Matching Items (22)
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- All Subjects: Sustainability
- Creators: The Design School
Description
This thesis was conducted in order to determine the role played by food miles metrics in making the agricultural industry more sustainable. In an effort to analyze the importance of eat locally this study utilizes a partial life cycle assessment. This study looks at oranges grown in Arizona and California and inputs such as water, energy, fertilizer, herbicide, pesticide, frost mitigation, and distance in order to conduct the partial life cycle assessment. Results of this study indicate that food miles are not as significant, in relation to overall energy input, as the locavore movement claims. This is because production processes account for a larger portion of the total energy used in the food chain than what these claims suggest. While eating locally is still a significant way of reducing energy use, this thesis shows that decisions about eating sustainably should not only focus on the distance that the products travel, but place equal, if not more, importance on energy use differences due to geographic location and in-farm operations. Future research should be completed with more comprehensive impact categories and conducted for different crops, farming, and locations. Further research is needed in order to confirm or challenge the results of this thesis. With more research conducted regarding this topic, ecological labeling of agricultural products could be improved to help consumers make the most informed choices possible.
ContributorsMaggass, Melissa Gail (Author) / Manuel-Navarrete, David (Thesis director) / Martin, Thomas (Committee member) / Barrett, The Honors College (Contributor) / School of Sustainability (Contributor) / W. P. Carey School of Business (Contributor) / Department of Management (Contributor)
Created2014-05
Description
As the student union on Arizona State University’s main Tempe campus, the MU should be a model of building sustainability. After a fire engulfed the MU’s second floor in 2007, the building underwent major renovations and achieved LEED v2.0: Commercial Interiors (LEED CI) Gold certification. Since then, more up-to-date building certification programs have been established, including the Green Globes (GG) green building rating system and a more recent version of LEED that suits the MU’s situation—Existing Buildings: Operations and Maintenance (LEED EB:OM). This paper performs a cost-benefit analysis of these rating systems, specifically looking at 1) national recognition, 2) ease of use, 3) amount of resources needed to invest, 4) length of time of the certification process, 5) certification fees and costs, 6) pre-requisites and system structure of point allotment, and 7) flexibility of the systems. A review of the previous LEED CI certification of the MU addresses 1) solar panel installation and renewable energy achievements, 2) improvement of indoor air quality, 3) application of sustainable construction practices, 4) missed opportunities since renovations were not performed on the entire building, 5) water efficiency scoring, and 6) lack of significant Energy & Atmosphere improvements. A proposal for the university to consider LEED EB:OM certification for the Memorial Union will be presented, analyzing the points already secured by campus-wide programs and policies, credits that are possible with minimal funding, and elaborating on opportunities already planned for completion, including 1) the Power Parasol project, 2) “Zero Waste by 2015” and “Carbon Neutrality” programs and goals, and 3) plans for alternative transportation methods through the Tempe Campus Access Management Plan. In conclusion, my recommendation to pursue LEED EB:OM and achieve Silver level will be presented. With the majority of LEED points already secured and several on the horizon, certifying the MU under LEED EB:OM will set an example and increase the amount of existing buildings on campus to pursue LEED certification. University-wide policies on green cleaning, sustainable purchasing, alternative energy sources, carbon neutrality, and LEED for Multiple Buildings all contribute to simplifying the LEED certification process for ASU buildings campus-wide.
ContributorsHeppner, Mary Catherine (Author) / Brown, Nicholas (Thesis director) / Martin, Thomas (Committee member) / Bogart, Brooke (Committee member) / Barrett, The Honors College (Contributor) / School of Letters and Sciences (Contributor) / T. Denny Sanford School of Social and Family Dynamics (Contributor)
Created2013-05
Description
As society's energy crisis continues to become more imminent many industries and niches are seeking a new, sustainable and renewable source of electricity production. Similar to solar, wind and tidal energy, kinetic energy has the potential to generate electricity as an extremely renewable source of energy generation. While stationary bicycles can generate small amounts of electricity, the idea behind this project was to expand energy generation into the more common weight lifting side of exercising. The method for solving this problem was to find the average amount of power generated per user on a Smith machine and determine how much power was available from an accompanying energy generator. The generator consists of three phases: a copper coil and magnet generator, a full wave bridge rectifying circuit and a rheostat. These three phases working together formed a fully functioning controllable generator. The resulting issue with the kinetic energy generator was that the system was too inefficient to serve as a viable system for electricity generation. The electrical production of the generator only saved about 2 cents per year based on current Arizona electricity rates. In the end it was determined that the project was not a sustainable energy generation system and did not warrant further experimentation.
ContributorsO'Halloran, Ryan James (Author) / Middleton, James (Thesis director) / Hinrichs, Richard (Committee member) / Barrett, The Honors College (Contributor) / Mechanical and Aerospace Engineering Program (Contributor) / The Design School (Contributor) / School of Mathematical and Statistical Sciences (Contributor)
Created2014-05
DescriptionExplore the implications that both sustainability and branding have on the built environment in order to develop a health an wellness center that promotes a balanced lifestyle for two targets users, which are of entirely different demographics.
ContributorsRachford, Paris Kristen (Author) / Shraiky, James (Thesis director) / Brandt, Beverly (Committee member) / Thomson, Eric (Committee member) / Barrett, The Honors College (Contributor) / The Design School (Contributor)
Created2013-05
Description
An exploration of how architecture can react to American hyper-consumption of clothing products. With the goal to raise public awareness and create systemic, sustainable change in the fashion industry, this project synthesizes each part of manufacturing, including production, consumption, and post consumption, into one local campus. By bringing manufacturing back into the daily rhythms of an urban context and combining a prototypical mix of fashion related programs, ethically minded consumers are formed.
ContributorsMarshall, Jordan (Author) / Murff, Warren (Thesis director) / Smith, Brie (Committee member) / Hejduk, Renata (Committee member) / School of Sustainability (Contributor) / The Design School (Contributor, Contributor) / Barrett, The Honors College (Contributor)
Created2021-05
Description
The United Nations outlined seventeen goals in their 2015 resolution aimed at securing a more sustainable future for the entire world. These goals cover all parts of life and are meant to standardize quality of life at a high level for all countries. Specific to the Maasai people of Kenya and Tanzania, there are five main goals that would tackle some of the biggest issues facing the Maasai and greatly improve their lives. These goals include the promotion of good health and well-being, ensuring a quality education for school-age children, supporting efforts for gender equality in all communities, and securing clean and safe water and sanitation services for all people around the world. There are many Non-Governmental Organizations (NGOs) in the Maasai community that are striving to support them and realize these Sustainable Development Goals. Organizations like the Maasai Girls Education Fund and Aid Tanzania have established educational programs to support children, mainly girls, in their efforts to get an education. Others like End Water Poverty and the Maasai Association have programs to ensure safe, accessible drinking water is made available to Maasai communities across Kenya and Tanzania. Lastly, NGOs like My Chosen Vessels have programs that support the economic sustainability and livestock management of the Maasai while also ensuring that Maasai families receive clean water and access to an education. The work and practices of NGOs like these can serve as examples of how to efficiently and effectively address and tackle issues in developing countries, specifically regarding Maasai women and girls, to move closer to achieving these UN Sustainable Development Goals and lead a more sustainable future. Many studies have been done researching the political and economic struggles for Maasai communities and how it impacts them. Vandana Shiva coined the term, “Water Democracy” in her book Water Wars to express the multiple reasons why water is a necessity and right. Many Maasai groups do not have easy access to basic essentials for their everyday lives and NGOs have been noticing this more and more. Dorothy Hodgson writes about the history of Maasai NGOs, and mentions the multiple conflicts that they have had with each other, causing many Maasai groups to have different lifestyles. The connections between the history of the Maasai tribe, their current economy and their current relationship with the government and NGOs all impact women in their communities in different ways.
ContributorsWacloff, Jianna K (Author) / Martin, Thomas (Thesis director) / Oberle, Eric (Committee member) / College of Integrative Sciences and Arts (Contributor) / Barrett, The Honors College (Contributor)
Created2020-05
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
Description
College and university campuses can play an important role in a student’s life, and campus outdoor spaces have the ability to positively impact various aspects of student health and well-being. It has long been understood that natural environments can promote health and well being, and in recent years research has begun to examine the impact of parks and landscapes in urban settings on subjective well-being (SWB). Subjective well-being (aka “happiness”) refers to
one’s self-reported measure of well-being and is thought of as having a high level of positive affect, low level of negative affect, and high degree of life satisfaction (Diener, 1984).
This study was conducted to assess the interrelationships between affective experiences, SWB, and usage of campus outdoor spaces in order to learn how outdoor spaces on the Arizona State University (ASU) Tempe campus can be enhanced to increase SWB and usage. In total, 832 students completed a survey questionnaire 1,140 times for six campus outdoor spaces. The results showed that students experience the greatest amount of happiness in the Secret Garden
and James Turrell ASU Skyspace, relaxation/restoration is the affective experience most strongly related to SWB, and SWB is negatively correlated with frequency of visits but positively link with duration of visits. To improve student happiness and usage of outdoor spaces on campuses, planners and designers should work on increasing the relaxing/restorative qualities of existing
locations, creating new spaces for relaxation/restoration around campus, reducing the perception of crowding and noise in large spaces, increasing fun/excitement by adding stimuli and/or opportunities for activity and entertainment, and adding equipment necessary for students to perform the activities they want. In addition to the ASU Tempe campus, the methodology and
findings of this research could be used to improve outdoor spaces on other college and university campuses and other types of outdoor environments.
one’s self-reported measure of well-being and is thought of as having a high level of positive affect, low level of negative affect, and high degree of life satisfaction (Diener, 1984).
This study was conducted to assess the interrelationships between affective experiences, SWB, and usage of campus outdoor spaces in order to learn how outdoor spaces on the Arizona State University (ASU) Tempe campus can be enhanced to increase SWB and usage. In total, 832 students completed a survey questionnaire 1,140 times for six campus outdoor spaces. The results showed that students experience the greatest amount of happiness in the Secret Garden
and James Turrell ASU Skyspace, relaxation/restoration is the affective experience most strongly related to SWB, and SWB is negatively correlated with frequency of visits but positively link with duration of visits. To improve student happiness and usage of outdoor spaces on campuses, planners and designers should work on increasing the relaxing/restorative qualities of existing
locations, creating new spaces for relaxation/restoration around campus, reducing the perception of crowding and noise in large spaces, increasing fun/excitement by adding stimuli and/or opportunities for activity and entertainment, and adding equipment necessary for students to perform the activities they want. In addition to the ASU Tempe campus, the methodology and
findings of this research could be used to improve outdoor spaces on other college and university campuses and other types of outdoor environments.
ContributorsDavis, Kara (Author) / Cheng, Chingwen (Thesis director) / Cloutier, Scott (Committee member) / School of Sustainability (Contributor) / Dean, W.P. Carey School of Business (Contributor) / The Design School (Contributor) / Barrett, The Honors College (Contributor)
Created2019-05
Description
The suburbs provoke a deeply polarized reaction, more so than most other components of the urban landscape. Those who live in the suburbs often love them for their quietude and their spaciousness, even while urban designers lament suburban sprawl. Regardless, suburbs are deeply entrenched in patterns of American urban land use, so an evolution to more sustainable land use will require incremental changes to suburban landscapes. The purpose of this project is twofold: one, to design a transition to a more sustainable landscape for an HOA in Gilbert, Arizona; and two, to abstract the process of designing this transition so that it can be applied on a larger scale.
ContributorsRonczy, Patricia Sophia (Author) / Coseo, Paul (Thesis director) / Hargrove, Allyce (Committee member) / The Design School (Contributor) / Barrett, The Honors College (Contributor)
Created2018-05
Description
The trends of products made by today’s companies follow a traditional linear economy where materials for products and services are taken, made, and then used until they are disposed of. In this model cheap materials are relied on in large amounts and our current rate of usage is unsustainable. Pollution and climate change are effects of this linear economy, and in order to secure a sustainable future for life on this planet, this model is not fit. A circular business model is the future for companies and products. Circular design and biomimicry are at the forefront of this transition. In conjuncture with the InnovationSpace program, I have developed a product for, and sponsored by, Adidas. The product utilizes a circular business model and a sustainable product ecosystem after using biomimicry as a tool for inspiration. The project was driven by this primary research question presented by Adidas: How can we embrace a true circular economy with far more reuse and recycling incorporated, while ensuring that all products travel from factory to foot in a more sustainable way while providing an engaging consumer experience? The goal
of this project was to generate solutions that can be applied to a broad range of products at Adidas.
The product developed is called Neomod, a modular shoe system. People buy shoes both for fashion and function, with the average American owning nineteen pairs. However, countless numbers of partially worn shoes end up in landfills because the materials they are made of are difficult to separate and replace. This is why we designed Neomod; a modular shoe made with interchangeable parts. It makes recycling shoes simpler, but at the same time, provides users with a variety of styles to mix and match to fit their lifestyle. Neomod’s goal is to minimize the amount of waste created and allows all parts of the shoe to be used until its end of life. As consumers buy, recycle, and reuse Neomod shoes, they will help the world work towards a more circular economy.
The product developed is called Neomod, a modular shoe system. People buy shoes both for fashion and function, with the average American owning nineteen pairs. However, countless numbers of partially worn shoes end up in landfills because the materials they are made of are difficult to separate and replace. This is why we designed Neomod; a modular shoe made with interchangeable parts. It makes recycling shoes simpler, but at the same time, provides users with a variety of styles to mix and match to fit their lifestyle. Neomod’s goal is to minimize the amount of waste created and allows all parts of the shoe to be used until its end of life. As consumers buy, recycle, and reuse Neomod shoes, they will help the world work towards a more circular economy.
ContributorsReniewicki, Johnathan Robert (Author) / Sanft, Alfred (Thesis director) / Boradkar, Prasad (Committee member) / The Design School (Contributor) / Sandra Day O'Connor College of Law (Contributor) / Barrett, The Honors College (Contributor)
Created2018-05