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Full-Text Articles in Law
Fracturing The Rule Of Capture: The Improper Application Of The Rule Of Capture To Subsurface Intrusions Resulting From Hydraulic Fracturing, Alexis K. Désiré
Fracturing The Rule Of Capture: The Improper Application Of The Rule Of Capture To Subsurface Intrusions Resulting From Hydraulic Fracturing, Alexis K. Désiré
Seattle Journal of Technology, Environmental & Innovation Law
Imagine that during the course of hydraulically fracturing a tract of land—a process used to extract gas from low-permeability rock formations —a drilling company causes fractures, as well as some of the materials necessary to the fracturing process, to cross the boundary of its property line and enter an adjoining property—that is, it makes a subsurface intrusion onto a neighbor’s property. Assume further that, because the company’s fractures have extended into the neighbor’s property, oil and gas from the neighboring land travels to the company’s wellbore, causing the neighbor to bring a tort action against the company for harms related …
The Long-Term Problem With Electric Vehicle Batteries: A Policy Recommendation To Encourage Advancement For Scalable Recycling Practices, Lauren Fricke
Seattle Journal of Technology, Environmental & Innovation Law
With the growing popularity of electric vehicles, the demand for lithium ion (Li-ion) batteries, which are the dominant energy source for electric vehicles, are skyrocketing. By default, this means a growing demand for the raw materials needed to manufacture these complex batteries such as lithium, cobalt, and nickel. Economic, environmental, and political supply chain factors bring into question the sustainability of these batteries as a solution to the issues surrounding gasoline powered transportation, creating a need for large scale Li-ion battery recycling. By 2030, 140 million EVs are predicted to be on the road worldwide. In that time, eleven million …
Uranium 233: The Nuclear Superfuel No One Is Using, Maris Hanson
Uranium 233: The Nuclear Superfuel No One Is Using, Maris Hanson
Seattle Journal of Technology, Environmental & Innovation Law
Nuclear power offers more energy in less physical space than solar and wind and yields more energy per pound than fossil fuels. However different nuclear fuels yield different waste profiles and create different beneficial products. Uranium 233 (U233) resists use in nuclear weapons, yields beneficial daughter products, and produces dramatically less of the most problematic waste products than Uranium 235 (U235). U233 results from reactions with Thorium, a plentiful, ubiquitous element currently considered waste from rare earth mines. Additionally, U233 functions well in a liquid fuel reactor resulting in safer, more efficient reactors than current solid fuel U235 or Plutonium …