Note: [] J.D. 2012, Willamette University College of Law; with thanks to Professor Paul Graham, <tamartin@willamette.edu>.
Abstract: In this paper, I attempt to compare costs and benefits of the traditional model with distributed generation within the scope of wind-energy generation. In part II, I examine the following economic aspects of both models: in Section II.1, economies of scale; II.2, economics of permanence; II.3, allocation of costs and benefits among stakeholders. Traditional notions of economies of scale favour a larger model of production, though economist E.F. Schumacher presents an alternative view of production that would favour smaller-scale development. In part III, I discuss logistical and technological barriers to widespread application of the two models. In III.1, I examine the smart grid. Distributed generation may be dependent on a smart grid to maximize the benefits inherent in its “grassroots” structure, while the traditional model can flourish with or without technological advances in the grid. In III.2, I discuss facility-siting in both the rural and urban contexts. I examine the biggest logistical challenge for the traditional model, which is the transmission of energy from its rural generation facilities to population centers. I also discuss the potential for distributed generation in urban areas. While distributed generation in urban centers has been limited thus far to solar generation rather than wind, numerous companies are working on wind solutions that will work in an urban setting, with the potential for a tremendous impact on the way we think about energy.
DOI: 10.3233/CL-120065
Journal: Climate Law, vol. 3, no. 3-4, pp. 231-246, 2012