School of Sustainability Graduate Culminating Experiences
Student capstone and applied projects from ASU's School of Sustainability.
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- Creators: Cobb, James
- Creators: Cardenas, Theresa
Description
The Arizona State University (ASU) Masters of Sustainability Solutions (MSUS) program connects student teams with real-world clients to solve real-world sustainability problems as a part of the students’ Culminating Experience in the program. This report details the project assigned to our group, the Emissions Data Detectives (EDD), in partnership with our client, Gannett Fleming. This project focuses on calculating greenhouse gas (GHG) emissions from the client’s leased office spaces across the United States and Canada.
In excess, GHGs trap heat in the atmosphere, negatively affecting global air quality and human health. In addition, top companies similar to our client are already disclosing their emissions, new legislation is aiming to require such reporting, and stakeholders are trending to gravitate towards firms measuring and reducing their environmental impact. During the first semester of this project, we noticed that Gannett Fleming lacked data on specific utility usage in their leased office spaces, as not all data is shared, standardized, or robust enough for accurate emissions calculations.
After conducting a landscape analysis where group members interviewed companies facing a similar problem, the team identified best practices for addressing this issue. Such practices included using mixed methods for calculations based on data availability, leveraging organizational connections for efficient communication with landlords, creating custom communication plans, and using concise language with landlords. The team also conducted an sTOWS analysis to understand better how our research could best be applied to Gannett Fleming’s problem. From there, we developed a project plan that included an Invitation to Participate and Data Request to collect the necessary data. Next, the team outlined strategies for emissions calculations, including applying calculations from the GHG Protocol and compiling all calculations in a navigable spreadsheet.
Greenhouse gas calculations were made using a mix of asset-specific data from the Data Request forms and average data from the EPA estimates using equations from Scope 3, Category 8, or Leased Upstream Assets per the Greenhouse Gas Protocol. Emissions were categorized under Scope 3 since the client has no control over the leased offices, and the control approach was used. Final results showed that the emissions calculated for the 8 offices where asset-specific data was used combined with the 31 offices where average data was used totaled 2,390 metric tonnes of CO2e for FY2022.
In order to ensure that this project can be helpful to Gannet Fleming long-term, we came up with three main deliverables including a GHG spreadsheet including all calculations and findings, a GHG roadmap with simplified step-by-step instructions of our methodology, and a Sustainable Leasing Policy information to ensure the client’s emissions reduction goals are communicated and considered in the decision-making process for future lease agreements.
This version contains results that have been edited to ensure client confidentiality. Offices have been anonymized, and numbers used are not representative of actual emissions findings.
ContributorsGutierrez, Lukas (Author) / Carlson, Chloe (Author) / Davitt, Akilah (Author) / Cobb, James (Author)
Created2023-04-24
ContributorsGutierrez, Lukas (Author) / Carlson, Chloe (Author) / Davitt, Akilah (Author) / Cobb, James (Author)
Created2023-04-24
ContributorsGutierrez, Lukas (Author) / Carlson, Chloe (Author) / Davitt, Akilah (Author) / Cobb, James (Author)
Created2023-04-24
ContributorsGutierrez, Lukas (Author) / Carlson, Chloe (Author) / Davitt, Akilah (Author) / Cobb, James (Author)
Created2023-04-24
Description
Groundwater is the life blood of the earth. It is the most precious natural resource we have, and we cannot survive or thrive without it. Having access to secure water supplies is essential. There are millions of groundwater wells worldwide affected by intensive groundwater pumping. WaterWorks4All can help solve the over pumping of renewable groundwater in communities effected by water uncertainty and scarcity.
Groundwater pumping in the US is significant, rated second in the world. Countries pumping the highest quantities of groundwater per capita are located in arid zones, where surface water is scarce and unreliable and where agricultural irrigation is well developed. Furthermore, groundwater is a common pool and there is little awareness of the cumulative implications of intensive groundwater pumping can do to a community’s water supply, leading to an unsustainable water supply.
New Mexico has been experiencing water supply diminishment leading to uncertainty in water supplies due to worldwide, regional and local atmospheric climate changes caused by rising greenhouse gases. There is strong scientific evidence that the current long-term drying trend, driven by warming and precipitation deficits, could worsen for years or decades into the future causing water scarcity and uncertainty (Udall, 2017). There is an urgent need for more groundwater management interventions. WaterWorks4All, is a groundwater well monitoring and usage reporting mobile application (App) to assist in increasing longevity of declining groundwater resources by stopping wastage, encouraging efficiency and providing self-governed conservation behaviors in the Middle Rio Grande. This solution takes an adaptation practical approach to water planning and management by providing a water management tool for users who rely on groundwater for agricultural crop production and domestic use well sharing. WaterWorks4All begins as a pilot project in collaboration with the Middle Rio Grande Conservancy District (MRGCD) (MRGCD, 2020), focused on a select group of users dependent on groundwater wells. During the pilot the App will be analyzed, designed, developed, and tested in a real world setting before it can be made available to thousands of water users.
Groundwater pumping in the US is significant, rated second in the world. Countries pumping the highest quantities of groundwater per capita are located in arid zones, where surface water is scarce and unreliable and where agricultural irrigation is well developed. Furthermore, groundwater is a common pool and there is little awareness of the cumulative implications of intensive groundwater pumping can do to a community’s water supply, leading to an unsustainable water supply.
New Mexico has been experiencing water supply diminishment leading to uncertainty in water supplies due to worldwide, regional and local atmospheric climate changes caused by rising greenhouse gases. There is strong scientific evidence that the current long-term drying trend, driven by warming and precipitation deficits, could worsen for years or decades into the future causing water scarcity and uncertainty (Udall, 2017). There is an urgent need for more groundwater management interventions. WaterWorks4All, is a groundwater well monitoring and usage reporting mobile application (App) to assist in increasing longevity of declining groundwater resources by stopping wastage, encouraging efficiency and providing self-governed conservation behaviors in the Middle Rio Grande. This solution takes an adaptation practical approach to water planning and management by providing a water management tool for users who rely on groundwater for agricultural crop production and domestic use well sharing. WaterWorks4All begins as a pilot project in collaboration with the Middle Rio Grande Conservancy District (MRGCD) (MRGCD, 2020), focused on a select group of users dependent on groundwater wells. During the pilot the App will be analyzed, designed, developed, and tested in a real world setting before it can be made available to thousands of water users.
ContributorsCardenas, Theresa (Writer of accompanying material)
Created2020-05-15
Description
The City of Phoenix is interested in bringing a plastic processing facility to the Phoenix metro area. A facility could potentially to increase the diversion rates of recyclables, allow for more efficient use of locally reclaimed material and bring new jobs to the Phoenix metropolitan economy. Contrary to the classic “put it in the bin, we’ll take care of it” attitude presented by large recyclers such as Waste Management and Republic Services, recycling economics are complex; often both a beacon of technological advancement and a lagger with regard to spot-market capabilities. Based on interviews with elite stakeholders and industry research, this mixed method paper will examine the current PET plastic recycling market and the potential for Phoenix to increase its circular manufacturing of plastic. The final analysis will culminate in a proposed set of recommendations that could help Phoenix achieve its long-term waste diversion goals.
ContributorsPunnett, Garr (Author)
Created2018