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- All Subjects: Sustainability
Description
ABSTRACT Recent studies indicate that top-performing companies have higher-performing work environments than average companies. They receive higher scores for worker satisfaction with their overall physical work environment as well as higher effectiveness ratings for their workspaces (Gensler, 2008; Harter et al., 2003). While these studies indicate a relationship between effective office design and satisfaction they have not explored which specific space types may contribute to workers' overall satisfaction with their physical work environment. Therefore, the purpose of this study is to explore the relationship between workers' overall satisfaction with their physical work environments and their perception of the effectiveness of spaces designed for Conceptual Age work including learning, focusing, collaborating, and socializing tasks. This research is designed to identify which workspace types are related to workers' satisfaction with their overall work environment and which are perceived to be most and least effective. To accomplish this two primary and four secondary research questions were developed for this study. The first primary question considers overall workers' satisfaction with their overall physical work environments (offices, workstations, hallways, common areas, reception, waiting areas, etc.) related to the effective use of work mode workspaces (learning, focusing, collaborating, socializing). The second primary research question was developed to identify which of the four work mode space types had the greatest and least relationship to workers' satisfaction with the overall physical work environment. Secondary research questions were developed to address workers' perceptions of effectiveness of each space type. This research project used data from a previous study collected from 2007 to 2012. Responses were from all staff levels of US office-based office workers and resulted in a blind sample of approximately 48,000 respondents. The data for this study were developed from SPSS data reports that included descriptive data and Pearson correlations. Findings were developed from those statistics using coefficient of determination.
ContributorsHarmon-Vaughan, Elizabeth (Author) / Kroelinger, Michael D. (Thesis advisor) / Bernardi, Jose (Committee member) / Ozel, Filiz (Committee member) / Arizona State University (Publisher)
Created2013
Description
ABSTRACT
Recent studies indicate that there is a positive influence of nature and nature integrated built environments on human health and wellness in various physical, physiological and social domains. This thesis critically reviews formally and contextually three distinct residential typologies designed by renowned architects Frank Lloyd Wright (1867-1959), Lina Bo Bardi (1914-1992), and Ryue Nishizawa (1966-), in different periods and countries; the United States of America (USA), Brazil and Japan. Yet, the buildings analyzed in the research are relatively connected by means of nature and the natural elements in their constructed essence. This research focuses on the features of the buildings that characterize the Biophilic Design, along with theoretical and practical ideas of the architects behind each building in their own process of formation.
The Biophilic Design Framework has been developed out of the Biophilia Hypothesis (Fromm, 1973; Wilson, 1984) which puts forward an explanatory suggestion that human affinity and affiliation with nature are based on genetic and environmental adaptation processes. This research is designed to display how specific natural phenomena apply to the built environment within the Framework of Biophilic Design (Kellert, & Calabrese, 2015) and how the Biophilia Hypothesis translates into the built environment. To accomplish this, two primary and three secondary research questions were developed for the study. The research will provide an understanding of the Biophilia Hypothesis and its impact on the built environment through the evaluation of research variables on the case studies using the ‘twenty-four attributes’ indicated in the ‘three experiences’ of Biophilic Design.
These architects’ approaches and the methods applied theoretically and practically to these research sites were unveiled and analyzed through three case studies. A positive correlation regarding the success of the case studies and their Biophilic characteristics is found by analyzing the research sites and critiques from the authorities in written literature. The applicability of the ‘Biophilic Design Framework’ was found and evidenced by the findings from these case studies designed by master architects and located in different climates, regions and contexts.
Recent studies indicate that there is a positive influence of nature and nature integrated built environments on human health and wellness in various physical, physiological and social domains. This thesis critically reviews formally and contextually three distinct residential typologies designed by renowned architects Frank Lloyd Wright (1867-1959), Lina Bo Bardi (1914-1992), and Ryue Nishizawa (1966-), in different periods and countries; the United States of America (USA), Brazil and Japan. Yet, the buildings analyzed in the research are relatively connected by means of nature and the natural elements in their constructed essence. This research focuses on the features of the buildings that characterize the Biophilic Design, along with theoretical and practical ideas of the architects behind each building in their own process of formation.
The Biophilic Design Framework has been developed out of the Biophilia Hypothesis (Fromm, 1973; Wilson, 1984) which puts forward an explanatory suggestion that human affinity and affiliation with nature are based on genetic and environmental adaptation processes. This research is designed to display how specific natural phenomena apply to the built environment within the Framework of Biophilic Design (Kellert, & Calabrese, 2015) and how the Biophilia Hypothesis translates into the built environment. To accomplish this, two primary and three secondary research questions were developed for the study. The research will provide an understanding of the Biophilia Hypothesis and its impact on the built environment through the evaluation of research variables on the case studies using the ‘twenty-four attributes’ indicated in the ‘three experiences’ of Biophilic Design.
These architects’ approaches and the methods applied theoretically and practically to these research sites were unveiled and analyzed through three case studies. A positive correlation regarding the success of the case studies and their Biophilic characteristics is found by analyzing the research sites and critiques from the authorities in written literature. The applicability of the ‘Biophilic Design Framework’ was found and evidenced by the findings from these case studies designed by master architects and located in different climates, regions and contexts.
ContributorsOrman, Pinar (Author) / Bernardi, Jose (Thesis advisor) / Harmon-Vaughan, Elizabeth (Committee member) / Zygas, Kestutis Paul (Committee member) / Heywood, William (Committee member) / Arizona State University (Publisher)
Created2017
Description
For most of our history humans have been closely tied to energy provided by the sun. Phases of light and dark initiate major biological functions within each day and regulate patterns of sleep and heightened alertness. Daylight was historically synonymous with sophisticated architecture, providing a mysterious play of light and illuminating productive tasks. It is only within the last 150 years that humans have sought to improve upon daylight, largely replacing it with artificially fueled systems. A new scientific approach to providing interior light has focused on the visible spectrum, negating the remainder of energy from our lives. This thesis considers the full spectrum of natural daylight, and its potential for improving human health, and well being. The literature review explores a brief history of solar architecture leading into the 21st century. A case study of the award winning Arabian Library in Scottsdale Arizona reveals four methods of passive daylight integration. A phenomenological ethnographic methodology assessed the impact of these four strategies on interior lighting quality, documented from the designer's perspective. As the science of photobiology continues to advance, it has become clearly evident that natural daylight provides more than mere illumination, and should be considered an essential element of the interior built environment.
ContributorsMarotta, Nickolas A (Author) / Bernardi, Jose (Thesis advisor) / Rowen, Marthe (Committee member) / Bauer, Kelly (Committee member) / Arizona State University (Publisher)
Created2013
Description
Our current water usage practices and consumption have run us into dire need for change: our over-usage from the Colorado River and depletion of groundwater resources have led us to draw out more than we can replenish, and this cycle is becoming increasingly more expensive.A solution to this from an architectural standpoint is to have the building work with the natural hydrological cycle of its respective site. In doing so, the building will not only benefit the environment of its site, but will provide the public with education on the need for greater
conservation.
This thesis project first looks to the Living Building Challenge’s Water Petal framework as standards for this building to follow. The framework outlines that the building needs to be water positive, meaning all the water needs to be taken from the environment, run through the building, and discharged back out into the environment in a safe manner that benefits the local environment. To begin my research, I first looked to case studies of buildings that incorporate elements of the hydrological cycles of their sites, studying how these buildings function
efficiently without causing damage or depleting resources. The project then goes onto analyze the site on which the building will sit. The prototype building is located in Papago Park, facing the Papago Buttes. The building itself is a meditation pavilion, providing a place for visitors to rest and enjoy the beauty of the natural landscape.
In terms of the water systems at work in the building, the project acquires water through several means. The first is through rain, in which the building catches rainwater on slanted planes of the roof as well as through a ground filtration system within the landscaped zones surrounding the building. The water filters through the soil, through multiple filters and eventually to a large storage tank below. Water is also collected using existing bioswales lining the nearby canal to harness water as part of the building system. This water is also filtered and sent to the storage tank. Because of the weather patterns we have here in Arizona, the storage tank is very large, needing to hold about 3,000 gallons of water. This water is then ready to be used by toilets or irrigation, or treated one step further through the process of ozonation to be used for sinks and drinking fountains. The blackwater, or sewage water, then gets pumped through a
membrane bioreactor in which sludge is sent to an anearobic digester and the remaining water continues to a constructed wetland where it ends its journey. Along the way, this water is pumped through a shallow channel in the ground in which people within the building can view as it makes its way out to the wetland. Upon reaching the wetland, the water will eventually seep back into the ground, replenishing the natural water table and thus completing the full loop cycle
of the project.
conservation.
This thesis project first looks to the Living Building Challenge’s Water Petal framework as standards for this building to follow. The framework outlines that the building needs to be water positive, meaning all the water needs to be taken from the environment, run through the building, and discharged back out into the environment in a safe manner that benefits the local environment. To begin my research, I first looked to case studies of buildings that incorporate elements of the hydrological cycles of their sites, studying how these buildings function
efficiently without causing damage or depleting resources. The project then goes onto analyze the site on which the building will sit. The prototype building is located in Papago Park, facing the Papago Buttes. The building itself is a meditation pavilion, providing a place for visitors to rest and enjoy the beauty of the natural landscape.
In terms of the water systems at work in the building, the project acquires water through several means. The first is through rain, in which the building catches rainwater on slanted planes of the roof as well as through a ground filtration system within the landscaped zones surrounding the building. The water filters through the soil, through multiple filters and eventually to a large storage tank below. Water is also collected using existing bioswales lining the nearby canal to harness water as part of the building system. This water is also filtered and sent to the storage tank. Because of the weather patterns we have here in Arizona, the storage tank is very large, needing to hold about 3,000 gallons of water. This water is then ready to be used by toilets or irrigation, or treated one step further through the process of ozonation to be used for sinks and drinking fountains. The blackwater, or sewage water, then gets pumped through a
membrane bioreactor in which sludge is sent to an anearobic digester and the remaining water continues to a constructed wetland where it ends its journey. Along the way, this water is pumped through a shallow channel in the ground in which people within the building can view as it makes its way out to the wetland. Upon reaching the wetland, the water will eventually seep back into the ground, replenishing the natural water table and thus completing the full loop cycle
of the project.
ContributorsLentz, Katelyn Emiko (Author) / Bernardi, Jose (Thesis director) / Bochart, Sonja (Committee member) / Maria, Miller (Committee member) / The Design School (Contributor) / Barrett, The Honors College (Contributor)
Created2019-05