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Student capstone and applied projects from ASU's School of Sustainability.

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Gannett Fleming Leased Office Emissions Report

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

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
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Gannett Fleming Leased Office Emissions Report: Emissions Data Detectives Final Report

ContributorsGutierrez, Lukas (Author) / Carlson, Chloe (Author) / Davitt, Akilah (Author) / Cobb, James (Author)
Created2023-04-24
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Gannett Fleming Leased Office Emissions Report: Public LL Engagement & Calculations

ContributorsGutierrez, Lukas (Author) / Carlson, Chloe (Author) / Davitt, Akilah (Author) / Cobb, James (Author)
Created2023-04-24
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Gannett Fleming Leased Office Emissions Report: Sustainable Leasing Policy

ContributorsGutierrez, Lukas (Author) / Carlson, Chloe (Author) / Davitt, Akilah (Author) / Cobb, James (Author)
Created2023-04-24

Creating a Green Growth Framework for Islands

Description
Islands are some of the smallest contributors to global carbon emissions, yet are among the most vulnerable to the impacts of climate change (e.g. rising sea levels, extreme storms, and declining fish populations due to warming seas). At the same time, due to their smaller scale and local limitations on

Islands are some of the smallest contributors to global carbon emissions, yet are among the most vulnerable to the impacts of climate change (e.g. rising sea levels, extreme storms, and declining fish populations due to warming seas). At the same time, due to their smaller scale and local limitations on resources, island communities have been driving adaptation efforts for responding to the impacts of climate change based on their lived experiences and indigenous knowledge. Recognizing that local community members are in the best position to advance sustainability solutions in their respective island communities, our project sought to uncover best practices of islands that are collaboratively working with their communities to promote sustainable development and adapt to climate change, while leading the way in measuring progress on the SDGs. To this end, we interviewed island leaders from Hawaii, Guam, and Tasmania, who have already launched strategies for achieving these goals, and combined their experiences into a framework requested by other island leaders to encourage locally-driven, culturally-relevant green growth initiatives in partnership with our project partner, the Local2030 Islands Network (Local2030IN). Through designing the framework, we learned 17 possible actions islands can take when developing their own green growth initiative, key insights for implementing the SDGs on islands, and how to work alongside a project partner to create a final deliverable.
Created2021-04-28

Supporting U.S. States in Integrating Agriculture into Climate Efforts

Description
Members of the United States Climate Alliance, all of which have committed to the goals of the Paris Agreement, are actively pursuing ways to mitigate climate change. This project is intended to support the integration of agriculture into U.S. state and territory efforts by aiding in the creation of an

Members of the United States Climate Alliance, all of which have committed to the goals of the Paris Agreement, are actively pursuing ways to mitigate climate change. This project is intended to support the integration of agriculture into U.S. state and territory efforts by aiding in the creation of an agricultural policy toolkit for Alliance members in partnership with the American Farmland Trust and the Coalition on Agricultural Greenhouse Gases. My contribution was phase one of the toolkit, for which I created fourteen state profiles of existing efforts related to agriculture and climate change and used these for a comparative analysis. I also developed an outline of the toolkit based on conversations and a list of partner ideas I maintained and drafted an internal protocol to assist in development and implementation. Further, I analyzed the outline using a sustainability framework to identify additional efforts that could strengthen the toolkit’s sustainability. In April 2019 I presented my phase 1 efforts and the toolkit plans alongside my partners at a C-AGG conference. Overall, through this project, I generated forward momentum for integrating and supporting agriculture in climate change efforts
ContributorsHarmon, Anna (Author)
Created2019-05-15

Biochar Briquettes: Alternative to Firewood and Charcoal Fuel

Description

Domestic energy is an important component of our day to day lives and is something we cannot live without. Imagine how life would be without a means to cook our food, to warm our house, life would be unbearable. As we enjoy these comforts rarely do we stop to think

Domestic energy is an important component of our day to day lives and is something we cannot live without. Imagine how life would be without a means to cook our food, to warm our house, life would be unbearable. As we enjoy these comforts rarely do we stop to think what the opportunity cost is. For those using renewable sources, it is not a big issue, but for those who rely on wood fuel, they have to strike a delicate balance between need for fuel and the need to conserve the greatest support systems of their livelihoods, the forests. The main source of energy for households in many developing countries is biomass, mainly from forests and woodlands. The continued use of firewood and charcoal fuel puts a strain on forests, resulting in adverse effects on the environment such as prolonged droughts, loss of biodiversity, dwindling water resources, changing weather patterns among other sustainability challenges. An alternative to firewood to charcoal lies in biochar briquettes. This paper discusses the role of biochar briquettes in mitigating climate change and serves as a step by step guide on how biochar briquettes may be produced.
ContributorsNganga, Patrick M. (Author)
Created2018

The Sustainability Fair: Building a Grassroots Movement Around Community

Description
People everywhere should be doing everything they can to be more sustainable so that climate change can begin to be mitigated. We are already feeling the negative effects of climate change, and they are thoroughly documented. Despite this people are not changing to be more sustainable fast enough. Many either

People everywhere should be doing everything they can to be more sustainable so that climate change can begin to be mitigated. We are already feeling the negative effects of climate change, and they are thoroughly documented. Despite this people are not changing to be more sustainable fast enough. Many either reject the idea of climate change, do not know what they could do, or are unaware of how climate change affects them. Sustainability also impacts more than just climate change. Living more sustainably can have positive impacts economically as well as positive impacts on human health. In a world that is so connected and with such a wealth of information, we can no longer afford to have communities in the dark. Leaders need to rise on a community level to make a difference. Leadership is an aspect of an organization or a project that can elevate it to new heights. A leader is not everything, but the difference a good leader makes is universal. In this paper I will teach you about organizing a sustainability fair that educates and engages marginalized communities that typically are not included in the conversation on how to save our world.
ContributorsSalinas, Jorge (Author)
Created2018-11-10
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Connecting Community and Climate: Transportation Electrification Options for Underserved Communities in Phoenix

Description

Underserved communities are disproportionately impacted by climate change, and current inequities present in our emissions-heavy transportation system only exacerbate these burdens. As of 2019, transportation accounted for 29% of total GHG emissions in the United States. Electric Vehicles (EVs) present an opportunity to lower emissions associated with transportation, as EVs

Underserved communities are disproportionately impacted by climate change, and current inequities present in our emissions-heavy transportation system only exacerbate these burdens. As of 2019, transportation accounted for 29% of total GHG emissions in the United States. Electric Vehicles (EVs) present an opportunity to lower emissions associated with transportation, as EVs emit zero tailpipe emissions. We define electric vehicles as cars, bikes, scooters, buses, and rail systems. As transitions to EVs occur, action can be taken to adopt more equitable practices within the transportation space, specifically in historically underserved communities.

In partnership with The City of Phoenix’s EV Department, and with additional support from the Housing Department, the EV Changers team developed a transportation-oriented survey to be distributed to the Edison-Eastlake Community (EEC) in Phoenix. Efforts to understand the EEC’s needs will lend to more efficient, connected, and accessible transportation in the upcoming transportation electrification movement.
ContributorsDavis, Stephanie (Author) / Dent, Sam (Author) / Georgiou, Stephanie (Author) / Keller, Adrian (Author) / Tsark, ISabella (Author)
Created2022-05

The Path to Net-Zero

Description
These documents were developed as part of the culminating experience project for the Masters of Sustainability Solutions (MSUS) graduate program. This report was developed for the ASU Foundation and the Fulton Center by Team Green Impact with the goal of establishing a facility based year for the foundation to meet their

These documents were developed as part of the culminating experience project for the Masters of Sustainability Solutions (MSUS) graduate program. This report was developed for the ASU Foundation and the Fulton Center by Team Green Impact with the goal of establishing a facility based year for the foundation to meet their 2035 net-zero target. Contents of this report include: Scope 1 and Scope 2 GHG emission measurements for the Fulton Center, GHG emission reduction recommendations, an infographic for internal stakeholder engagement, and an example net-zero strategy the foundation can utilize in their current and future building. The purpose of the report and the infographic is to inform next steps for reducing GHG emissions and to help the ASU Foundation make progress towards their net-zero target.
ContributorsFowler, Carissa (Author) / Boss, Lauren (Author) / Austin, Lesley (Author)
Created2023-05-01