Matching Items (2)
Filtering by
- All Subjects: Systems
- Creators: Facemire, Challie
- Creators: Fonseca, Ernesto
Description
William Blake created a large body of artistic work over his lifetime, all of which is a testament to a unique man, a man who would not live by standards that he felt were binding and inadequate. Blake stated that he needed to create his own system so as not to be enslaved by a paradigm not of his own making. The result of this drive can be seen in his mythology and the meaning that he attempts to inscribe upon his own world. Throughout the corpus of his writings, Blake was working with complex systems. Beginning with contraries in The Marriage of Heaven and Hell and The Songs of Innocence & Experience, he then took his work in the contraries and applied it to history and psychology in Europe a Prophecy and The First Book of Urizen. In Blake's use of history and psychology, he was actually broaching the idea of social systems and how they interact with and effect psychic systems. This paper looks at the genesis of Blake's systems through the contraries, up to the point where he attempts to bring social and psychological systems together into a universal system. He uses projection and introjection to try to close the gap in double contingency. However, grappling with this problem (as well as the issue of a universal system) proves to be too much when he reaches The Four Zoas. In his later works, some of these issues are resolved, but ultimately Blake is not able create a universal system.
ContributorsFacemire, Challie (Author) / Lussier, Mark (Thesis advisor) / Broglio, Ronald (Committee member) / Mann, Annika (Committee member) / Arizona State University (Publisher)
Created2012
Description
The following document addresses two grand challenges posed to engineers: to make solar energy economically viable and to restore and improve urban infrastructure. Design solutions to these problems consist of the preliminary designs of two energy systems: a Packaged Photovoltaic (PPV) energy system and a natural gas based Modular Micro Combined Cycle (MMCC) with 3D renderings. Defining requirements and problem-solving approach methodology for generating complex design solutions required iterative design and a thorough understanding of industry practices and market trends. This paper briefly discusses design specifics; however, the major emphasis is on aspects pertaining to economical manufacture, deployment, and subsequent suitability to address the aforementioned challenges. The selection of these systems is based on the steady reduction of PV installation costs in recent years (average among utility, commercial, and residential down 27% from Q4 2012 to Q4 2013) and the dramatic decline in natural gas prices to $5.61 per thousand cubic feet. In addition, a large number of utility scale coal-based power plants will be retired in 2014, many due to progressive emission criteria, creating a demand for additional power systems to offset the capacity loss and to increase generating capacity in order to facilitate the ever-expanding world population. The proposed energy systems are not designed to provide power to the masses through a central location. Rather, they are intended to provide economical, reliable, and high quality power to remote locations and decentralized power to community-based grids. These energy systems are designed as a means of transforming and supporting the current infrastructure through distributed electricity generation.
ContributorsSandoval, Benjamin Mark (Author) / Bryan, Harvey (Thesis director) / Fonseca, Ernesto (Committee member) / Barrett, The Honors College (Contributor) / Mechanical and Aerospace Engineering Program (Contributor)
Created2014-05