and AB 398 in 2017), CARB is now mapping out how these programs and others can help California reach its next target: reducing greenhouse gas emissions an additional 40 percent below 1990 levels by 2030. The ultimate goal for California is to reduce greenhouse gases 80 percent below 1990 levels by 2050."