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The Sustainable Campus Community Plan will outline a framework for advancing ˿����Ƶ sustainability agenda and improving rankings. The plan will:

• Review Past Efforts: Evaluate sustainability initiatives since 2015, noting successes and areas for improvement.
• Sustainability Plan: Develop a cohesive plan aligning all sustainability activities with clear objectives, strategies, and monitoring metrics.
• Long-Term Sustainability Roadmap: Outline sustainable campus development options through 2030, with milestones towards net-zero emissions by 2050, integrating renewable energy, waste reduction, transportation, and green infrastructure.
• Priority Activities: Identify impactful initiatives for the next three years.
• Implementation and Monitoring: Establish timelines, responsibilities, and resources for priority activities alongside a monitoring framework to track progress toward sustainability goals.

The cabinet and the president will review and approve the recommended plan.
 

Timeline

• December 2024: Sustainable Campus Working Group compiles draft recommendations for further refinements and discussion
• Spring 2025: Sustainable Campus Working Group delivers reports with recommendations for advancing Bryant University’s sustainability agenda.

In 2024, Bryant partnered with for a new composting system on campus. The system, which produces about 60 percent of its energy, composts food waste eight times faster than natural composting methods and creates a liquid fertilizer in 2 to 3 weeks. The system processes all types of food waste including meat, dairy, vegetables, and other compostables.

Bryant University offers a series of courses that include a sustainability component.

View the full list

From geothermal to renewable energy credits and high-tech efficiency incentives, we have dramatically reduced gas and electricity consumption through strategic investments in LED lighting, high efficiency boilers, custom building automation controls, and other sophisticated mechanical systems.

We constantly seek new energy-saving measures as part of our Strategic Energy Management Partnership (SEMP) in collaboration with our gas and electric Utility provider. We just launched an exciting building analytics program that will identify further optimization and faults which will drive down energy consumption.

Bryant University has signed a power purchase agreement with Kearsage Energy for renewable energy credits from multiple solar farms in Rhode Island. This agreement provides off-sets on the electricity invoices from National Grid. Additionally, Bryant has entered into various solar farm facility agreements with Westerly Solar, Fogland Solar, West Shore Solar, and Smithfield Solar to increase our use of renewable energy. For the fiscal year ending June 30, 2023, Bryant had approximately 30 percent (equivalent to almost 5 million Kwh) of its electricity from solar power.

Bryant is also investing in solar power through a collaboration with AICU of Rhode Island. Along with five other private higher education institutions in Rhode Island, the plan is to purchase RECs from a solar farm in Newport, R.I., on the site of a former military installation.

Process for Calculating Scope 1 Emissions for Natural Gas

In FY 2024, ˿����Ƶ total Scope 1 (tCO2e) emissions was 3,402.2 tons, compared to 4,073.6 tons in FY 2019.

Bryant used the EPA NEWE conversion factors to calculate the emissions. To calculate the CO2 Emissions, we used the formula of natural gas consumption times the conversion factor for CO2 emissions. To calculate CH4 Emissions, we used the formula of natural gas consumption times the conversion factor for CH4 emissions. To calculate NOx Emissions, we used the formula of natural gas consumption times the conversion factor for NOx emissions. To arrive at the total Scope 1 CO2 emissions, we added the CO2 Emissions, the CH4 Emissions, and the NOx Emissions.

Process for Calculating Scope 2 Emissions for Natural Electricity

In FY 2024, ˿����Ƶ total Scope 2 (tCO2e) emissions was 3868.0 tons, compared to 3,961.7 tons in FY 2019.

Bryant used the EPA NEWE conversion factors to calculate the emissions. To calculate the CO2 Emissions, we used the formula of electricity consumption times the conversion factor for CO2 emissions. To calculate CH4 Emissions, we used the formula of electricity consumption times the conversion factor for CH4 emissions. To calculate NOx Emissions, we used the formula of electricity consumption times the conversion factor for NOx emissions. To arrive at the total Scope 2 CO2 emissions, we added the CO2 Emissions, the CH4 Emissions, and the NOx Emissions.

˿����Ƶ Scope 1 and Scope 2 emissions (tCO2e) for 2024 were 7,270.4, 768.4 tCO2e lower than in 2019.

Food, athletics, gym use, and healthcare are all components of campus health and wellness initiatives. Our NCAA Division I athletic teams, club sports, and popular intramural program illustrate the importance the Bryant community places on exercise and athletic excellence. Sustainability is becoming ever more present, with goals to increase the use of local food and fairly traded produce.

Bryant offers the NutriSOURCE program through its food service provider, AVI. NutriSOURCE is a revolutionary Wellness Program developed by AVI to assist our community members in embracing a healthy lifestyle. It’s a multifaceted approach to healthy foods, education, and awareness.

Our 465-acre Smithfield campus is surrounded by wetlands and forested tree coverage. The campus includes 54 buildings with 1.56 million square feet of conditioned space. The Academic Innovation Center is a LEED Silver certified building.

Our new construction program features green roofs, sustainable building materials such as CLT that captures carbon, and sophisticated, high efficiency mechanical systems. Our buildings prioritize the use of green building products, water-efficient plumbing fixtures, LED lighting, and optimized mechanical and building envelope systems. Our buildings feature daylight harvesting techniques, high standards for indoor air quality, views to nature, and enhanced health and safety features.

Bryant promotes sustainable land use practices by preserving wetland jurisdictional areas and buffers, limiting disturbance of forests, and locating all buildings within primary and secondary pedestrian walking sheds. The University obtained a variance to reduce parking requirements outlined in the Town’s zoning ordinance eliminating nearly 4 acres of impervious surfaces that would otherwise be required.

Our Athletic complex employs state-of-the art irrigation systems using a combination of well-water and domestic municipal supplies. We have an innovative approach to storm water management that utilizes swales, sand filters, underground detention systems, and other features such as a central pond in the center of our campus to collect runoff from our parking lots. Our beautifully maintained campus balances natural conservation mixes of grass/wild flowers, artificial turf surfaces, and local plant species native to our geographic area and climate. These practices promote natural habitats for birds and wildlife, reduce use of fertilizers, and conserve water.

The campus is served by RIPTA mass transit and an internal transportation network that includes gas powered and electrified shuttles serving the new Business Entrepreneurship Leadership Center. Transit stops are conveniently located within a 5- to 10-minute walk of our academic and residential buildings.

We plan to develop a campus-wide green building study and increase our use of green cleaning products and organic fertilizers by 60 percent. We use green seal products and kelp-based organic fertilizers on our main campus landscape areas.

Sustainable Purchasing

Whenever feasible, the university will prioritize purchasing items that contain recycled content and/or are considered sustainable. Suppliers of these products will be required to provide annual reports to Bryant detailing the quantity and dollar value of purchased goods. Additionally, efforts will be made to ensure that service providers operating on campus adhere to environmentally friendly practices.

Sustainable Donations

The university welcomes charitable contributions from donors. However, it reserves the right to decline gifts that, in its sole judgment, conflict with the university’s commitment to sustainability.

EV Charging Stations

The provides guidelines for the use, maintenance, and responsible operation of the EV charging stations located across the Bryant University campus.

From RIPTA buses to car-sharing services, sustainability within our transportation options is rising. With the opening of the Business Entrepreneurship Leadership Center, Bryant now offers shuttle services between the Tupper Campus and the BELC through three electric vans. We are also increasing the number of electric vehicle charging stations on campus from 10 to 15, with five installed at the BELC. We hope to reduce fuel use by 10% from a 2010 baseline by 2025 and increase ride-sharing by 10% from a 2010 baseline by 2025.

RIPTA is free for Bryant University students with a valid student ID.

Our waste reduction and recycling goals include curbing waste in the dining halls, properly disposing electronics, instituting behavior change programs in the residence halls, and managing discarded materials from move-out at the end of the academic year.

We use more than 65 million gallons of water every year to maintain campus buildings and grounds. Strategies for reducing water use range from fixing leaks and installing efficient appliances to efficient landscaping and behavioral change. The goal of our sustainability plan is to cut campus water use by 10 percent by 2025.

Student groups, faculty, staff, and administrators’ involvement demonstrates and drives community engagement. The John H. Chafee Center for International Business and the Executive Education & Career Accelerator promote our core mission and engage local and global communities.

Bryant Organizations

• a student club that promotes sustainability on and off campus through events, outreach, and collaborations

Academic and Research Opportunities

• Departments with faculty engaged in sustainability research: Biological and Biomedical Sciences, Marketing, History, Literature, and the Arts, and Mathematics and Economics.
• Immersive programs: Past programs have included traveling to a Swedish university to study economic and technological climate change issues and coral reef studies in Australia.
• An annual outdoor field study, sponsored by the Department of Biological and Biomedical Sciences and supported by a NASA grant, takes students to environmentally significant locations in the United States. Past sites include redwood forests on the California coast and fossil sites in Idaho.
• Student internships with various NGO and governmental organizations, including , Apeiron Institute, , , and , in Key West, Florida.

Students:

• Vincent Emery
• Grace McKenzie
• Lily Kimball
• Paulina Herrera
• Leo Donnelly
• Abbie Ciriello
• Megan Sevigny

Staff:

• Thomas Mann (Associate Vice President of Planning, Design, and Construction)
• Colleen Enestvedt (Coordinator of Student Activities and Services)
• John Ruppert (Deputy Director of Athletics)
• Paige Zuber (Social Media Coordinator)
• Michelle Marcano (Director of Purchasing)
• Scott Sargent (Director of Facilities)
• Andrew Michael (Horticulturist, Grounds)

Faculty:

• Robert Patalano, Chair (Lecturer, Biological and Biomedical Sciences)
• Alex Perullo (Professor, Politics, Law, and Society)
• Michael Gravier (Professor, Marketing)
• Hong Yang (Professor, Biological and Biomedical Sciences)
• Mary Ann Gallo (Lecturer, Communication and Language Studies)