"Other UBC"@en . "DSpace"@en . "UBCV"@en . "University of British Columbia. Sustainability Office"@en . "Cheng, Andrea"@en . "2015-07-08T21:09:41Z"@en . "2014-03-01"@en . "The University of British Colombia\u00E2\u0080\u0099s (UBC) Vancouver campus has exhibited promising\r\nsigns in its ability to expand public access to drinking water and reduce the use of bottled\r\nwater. Students have collaborated with faculty and staff on several research projects to attain\r\nthese two goals. Research completed in April 2013 through the SEEDS (Social Ecological\r\nEconomic Development Studies) program has determined the current availability of free\r\ndrinking water on campus and outlined how the institution could further improve accessibility.\r\nIn response, the university has created a committee to determine the economic transition and\r\nphase-out plan for bottled water, and improve access to drinking water on campus. The UBC\r\nTap Water Declaration Committee includes students from Common Energy as well as staff\r\nmembers from AMS Sustainability, Student Housing and Hospitality Services (SHHS), Campus\r\nSustainability, UBC Building Operations, and the UBC Department of Athletics and Recreation.\r\nThe committee has defined campus tap water access as:\r\nAccess to free fresh drinking water on campus in close proximity to every washroom, food\r\nservice locations and UBC\u00E2\u0080\u0099s high-density outdoor areas. Each access point is universally\r\naccessible, includes signage and bottle filling capabilities\r\nIn continuation to the work conducted through previous SEEDS projects completed in\r\nthe spring of 2013, this project will determine how the campus can make its water outlets more\r\nuniversally accessible and which drinking fountains are better suited to meet the campus\u00E2\u0080\u0099s\r\nneeds outlined in the tap water access definition.\r\nThe project objectives are:\r\n\u00E2\u0080\u00A2 To conduct a review of existing standards that apply to fountains at the University of British\r\nColumbia campuses based on technical guidelines, previous inventory work conducted,\r\nother documents, and interviews with key campus stakeholders.\r\n\u00E2\u0080\u00A2 Identify any corresponding modifications needed for the Technical Guidelines\r\n\u00E2\u0080\u00A2 To conduct a literature review of existing standards of fountains and universal accessibility\r\nwithin municipalities, parks and other campuses.\r\n\u00E2\u0080\u00A2 To conduct a review of each type of water fountain or outlet on campus according to the\r\nDrinking Water Outlet Assessment (Cheng, 2013), product specs, ergonomics/ease of use,\r\nuniversal accessibility, and the Tap Water Declaration Committee\u00E2\u0080\u0099s definition of tap water\r\naccess.\r\n\u00E2\u0080\u00A2 Identify which food service locations are in need of water outlets.\r\n\u00E2\u0080\u00A2 To determine the most appropriate fountain infrastructure that best suits the needs of the\r\ncampus population and develop an upgrade strategy for water fountains at UBC. \u00E2\u0080\u00A2 To suggest potential outdoor drinking fountains that the campus could consider for outdoor\r\nrecreational areas and public spaces on the main campus. Potential locations will also be\r\nprovided. Disclaimer: \u00E2\u0080\u009CUBC SEEDS provides students with the opportunity to share the findings of their studies, as well as their opinions, conclusions and recommendations with the UBC community. The reader should bear in mind that this is a student project/report and is not an official document of UBC. Furthermore readers should bear in mind that these reports may not reflect the current status of activities at UBC. We urge you to contact the research persons mentioned in a report or the SEEDS Coordinator about the current status of the subject matter of a project/report.\u00E2\u0080\u009D"@en . "https://circle.library.ubc.ca/rest/handle/2429/54029?expand=metadata"@en . " UBC Social Ecological Economic Development Studies (SEEDS) Student ReportAndrea ChengIncreasing Access to Drinking Water at UBCVOL 400March 01, 20149411553University of British Columbia Disclaimer: \u00E2\u0080\u009CUBC SEEDS provides students with the opportunity to share the findings of their studies, as well as their opinions, conclusions and recommendations with the UBC community. The reader should bear in mind that this is a student project/report and is not an official document of UBC. Furthermore readers should bear in mind that these reports may not reflect the current status of activities at UBC. We urge you to contact the research persons mentioned in a report or the SEEDS Coordinator about the current status of the subject matter of a project/report\u00E2\u0080\u009D. Increasing Access to Drinking Water at UBC Andrea Cheng March 2014 2 Table of Contents Executive Summary\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6 4 Introduction\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6.7 Background Information\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6.. 8 About the Author ........................................................................................................................................................... 8 Project Stakeholders and Staff ................................................................................................................................. 8 SEEDS Program ............................................................................................................................................................................. 8 AMS Sustainability ....................................................................................................................................................................... 8 UBC Student Housing and Hospitality Services (SHHS) ............................................................................................... 9 UBC\u00E2\u0080\u0099s Waste Action Plan ........................................................................................................................................................... 9 UBC Building Operations .......................................................................................................................................................... 9 UBC Department of Athletics and Recreation .................................................................................................................. 9 Common Energy .......................................................................................................................................................... 10 UBC\u00E2\u0080\u0099s Tap Water Declaration Committee .......................................................................................................... 10 Drinking Water Outlet Assessment ...................................................................................................................... 10 Rationale for This Project and its Scope ............................................................................................................. 11 1. Review of UBC's Guidelines\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6..13 2. Review of municipal and campus standards\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A616 Simon Fraser University ........................................................................................................................................... 16 University of Victoria ................................................................................................................................................. 17 The City of Vancouver................................................................................................................................................ 19 Universal Access in Winnipeg ................................................................................................................................ 20 York University\u00E2\u0080\u0099s Building Standards ................................................................................................................. 23 3. Review of UBC's water outlets\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A626 4. Water provision at UBC\u00E2\u0080\u0099s high-density outdoor areas\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6..64 Recommendations\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A674 UBC Building Operations .......................................................................................................................................... 74 Student Housing and Hospitality Services ......................................................................................................... 75 UBC Department of Athletics and Recreation .................................................................................................. 75 Campus and Community Planning ....................................................................................................................... 76 3 Conclusion\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6..77 Acknowledgements\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6..78 References\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6..79 Appendix\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6\u00E2\u0080\u00A6.81 4 Executive Summary The University of British Colombia\u00E2\u0080\u0099s (UBC) Vancouver campus has exhibited promising signs in its ability to expand public access to drinking water and reduce the use of bottled water. Students have collaborated with faculty and staff on several research projects to attain these two goals. Research completed in April 2013 through the SEEDS (Social Ecological Economic Development Studies) program has determined the current availability of free drinking water on campus and outlined how the institution could further improve accessibility. In response, the university has created a committee to determine the economic transition and phase-out plan for bottled water, and improve access to drinking water on campus. The UBC Tap Water Declaration Committee includes students from Common Energy as well as staff members from AMS Sustainability, Student Housing and Hospitality Services (SHHS), Campus Sustainability, UBC Building Operations, and the UBC Department of Athletics and Recreation. The committee has defined campus tap water access as: Access to free fresh drinking water on campus in close proximity to every washroom, food service locations and UBC\u00E2\u0080\u0099s high-density outdoor areas. Each access point is universally accessible, includes signage and bottle filling capabilities In continuation to the work conducted through previous SEEDS projects completed in the spring of 2013, this project will determine how the campus can make its water outlets more universally accessible and which drinking fountains are better suited to meet the campus\u00E2\u0080\u0099s needs outlined in the tap water access definition. The project objectives are: \u00EF\u0082\u00B7 To conduct a review of existing standards that apply to fountains at the University of British Columbia campuses based on technical guidelines, previous inventory work conducted, other documents, and interviews with key campus stakeholders. \u00EF\u0082\u00B7 Identify any corresponding modifications needed for the Technical Guidelines \u00EF\u0082\u00B7 To conduct a literature review of existing standards of fountains and universal accessibility within municipalities, parks and other campuses. \u00EF\u0082\u00B7 To conduct a review of each type of water fountain or outlet on campus according to the Drinking Water Outlet Assessment (Cheng, 2013), product specs, ergonomics/ease of use, universal accessibility, and the Tap Water Declaration Committee\u00E2\u0080\u0099s definition of tap water access. \u00EF\u0082\u00B7 Identify which food service locations are in need of water outlets. \u00EF\u0082\u00B7 To determine the most appropriate fountain infrastructure that best suits the needs of the campus population and develop an upgrade strategy for water fountains at UBC. 5 \u00EF\u0082\u00B7 To suggest potential outdoor drinking fountains that the campus could consider for outdoor recreational areas and public spaces on the main campus. Potential locations will also be provided. Review of UBC\u00E2\u0080\u0099s guidelines The review of UBC\u00E2\u0080\u0099s Guidelines discusses how UBC\u00E2\u0080\u0099s current Technical Guidelines and Custodial Guidelines direct the installation and maintenance of water fountains. These guidelines encompass how water fountains are installed in buildings and cleaned, but they do not include any guidelines that cover outdoor water fountains, accessibility for handicapped people, space requirements, lighting requirements, water pressure, and drainage. The main recommendation is that UBC Building Operations add a section in their Technical Guidelines on universal accessibility following the examples provided in the \u00E2\u0080\u0098Review of municipal and campus standards\u00E2\u0080\u0099 section. Review of UBC\u00E2\u0080\u0099s water outlets The review of UBC\u00E2\u0080\u0099s water outlets analyzes each type of water outlet found on campus. This review represents 174 water fountains and 9 bottle fillers found in 54 of the campus\u00E2\u0080\u0099s main buildings. Each type of outlet is evaluated according to the City of Winnipeg\u00E2\u0080\u0099s Accessibility Design Standards, outlet ergonomics for drinking and bottle filling, wheelchair accessibility, and bottle filling capabilities. The two water fountain types that satisfy most of the criteria are the newer Haws models accompanied by bottle fillers and the Elkay EZH2O. The Haws model is the most common fountain type on campus and often has a gooseneck bottle filler. The Elkay EZH2O model has recently been added to the UBC Technical Guidelines as the suggested water fountain model. This is an excellent choice because it offers maximum accessibility, an automated bottle filling mechanism, and a Green Ticker that counts how many plastic bottles are saved from waste. It is recommended that UBC Building Operations develop a fountain upgrade plan to increase accessibility where there are currently older water fountain models. The following list outlines the buildings that require higher-priority upgrades and the rationale behind each choice: \u00EF\u0082\u00B7 Chemistry Building \u00E2\u0080\u0093 High student traffic \u00EF\u0082\u00B7 Macleod Building \u00E2\u0080\u0093 High student traffic \u00EF\u0082\u00B7 Irving K. Barber Learning Centre (add EZH2O dispenser or gooseneck) \u00E2\u0080\u0093 High student traffic \u00EF\u0082\u00B7 Civil and Mechanical Engineering Building \u00E2\u0080\u0093 High student traffic \u00EF\u0082\u00B7 Biological Sciences \u00E2\u0080\u0093 High student traffic \u00EF\u0082\u00B7 War Memorial Gym \u00E2\u0080\u0093 Recreational facility \u00EF\u0082\u00B7 Student Recreation Centre \u00E2\u0080\u0093 Recreational facility \u00EF\u0082\u00B7 Doug Mitchell Thunderbird Sports Centre \u00E2\u0080\u0093 Recreational facility \u00EF\u0082\u00B7 Osborne Centre (Units 1 and 2) \u00E2\u0080\u0093 Recreational facility \u00EF\u0082\u00B7 UBC Tennis Centre \u00E2\u0080\u0093 Recreational facility Out of the sixteen food service locations visited, three (the Loop, Magma and Stir it Up) had push-back water dispensers and one had a mini kitchenette sink (Caffe Perugia). It is recommended that UBC Food Services install water outlets at food service locations that do not 6 already have them along with appropriate signage. It would also be ideal to consider putting in other designs, because the current design is not the most accessible to individuals who use wheelchairs. Literature review of municipal and campus standards This section outlines the various actions Simon Fraser University and the University of Victoria have taken to improve water provision on their campuses along with specific pieces of infrastructure these campuses use. It also identifies the outdoor water fountains the City of Vancouver installs in its parks and along its Greenways, as well as the logistics that are involved in installing new outdoor fountains around the city. The accessibility design standards from the City of Winnipeg and York University have been highlighted to provide a reference point for universal accessibility at UBC\u00E2\u0080\u0099s water outlets. Important aspects to consider include the height of the water fountain, the operating mechanism, the location of the operating mechanism on the fountain, space availability around the fountain, the trajectory angle of the water, and the water flow height or pressure. Water provision in UBC\u00E2\u0080\u0099s high-density outdoor areas Outdoor water provision at Thunderbird Park and Thunderbird Stadium can be achieved by installing hydrant outlets and outdoor water fountains to cater to the needs of athletes and spectators respectively. Further research and discussion needs to be done to determine the optimal and most economic water outlets to install. Once specific numbers of each outlet type are determined, quotes provided by suppliers will help determine which outlets are most feasible for the campus\u00E2\u0080\u0099s recreational fields. There are several locations around UBC\u00E2\u0080\u0099s main campus that would benefit from outdoor water fountains because they are either recreational areas or public spaces that are not directly adjacent to buildings with water fountains. It is recommended that the Campus and Community Planning department consider installing outdoor water fountains at the following locations or collaborate with other staff at UBC on the alternatives provided. \u00EF\u0082\u00B7 Public space outside Buchanan C/D/E \u00EF\u0082\u00B7 Public space on North side of Irving K. Barber Learning Centre \u00EF\u0082\u00B7 The UBC Bus Loop and MacInnes Recreational Field \u00EF\u0082\u00B7 The UBC Skatepark and adjacent basketball court \u00EF\u0082\u00B7 Grass oval south of the Forest Sciences Centre \u00EF\u0082\u00B7 Memorial Road by the Music Building and Frederic Lasserre Building These findings and recommendations will help the institution attain the standards listed in the new tap water access definition. It is highly recommended that the committee openly communicate their intentions with the various departments on campus, because the success of this initiative will require both the cooperation and collaboration from the university\u00E2\u0080\u0099s students and staff. Although this project has provided and cited specific accessibility guidelines, it would be ideal to engage with the public on this aspect of water provision. People who use wheelchairs should test out highlighted outlets to confirm or refute the access claims from this project. Further research should also focus on the best way to discard old water fountain models and determine if their materials can be down-cycled into other industry products. 7 Introduction The University of British Colombia\u00E2\u0080\u0099s (UBC) Vancouver campus has exhibited promising signs in its ability to expand public access to drinking water and reduce the use of bottled water. Students have collaborated with faculty and staff on several research projects to attain these two goals. Research completed in April 2013 through the SEEDS (Social Ecological Economic Development Studies) program has determined the current availability of free drinking water on campus and outlined how the institution could further improve accessibility. A social marketing strategy has also been developed through another SEEDS project to engage the campus in the reduction of bottled water use and effectively communicate where alternatives are available at UBC. In continuation to the work conducted through the previous two SEEDS projects in the spring of 2013, this project will determine how the campus can make its water outlets more universally accessible and which drinking fountains are better suited to meet the campus\u00E2\u0080\u0099s needs. 8 Background Information About the Author Andrea Cheng has completed her Bachelor of Science degree in the Applied Biology program within Land and Food Systems at UBC. Her specialization is in Food and the Environment, which has allowed her to complete a wide variety of courses including Climatology, Agroecology, Oceanography, Geographical Information Systems, Sustainability by Design, Environmental Geography, Research Methods in Applied Animal Biology, and Environmental Impact Assessment. She is completing this project as a member of the UBC Tap Water Declaration Committee through the UBC SEEDS Program. Project Stakeholders and Staff SEEDS Program The SEEDS (Social Ecological Economic Development Studies) Program is the first academic program in Western Canada to integrate students\u00E2\u0080\u0099 energy and enthusiasm for sustainability with faculty members\u00E2\u0080\u0099 research experience and staff members\u00E2\u0080\u0099 expertise to increase campus capacity to function as a sustainable institution. UBC\u00E2\u0080\u0099s SEEDS Program allows students to earn course-based credit working on sustainability projects, while receiving mentorship from faculty and staff. Students collaborate with faculty and staff to develop solutions for sustainability challenges on campus. To date, over 800 projects covering issues that involve materials, water, energy, transportation, land, food, climate, community and finance have been completed. The SEEDS Program Library allows the public to access all completed project reports and provides a historical record of sustainability at UBC (UBC Sustainability, 2013a). Acting staff member: Liska Richer \u00E2\u0080\u0093 UBC SEEDS Program Manager AMS Sustainability AMS Sustainability is the sustainability office of UBC\u00E2\u0080\u0099s Alma Mater Society. It has five employees and runs the $100,000 per year AMS Sustainability Fund as well as multiple ecological footprint reduction programs. These are achieved through their Lighter Footprint Strategy, which is informed through the UBC SEEDS Program. Acting staff members: Justin Ritchie and Jenna Singh \u00E2\u0080\u0093 AMS Sustainability Coordinators 9 UBC Student Housing and Hospitality Services (SHHS) UBC Student Housing and Hospitality Services (SHHS) provides accommodation for students, faculty and staff in eight residential complexes throughout campus. SHHS also encompasses the UBC Food Services Department, which is the primary food provider for the campus (UBC Student Housing and Hospitality Services, 2013). The AMS and SHHS have formed a memorandum of understanding (MOU), through which both parties have agreed to collaborate on the installation of WaterFillz stations across campus (Cheng, 2013) Acting staff members: Leith Blachford \u00E2\u0080\u0093 Communications and Marketing Manager Loriann Mcgowan \u00E2\u0080\u0093 Associate Director of Food Services Operations Victoria Wakefield \u00E2\u0080\u0093 Purchasing Manager UBC\u00E2\u0080\u0099s Waste Action Plan UBC is developing a Waste Action Plan outlining waste reduction targets and the actions required to achieve those goals. UBC currently diverts about 44% of its operational waste from local landfills, a target that has been met partially through a range of successful waste reduction programs executed throughout the past decade. The campus is committed to further waste reductions in the future (UBC Sustainability, 2013b). Acting staff member: Bud Fraser \u00E2\u0080\u0093 UBC\u00E2\u0080\u0099s Water and Zero Waste Engineer UBC Building Operations UBC Building Operations is responsible for managing the university\u00E2\u0080\u0099s built environment in a safe and sustainable way. It is dedicated to providing facilities maintenance, operations and renovation services to UBC\u00E2\u0080\u0099s lands and various buildings as required (UBC Building Operations, 2013). UBC Building Operations provided information on water fountain infrastructure for this project. Acting staff member: Greig Samodien \u00E2\u0080\u0093 Facilities Manager UBC Department of Athletics and Recreation The UBC Department of Athletics and Recreation manages all the institution\u00E2\u0080\u0099s sports facilities. Its mandate is to provide the programs and maintain the facilities needed to keep the university\u00E2\u0080\u0099s community active and healthy. Since proper hydration is important in all sports and recreational programs, the department is looking to improve water provision and reduce 10 waste in its facilities. The UBC Department of Athletics and Recreation provided information on Thunderbird Park and Thunderbird Stadium. Acting staff member: Bradley Thomas \u00E2\u0080\u0093 Facility Coordinator at Gerald McGavin Rugby Centre and Thunderbird Park & Thunderbird Stadium Common Energy Common Energy is a student-run organization that aims to incorporate sustainability into all aspects of the UBC community. Its Tangible Solutions action team launched the Tap That: Bottled Water Free UBC campaign on January 28th, 2013. This campaign increased awareness of the impacts of bottled water consumption and the benefits of drinking tap water from reusable bottles through a website, several promotional videos, movie screenings, as well as through its Facebook and Twitter webpages. The campaign successfully gained public support for a petition that encouraged UBC President Stephen J. Toope to set a date by which the campus would become virtually bottled water free. (Cheng, 2013) UBC\u00E2\u0080\u0099s Tap Water Declaration Committee In response to the research completed in 2013 along with Common Energy\u00E2\u0080\u0099s successful Tap That Campaign, the campus has created a committee (modeled after the Waste Free UBC Committee) to determine the economic transition and phase-out plan for bottled water, and improve access to drinking water on campus. This committee includes students from Common Energy as well as staff members from AMS Sustainability, UBC SHHS, Campus Sustainability, UBC Building Operations, and UBC Department of Athletics and Recreation. Over the summer of 2013 the committee selected a water fountain icon for campus signage, developed a campus communications plan and defined campus tap water access as: Access to free fresh drinking water on campus in close proximity to every washroom, food service locations and UBC\u00E2\u0080\u0099s high-density outdoor areas. Each access point is universally accessible, includes signage and bottle filling capabilities Drinking Water Outlet Assessment The Drinking Water Outlet Assessment was the principal component of one of the two projects completed in April 2013. It encompassed an inventory and evaluation process of 197 drinking outlets from 59 buildings on UBC\u00E2\u0080\u0099s main campus. The study provided a baseline representation of the availability, accessibility, functionality and appeal of UBC\u00E2\u0080\u0099s drinking water sources. The inventory and evaluation yielded the following results: 11 \u00EF\u0082\u00B7 Two thirds of the drinking water outlets evaluated are not visible from the main entrances of their respective buildings \u00EF\u0082\u00B7 The majority of drinking water outlets evaluated are visible to passing traffic within their respective buildings \u00EF\u0082\u00B7 38% of drinking water outlets evaluated are situated within 5 meters of a washroom. \u00EF\u0082\u00B7 56% of water outlets are very clean and appear well-maintained \u00EF\u0082\u00B7 7% of drinking outlets are either dirty or have a substantial amount of residues on them. \u00EF\u0082\u00B7 2% of water outlets do not work \u00EF\u0082\u00B7 14% of water outlets have insufficient water pressure to avoid mouth contact with spigots \u00EF\u0082\u00B7 62% of water outlets have sufficient pressure to create an arch where drinking occurs mid-stream and easily allows for bottle filling \u00EF\u0082\u00B7 Reusable bottles can be filled at 82% of the evaluated water outlets \u00EF\u0082\u00B7 42% of the 171 water fountains evaluated have goosenecks for bottles \u00EF\u0082\u00B7 Water from 81% of the water outlets was colourless and free of air bubbles (initial flush) \u00EF\u0082\u00B7 Water from 14% of the water outlets had colour or air bubbles in the initial flush that was absent in the second flush 15 seconds after. Air bubbles dissipate after 30-40 seconds. \u00EF\u0082\u00B7 Water from 81% of evaluated water outlets had no unpleasant tastes upon initial flush \u00EF\u0082\u00B7 Mean 1-Litre fill times decrease as water pressure increases \u00EF\u0082\u00B7 Mean 1-Litre fill times of goosenecks are shorter than the fill times of spigots In response to these results, the following goals were recommended to increase accessibility to free drinking water on UBC\u00E2\u0080\u0099s Vancouver campus: Goal 1: Improve the infrastructure and maintenance as well as increase convenience of tap water usage available on campus Goal 2: Increase awareness and promotion of tap water available on campus Goal 3: Continue research on and monitoring of drinking water access on campus (Cheng, 2013) Rationale for This Project and its Scope Following discussion within the Tap Water Declaration Committee and the newly formed campus tap water access definition, another research project was initiated. The purpose of this project is to use the information from the Tap Water Outlet Assessment and further evaluations to determine how well the campus\u00E2\u0080\u0099s fountain infrastructure meets the needs outlined in the tap water access definition. This project will determine if the campus\u00E2\u0080\u0099s water outlets are universally accessible, if they have bottle-filling capabilities, and will discuss the logistics of having access points in close proximity to all of UBC\u00E2\u0080\u0099s food service locations and high-density outdoor areas. 12 The project objectives are: \u00EF\u0082\u00B7 To conduct a review of existing standards that apply to fountains at the University of British Columbia campuses based on technical guidelines, previous inventory work conducted (Cheng, 2013), other documents, and interviews with key campus stakeholders (SHHS, Building Operations, Department of Athletics and Recreations, and Campus and Community Planning). \u00EF\u0082\u00B7 Identify any corresponding modifications needed for the Technical Guidelines \u00EF\u0082\u00B7 To conduct a literature review of existing standards of fountains and universal accessibility within municipalities, parks and other campuses. \u00EF\u0082\u00B7 To conduct a review of each type of water fountain or outlet on campus according to the Drinking Water Outlet Assessment (Cheng, 2013), product specs, ergonomics/ease of use, universal accessibility, and the Tap Water Declaration Committee\u00E2\u0080\u0099s definition of tap water access. \u00EF\u0082\u00B7 Identify which food service locations are in need of water outlets. \u00EF\u0082\u00B7 To determine the most appropriate fountain infrastructure that best suits the needs of the campus population and develop an upgrade strategy for water fountains at UBC. This may include potentially grandfathering or replacing existing fountains on campus. \u00EF\u0082\u00B7 To suggest potential outdoor drinking fountains that the campus could consider for outdoor recreational areas and public spaces on the main campus. Potential locations will also be provided. 13 1. Review of UBC\u00E2\u0080\u0099s Guidelines All buildings on campus must adhere to the British Columbia Building Code, but it doesn\u00E2\u0080\u0099t have any specifications regarding water fountains and their locations within buildings. The Technical Services Department within UBC\u00E2\u0080\u0099s Building Operations is responsible for the following Technical Guidelines and applying them to new construction, building renewals and renovations. The UBC Technical Guidelines were first written in 2002. They have been revised since then and will continue to be altered as needed. These Technical Guidelines are strongly encouraged by the Technical Services Department, but it is not mandatory that they be followed (Cheng, 2013). The most current version stipulates that: 8. Drinking water Fountains and Stations. 1. All buildings over 600 gross square metres shall have at least one accessible drinking water fountain, located in a public area. The drinking fountain should include an appropriate fixture for filling water bottles. An example of this might be the Elkay Drinking Fountain and Bottle Filling Station: http://www.elkayusa.com/cps/rde/xchg/elkay/hs.xsl/elkay-com-101698.aspx 2. All new buildings shall have drinking water fountains installed on the shortest dead leg possible off of a line that is flowing regularly. This line would preferably be serving a washroom. 3. The drinking water fountain shall NOT be cooled. 4. Drinking water fountains shall NOT have filters and hence no backflow preventers will be required. 5. Drinking water fountains shall only be located inside buildings at level-1 entrance lobbies and should be visible from the exterior. 6. Filtered water drinking stations for office-type areas are acceptable provided that a UBC Plumbing Permit is obtained. An approved backflow prevention device must be installed as per Section 15401 Backflow / Cross Connection Control to prevent water from being drawn out of the filter system back into the water supply line. A regular filter maintenance program must also be in place as part of the service agreement with the filtration system vendor. 7. When retrofitting existing buildings, installation costs plus recurring filter changes are to be funded by the relevant Academic Department. (UBC Technical Services Department, 2013) Section 8.1 suggests that the larger buildings on campus should have at least one public drinking fountain. It emphasizes that the fountain should be capable of filling water bottles, which corresponds to the bottle filling capability section of the tap water access definition. As an example, UBC Building Operations has suggested installing the Elkay EZH2O. A review of how well it meets the demands of the access definition can be found later on in the \u00E2\u0080\u0098Review of UBC\u00E2\u0080\u0099s water outlets\u00E2\u0080\u0099 section. Section 8.2 advises that drinking fountains in newer buildings are installed on the shortest dead leg possible off a pipe that is flowing regularly. This ensures that the water in the pipe gets 14 flushed regularly and allows fresh water to be supplied to the water fountain. Washrooms and kitchens are examples of where these locations would be found. This suggestion aligns with the section of the tap water definition that assures drinking water will be available in close proximity to every washroom on campus. The water outlet inventory and evaluation from April 2013 found that water fountains in older buildings typically had stale tasting water because they were located further away from pipes that flowed regularly. Sections 8.3 and 8.4 minimize the amount of energy and resources that the water fountains consume as well as decrease the maintenance UBC Building Operations needs to perform on the fountains (personal communication with Greig Samodien, July 22nd, 2013). Section 8.5 suggests that drinking fountains only be located inside buildings at level-1 entrance lobbies and should be visible from the exterior. The rationale behind this section may be to ensure that water fountains are located in public areas that are easy to find from main entrances of buildings. It is unclear on whether water fountains should only be located on main levels. The section could also suggest that water fountains only be located indoors, but this may be a question of sentence structure. The following modification could help clarify the section\u00E2\u0080\u0099s intention. Indoor drinking water fountains shall only be located in public areas of building floors such as hallways and lobbies. Water fountains or appropriate signage should be visible from main entrances, stairways and elevators. Sections 8.6 and 8.7 are geared towards campus departments that want cooled filtered water available in their buildings. This ensures that the departments are responsible for these extra features and helps manage the amount of maintenance costs UBC Building Operations must pay (personal communication with Greig Samodien, July 22nd, 2013). In addition, under general guidelines for plumbing fixtures, the Technical Guidelines assert that: 2.1 General .1 Architects and Mechanical Engineers must propose the fixture types very early in the design to enable them to be tested on campus. .2 Hard-wired, \u00E2\u0080\u0098No-touch\u00E2\u0080\u0099 motion detector-activated plumbing fixtures and accessories are preferred for faucets, urinals, water closets and are to be considered for paper towel and soap dispensers. .3 All fixtures and trim shall be CSA approved. .4 Emergency showers and eye wash stations shall meet ANSI Z358.1 Standards Latest Edition. .5 All plumbing fixtures and trim used in handicapped accessible locations shall comply with the British Columbia Building Code. (UBC Technical Services Department, 2013) While section 2.1.2 is geared toward washroom fixtures, having a \u00E2\u0080\u0098No-touch\u00E2\u0080\u0099 standard for water fountains or bottle filling units would be a good enhancement to maintain better access and hygiene, especially if water fountains are near washrooms. 15 UBC Building Operations also has custodial guidelines, which indicate how water fountains should be cleaned by custodial staff. The current guidelines are as follows: PROCEDURE FOR CLEANING DRINKING FOUNTAINS Wiping down the drinking fountain using a microfiber cloth and multi-purpose cleaner will not only clean the surface but will also prevent sickness. DAILY BASIC PROCEDURE: Spray down the drinking fountain with multi-purpose cleaner. Using a clean grey micro fibre* cloth, wipe down the drinking fountain including underneath. Do not spray on the drinking* faucet as this can go inside. *Typo from original document (Personal communication with Greig Samodien, Sept. 5th, 2013) These cleaning guidelines are adequate for ensuring that water fountains are kept clean. However, these guidelines do not indicate how frequent custodial staff should clean the water fountains. It would be ideal to have all water fountains cleaned every day or every other day to assure users that they are clean. In addition, the Custodial Guidelines could highlight parts of the fountains that are extremely important to clean such as activation buttons, spigots and any other areas that may come into contact with water bottle rims. Though the Technical Guidelines and Custodial Guidelines encompass how water fountains are installed in buildings and cleaned, they do not include any guidelines that cover outdoor water fountains, accessibility for handicapped people, space requirements, lighting requirements, water pressure, and drainage. If each water outlet on campus is to be universally accessible and water outlets are to be available in high-density outdoor areas, there ought to be standards to ensure they are installed appropriately. How the water outlets are maintained to meet the needs of the campus population is equally important. Cleanliness, lighting, space availability and proper drainage were issues that were identified in Cheng\u00E2\u0080\u0099s (2013) project. The following guidelines could be added to clarify these components. \u00EF\u0082\u00B7 Space surrounding the water outlet must be kept clear of objects to maintain maximum accessibility. \u00EF\u0082\u00B7 Proper lighting shall be available near the water outlet to keep drinking area visible. \u00EF\u0082\u00B7 Drinking water fountains shall drain to keep the drinking areas clear of stagnant water \u00EF\u0082\u00B7 Water fountain spigots or spouts shall provide a water flow of at least 10 cm high Possible guidelines that UBC could follow regarding universal accessibility and outdoor water fountains will be further discussed in the next section of this report: Review of municipal and campus standards. 16 2. Review of municipal and campus standards One component of the Cheng\u00E2\u0080\u0099s (2013) project was a literature review of best practices in bottled water bans from the University of Winnipeg, Queens University, the University of Toronto and Ryerson University. The University of Toronto, Queens University and York University also demonstrate effective communication and promotion tools to encourage their students to drink from water fountains. Likewise, UBC can learn from how other institutions and municipalities provide drinking water, and incorporate their best practices into campus plans. Simon Fraser University and the University of Victoria were contacted by email to learn what drinking water standards they follow on their campuses. Simon Fraser University Simon Fraser University (SFU) started updating their water outlets a few years ago when a Waterfillz vendor approached the campus staff asking them to try out their product. They installed a pilot machine in a high traffic concourse adjacent to other vending machines. The free water was promoted through a short public campaign and became popular with the students. Though the Waterfillz machine was a highly successful alternative to bottled water, facilities staff did not believe these machines were the optimal method to provide the campus with drinking water. They found the machines very bulky and they took up too much floor space. The machines also required a service contract with the vendor to keep replacing filters. They required new plumbing and new drainage lines as well as a power supply. The facilities staff kept looking for a more favorable solution and decided to try the Elkay EZH2O water fountain to assess its performance. SFU has been installing the Elkay EZH2O water fountains in their newer buildings since 2008. Due to a strong preference by users, all these fountains provide refrigerated water. They do not use filters because British Columbia\u00E2\u0080\u0099s water quality is excellent. Using filters would have created unnecessary maintenance and waste. Although bottled water is still sold on campus, students are aware of these refilling stations and can choose to use them (personal communication with Wendy Lee from SFU Facilities Services, Aug. 9th, 2013). At the same time, the campus had also developed an inventory of all the water fountain locations and assessed their proximity to high traffic areas, student study locations and power connections. The inventory gave the facilities staff the knowledge base needed to understand the scope and feasibility of developing a systematic program for replacing the water fountains. Since SFU Burnaby facilities operations staff are the certified water purveyors for the campus, regular water testing was also conducted throughout the inventory. The staff knew the campus water quality was optimal and did not see a need to dispense the same water through Waterfillz machines (personal communication with Wendy Lee, Aug. 9th 2013). Facilities staff have developed an operations initiative to replace older water fountain models in existing buildings with the Elkay EZH2O model. The goal of this program was to reduce the use of single-use bottled water by providing an attractive alternative that was free 17 and clean. Minor renovations adjacent to plumbing for water fountains include the replacement of older fountains with new fountains as part of the work. There are almost 200 indoor water fountains located in public corridors on SFU\u00E2\u0080\u0099s Burnaby campus and only about 10-15% have been replaced. Replacing a few fountains per year has been a slow process, because fountain replacements are rarely high priority for SFU\u00E2\u0080\u0099s facilities staff. However, the availability of funding helps keep the process moving forward. To ensure the replacement program continues its progress, the campus has budgeted for the program annually. It has been incorporated into the SFU operations actions to support the SFU sustainability plan (personal communication with Wendy Lee, Aug. 9th 2013). Existing water fountains already provided infrastructure for water dispensing. The only new functional requirement was to add the refillable water bottle feature. A key drawback of replacing older water fountain types was often that they were not selected based on the highest traffic. Their locations would require going to them as destinations rather than being convenient stops. In contrast, an advantage of replacing in older locations was that they were already established in ongoing maintenance schedules and permanent. These considerations were critical to the durability and sustainability of the initiative. Determining that this was the right solution for the campus however required the staff to make conscious trade offs. Initially, graphic posters with environmental messaging were used to promote the new EZH2O fountains. Standard ID \u00E2\u0080\u009Cflag\u00E2\u0080\u009D signs for water fountains have also been added into the way finding signage system and installed as the new water fountains get installed (personal communication with Wendy Lee, Aug. 9th 2013). University of Victoria To date, the University of Victoria (UVIC) has retrofitted 75 of its water fountains with pushback bottle fillers (Figure 2.1). UVIC\u00E2\u0080\u0099s plumbers retrofitted the water fountains as time in their schedules allowed and each retrofit job took about 15 minutes. The campus has also added new fountains with bottle fillers in several food outlet locations to encourage the use of personal water bottles. Each fountain has a nearby sign that says \u00E2\u0080\u009CWater bottle refilling station\u00E2\u0080\u009D in bright blue letters, so that it is easily recognizable. The campus has stopped selling bottled water in some locations where there is easy and convenient access to water fountains. The Student Union building is 100% bottled water free, but it is yet to be investigated whether or not the campus has experienced an increase or decrease in the purchase of alternative bottled drinks (juices, pop, sports drinks, vitamin water, etc.) in response to the changes in bottled water availability (personal communication with Rita Fromholt from UVIC\u00E2\u0080\u0099s Office of Campus Planning and Sustainability, Aug. 29th, 2013). 18 Figure 2.1 The most common water fountain model at UVIC For outdoor events and stadium events, the campus uses a portable Waterfillz machine that has four bottle filling stations (Figure 2.2 and 2.3). This machine encourages the refilling of personal water bottles or travel mugs and has become very popular. The single machine was $12,000 and was subsidized by a corporate sponsor (Waste Management). Outdoor event planners are encouraged to book the machine to reduce the number of plastic water bottles that are used. The machine has wheels and is moved around campus as needed. It can only be moved on concrete or cement, and not on grass. Once it is delivered to an event venue, the connecting hose can be connected to any conventional water outlet like a garden hose. In the case that the machine is damaged at an event, the UVIC insurance would cover the repair costs (personal communication with Rita Fromholt, Aug. 29th, 2013). Figure 2.2 and 2.3 The portable Waterfillz machine that UVIC uses at its outdoor events 19 The City of Vancouver The City of Vancouver\u00E2\u0080\u0099s engineering department is responsible for Greenway and street-side fountains. Greenways are scenic pedestrian and cyclist routes that connect important destinations throughout the city. They comprise of expanded parks, increased landscaping, public art and drinking fountains (City of Vancouver, 2013). Currently, two main types of water fountains are installed along the city\u00E2\u0080\u0099s Greenways and in areas of high traffic. The first is a freeze resistant fountain that comes in two models: HAWS 3500FR and 3380FR. Freeze resistant fountains are preferred because they allow for year-round use and require less maintenance than traditional fountains, which need to be shut off during the colder winter months. The second type could either be the HAWS model 3500 or 3380 (Figures 2.4 and 2.5), and has a more traditional internal design. Both models allow for wheelchair access. The difference between the 3500 and the 3380 models is their appearance. Typically, the square pedestal 3500 model is installed on sidewalks and in plazas. The 3380 model is installed along greenways. Also, in locations near a dog park or walking path, Vancouver\u00E2\u0080\u0099s engineering department may also consider installing a model 3500D, which has a dog bowl feature (personal communication with Megan Pate, EIT from Vancouver\u00E2\u0080\u0099s Waterworks group, Aug. 19th, 2013). Figure 2.4 (Left) HAWS drinking fountain model 3500 Figure 2.5 (Right) HAWS drinking fountain model 3380 (HAWS Corporation, 2012) The traditional type of fountain is installed when an existing fountain location is being upgraded. Since existing servicing is compatible with these fountain models, upgrading is easier and more cost effective than altering the system for the freeze resistant models. A freeze resistant installation is generally more expensive than a traditional fountain installation, but the additional costs can be offset through lower maintenance fees over time. The main costs of 20 installing drinking fountains are the fountain, the water and drainage services, sidewalk repair, labour, and equipment. Please refer to Table 1 for the costs of each of the fountain models. The service costs vary significantly depending on the length of service needed. Connections to catch basins are preferred over storm lines to save on expenses. Another variable cost is sidewalk and street repair. If the services cross a boulevard, the cost will be significantly cheaper than having to repair a section of a street or sidewalk. Labour is divided between plumbers, street repair workers and workers who lay the services for the fountains. Other costs such as traffic control, overtime work, and equipment rentals could also be added, but most of the Vancouver engineering fountain installations cost about $20, 000 in total (personal communication with Megan Pate, Aug.19th, 2013). Water fountain model Cost Haws 3500 $5000 Haws 3500FR $5000+ $2000 (frost free valve)= $7000 Haws 3800 $3500 Haws 3800FR $3500+$2000 (frost free valve)= $5500 Table 2.1 The costs of four water fountain models from HAWS Vancouver\u00E2\u0080\u0099s engineering department primarily determines water fountain locations based on high pedestrian or cyclist traffic and where access to water is limited or in high demand. Next, servicing with drainage and water connections are considered. Ideally, the fountain should be located close to a storm sewer and water main to minimize servicing costs. Water fountains are also located in visible areas as well as away from trees that will drop leaves and clog the fountain. Many of Vancouver\u00E2\u0080\u0099s water fountains get vandalized and bird droppings do occur. Vancouver maintenance crews address these occurrences on a reaction basis (personal communication with Megan Pate, Aug.19th, 2013). Universal Access in Winnipeg In 2010, the City of Winnipeg revised its Accessibility Design Standards and the document was intended to apply to all newly constructed and renovated facilities. The design standards address a diverse range of user needs, including people with disabilities, and strive for the most accommodating and inclusive environments possible (City of Winnipeg, 2010). The full section on drinking fountains can be seen below (Figures 2.6 and 2.7). Important aspects to consider include the height of the water fountain, the operating mechanism, the location of the operating mechanism on the fountain, space availability around the fountain, the trajectory angle of the water, and the water flow height or pressure. 21 Figure 2.6 Water fountain design standards from the City of Winnipeg\u00E2\u0080\u0099s Accessibility Design Standards (2010). 22 Figure 2.7 Water fountain design standards from the City of Winnipeg\u00E2\u0080\u0099s Accessibility Design Standards (2010). 23 York University\u00E2\u0080\u0099s Building Standards York University\u00E2\u0080\u0099s Building Standards contains a section dedicated to indoor public water fountains and indoor water bottle refill stations. Both types of outlets have their own product standards, which can be viewed in the document itself. The products approved by the building standards are the Elkay EZS8 stainless steel water fountain (Figure 2.8), HAWS HWUACP8 (Figure 2.9), HAWS Brita Hydration Station (Figure 2.10), Elkay Filtered EZH2O Surface Mounted LZWSSM hands free operation (Figure 2.11), Elkay Cooler Kit LZS8WSLK wall mounted filtered water fountains with incorporated wall mounted water bottle refill station (Figure 2.12) and the Halsey Taylor Universal Glass Filler Assembly Kit (Figure 2.13) (York University Building Standards, 2011). Figure 2.8 (Left) Elkay EZS8 stainless steel water fountain (Elkay Manufacturing Company, 2013) Figure 2.9 (Right) HAWS HWUACP8 (Haws Corporation, 2006) 24 Figure 2.10 (Left) HAWS Brita Hydration Station Figure 2.11 (Right) Elkay Filtered EZH2O Surface Mounted LZWSSM hands free operation Figure 2.12 (Left) Elkay Cooler Kit LZS8WSLK wall mounted filtered water fountains with incorporated wall mounted water bottle refill station Figure 2.13 (Right) Halsey Taylor Universal Glass Filler Assembly Kit 25 York University Building Standards also have a section outlining how water fountains should be installed to maintain universal accessibility. They are as follows: 3.1 Installation requirements for water bottle refill stations and for public drinking water fountains: .1 shall be installed in such a manner so as to provide a barrier-free access and shall be wall hung flush mounted, or can be .2 barrier-free and freestanding .3 Placement of drinking water fountains as well as water bottle refill stations must taken into consideration access for persons using mobility devices such as wheelchairs, walkers, scooter and canes .4 The installation of drinking water fountains shall be such that the front and side controls for the operation of the fountain are located at a height that is not greater than 900- to - 1000 mm above the finished floor .5 Controls shall be pressure plate operated requiring a maximum force of no more than 22.2N .6 The installation of water bottle refill stations shall be such that the tray upon which a cup or a bottle rests for filling is located 900 - to -1000 mm above the finished floor .7 Water bottle refill stations shall be equipped with York University standard signs denoting the type and use of installation to be placed flush mounted adjacent to the fixture and flag mounted above the fixture. Please refer to Interior Signage Standard Manual, Campus Services and Business Operations (CSBO) .8 Public drinking public water fountains shall be equipped with York University standard signs denoting the type and use of installation to be placed flush mounted adjacent to the fixture and flag mounted above the fixture. Please refer to Interior Signage Standard Manual, CSBO (York University Building Standards, 2011) 26 3. Review of UBC\u00E2\u0080\u0099s water outlets The following series of pages are structured to present an analysis of each type of water outlet found on campus. This review represents 174 water fountains and 9 bottle fillers found in 54 of the campus\u00E2\u0080\u0099s main buildings. It excludes water outlets that were found in washrooms and commercial water coolers along with kitchenette sinks. Each type of outlet is evaluated according to the City of Winnipeg\u00E2\u0080\u0099s Accessibility Design Standards, outlet ergonomics for drinking and bottle filling, wheelchair accessibility, and bottle filling capabilities. These criteria will determine how accessible the water outlets are and how well they are able to fill water bottles. A summary table is found on page 60. Legend: Embedded (EM) Wall-hung (WH) Freestanding (FS) Porcelain (P) Stainless steel (SS) Bottle filler (BF) Sixteen locations maintained by UBC Food Services were visited to determine which locations need water outlets installed. A summary table is found on page 62. 27 EM_P 1 Locations: D.H. Copp Building (6) Ergonomics/Ease of use: The fountain is designed for drinking from the spigot. It would be difficult to fill a water bottle because the hand required to hold the bottle would also need to be pushing the button. Filling a bottle requires individuals to cross arms or fill from the right side. Accessibility: Similarly, to the bottle-filling complication, this water fountain would be difficult to activate with an injured, broken or amputated right arm. Wheelchairs can access the fountain with the parallel approach or frontal approach. The spigot is near the front of the fountain and the water trajectory is parallel to the front of the unit. Sample height of spigot: 102.5 cm Angle of water trajectory: 0\u00C2\u00B0 Bottle-filling capabilities: This fountain does not have a specific fixture for bottle filling. Assuming the pressure is adequate, it is possible. Other details: Proper flushing instructions would be helpful. 28 EM_P 2 Locations: Osborne Unit 1 (2) Ergonomics/Ease of use: The fountain is designed for drinking from the spigot. Bottle filling is only ergonomically viable with activation on the left side and requires both arms. Accessibility: Similarly, to the bottle-filling complication, this water fountain would be difficult to activate with an injured, broken or amputated left arm. Wheelchairs can access with the parallel approach. Usage from a wheelchair will require twisting of the torso. Sample height of spigot: 97 cm Angle of water trajectory: 30\u00C2\u00B0 Bottle-filling capabilities: This fountain does not have a specific fixture for bottle filling. Assuming the pressure is adequate, it is possible. Filling longer bottles may be difficult. 29 EM_SS 1 Locations: Buchanan Tower (11) Ergonomics/Ease of use: The fountain is designed for drinking from the spigot. Filling a bottle will be difficult because the hand required to hold the bottle would also need to be pushing the button. Filling a bottle requires individuals to cross arms. Accessibility: Similarly, to the bottle-filling complication, this water fountain would be difficult to activate with an injured, broken or amputated right arm. Wheelchairs can only access with the parallel approach. Usage from a wheelchair will require twisting of the torso. Sample height: 105.5 cm Angle of water trajectory: 45\u00C2\u00B0 Bottle-filling capabilities: This fountain does not have a specific fixture for bottle filling. Assuming the pressure is adequate, it is possible. Other details: Signage is needed from the first floor and elevator. Proper flushing instructions would be helpful. 30 EM_SS 2 Locations: Food, Nutrition and Health (2) Ergonomics/Ease of use: The fountain is designed for drinking from the spigot. Bottle filling is only ergonomically viable with activation on the right side and requires both arms. Accessibility: Similarly, to the bottle-filling complication, this water fountain would be difficult to activate with an injured, broken or amputated right arm. Wheelchairs can access with the parallel approach. Usage from a wheelchair will require twisting of the torso. Sample height: 90 cm Angle of water trajectory: 30\u00C2\u00B0 Bottle-filling capabilities: This fountain does not have a specific fixture for bottle filling. Assuming the pressure is adequate, it is possible. As this fountain is a smaller embedded fountain, the walls make it difficult to fill up larger bottles. 31 EM_SS 3 Locations: CK Choi Building (1) Ergonomics/Ease of use: The fountain is designed for drinking from the spigot. Bottle filling is only ergonomically viable with activation on the right side and requires both arms. Accessibility: Similarly, to the bottle-filling complication, this water fountain would be difficult to activate with an injured, broken or amputated right arm. Wheelchairs can access with the parallel approach. The corner location will make it difficult to use from a wheelchair and wheelchair users need to maneuver around a nearby wooden post. Usage from a wheelchair will require twisting of the torso. Sample height: 100 cm Angle of water trajectory: 40\u00C2\u00B0 Bottle-filling capabilities: This fountain does not have a specific fixture for bottle filling. Assuming the pressure is adequate, it is possible. The pressure was very poor during the Spring evaluation. Other details: Visible from entrance. 32 EM_SS 4 Locations: Longhouse (1), Walter C. Koerner Library (2), Brimacombe (4) Ergonomics/Ease of use: The fountain is designed for drinking from the spigot. Bottle filling is only ergonomically viable with activation on the right side and requires both arms. Accessibility: Similarly, to the bottle filling complication, this water fountain would be difficult to activate with an injured, broken or amputated right arm. The button is more accessible to the left arm because it is at the front of the fountain. Wheelchairs can access with the parallel approach and frontal approach. There is adequate space underneath for wheelchair access. Sample heights: 88.5 cm (WCKL), 101 cm (BRIM) Angle of water trajectory: 22\u00C2\u00B0 Bottle-filling capabilities: This fountain does not have a specific fixture for bottle filling. Assuming the pressure is adequate, it is possible. They are easy to find because of their proximity to the washrooms. 33 WH_P 1a-1d 34 WH_P 1a-1d (continued) Locations: a. (Top left) BIOL North (3), GEOG (1), CEME 1005, 1052, 2065, 2208 (4) b. (Top right) CEME 2027 (1) c. (Lower left) COPP 3101/3108 (1) d. (Lower right) Fairview Common block (1) Ergonomics/Ease of use: The fountain is designed for drinking from the spigot. Bottle filling is only ergonomically viable with activation on the right side and requires both arms. The activation mechanism is usually a knob that must be twisted, which may be difficult for people who have limited hand strength. Type b has a push button on the right side. Accessibility: This water fountain would be difficult to activate with an injured, broken or amputated right arm. Wheelchairs can access these fountains with the frontal approach or parallel approach depending on location. Sample heights: 95 cm (BIOL), 101 cm (CEME), 88 cm (Fairview) Angle of water trajectory: 45\u00C2\u00B0 Bottle-filling capabilities: This fountain does not have a specific fixture for bottle filling. Assuming the pressure is adequate, it is possible. 35 WH_P 2 Locations: Chemistry B (3) Ergonomics/Ease of use: The fountain is designed for drinking from the spigot. Bottle filling is only ergonomically viable with activation on the right side and requires both arms. The activation mechanism is a knob that must be twisted, which may be difficult for people who have limited hand strength and mobility. Accessibility: This water fountain would be difficult to activate with an injured, broken or amputated right arm. Wheelchairs can access these fountains with the frontal approach. Sample height: 83.5 cm Angle of water trajectory: 45\u00C2\u00B0 Bottle-filling capabilities: This fountain does not have a specific fixture for bottle filling. Assuming the pressure is adequate, it is possible. Other details: Proper flushing instructions would be helpful. 36 WH_P 3 Locations: MCLD 306 and 410 (2), and HEBB_9L (1) Ergonomics/Ease of use: The fountain is designed for drinking from the spigot. The activation mechanism is a knob that must be twisted, which may be difficult for people who have limited hand strength and mobility. Users may not like sticking their faces into this fountain. Bottle filling is only ergonomically viable when the bottle is held with the left hand and requires both arms. Accessibility: Wheelchairs can access these fountains with the parallel approach and frontal approach. The knob is located at the front of the fountain and can be turned with either hand. Sample height: 90 cm (HEBB) Angle of water trajectory: 0\u00C2\u00B0 Bottle-filling capabilities: This fountain does not have a specific fixture for bottle filling. Assuming the pressure is adequate, it is possible. The highly enclosed structure of the fountain makes it difficult to fill larger bottles. 37 WH_P 4 Locations: Macleod_214 (1) Ergonomics/Ease of use: The fountain is designed for drinking from the spigot. Bottle filling is only ergonomically viable with activation on the right side and requires both arms. Accessibility: This water fountain would be difficult to activate with an injured, broken or amputated right arm. Wheelchairs can access this fountain with the parallel approach or frontal approach. Sample height: 90.5 cm Angle of water trajectory: 45\u00C2\u00B0 Bottle-filling capabilities: This fountain does not have a specific fixture for bottle filling. Assuming the pressure is adequate, it is possible. 38 WH_P 5a and 5b Locations: SUB_244 (1) and Thunderbird Residence Gym (1) Ergonomics/Ease of use: The fountain is designed for drinking from the spigot. Bottle filling is only ergonomically viable with activation on the right side and requires both arms. Accessibility: This water fountain would be difficult to activate with an injured, broken or amputated right arm. Wheelchairs can access this fountain with the parallel approach or frontal approach. The fountain in the SUB is located in a narrow side hallway. Wheelchair manoeuvring may be difficult. Sample height: 103.5 cm (SUB) Angle of water trajectory: 42\u00C2\u00B0 Bottle-filling capabilities: This fountain does not have a specific fixture for bottle filling. Assuming the pressure is adequate, it is possible. Filling larger bottles may be difficult. 39 WH_SS 1a-1c 40 WH_SS 1a-1c (continued) Locations: With goosenecks \u00E2\u0080\u0093 Buchanan Classrooms (A, B) (3), Allard Hall (9), IRC_Main Lvl and Basement (2), SUB (5), War Memorial Gym_303 (1), Wesbrook (1), Woodward (4), Geography (1), Hebb (5), Hennings (2), LSK (1), Math (2), Math Annex (2), Scarfe Buildings (20), CEME 1214 (1), CHBE (4), MCLD 148, 254, 348, 448 (4), Doug Mitchell Thunderbird Sports Centre (1) No gooseneck \u00E2\u0080\u0093 WCKL (3), BIOL (1), HORT (1), WWW EDC_102 (1), Thunderbird Stadium (1) Ergonomics/Ease of use: The fountain is designed for drinking from the spigot and bottle filling at the gooseneck. Bottle filling can be done with the spigot and is ergonomically viable with activation from the front. Bottles can also be filled from either side with the gooseneck (depending on which side it has been installed). When the gooseneck is installed on the same side as the spigot, it provides more head space for spigot drinking. Accessibility: This water fountain can be activated with both arms using the activation button at the front. Wheelchairs can access this fountain with the parallel approach and frontal approach. There is adequate space underneath for wheelchair access and plenty of space around the fountain for wheelchair manoeuvring. Sample heights: Mostly compliant with the 76-90 cm standard Angle of water trajectory: 20\u00C2\u00B0 Bottle-filling capabilities: Most fountains have a gooseneck for bottle filling. Assuming the pressure at the spigot is adequate, it is also possible to fill bottles using it. When pressure is very good, the goosenecks fill water bottles faster than spigots. Fountains without goosenecks could be enhanced with bottle-filling fixtures. Other details: This fountain type meets all current Federal Regulations for the disabled including those in the Americans with Disabilities Act. The goosenecks can be broken off the fountains. Perhaps a more durable bottle filler would be better. The mechanism also requires both hands. A pushback mechanism would be easier to use. 41 WH_SS 2 Locations: ESB (1) Ergonomics/Ease of use: The fountain is designed for drinking from the spigot and bottle filling at the gooseneck. Bottle filling is ergonomically viable with activation from the front and bottle tilted to the right. This requires both arms. Bottles can also be filled with the gooseneck from the right side and requires both arms. Accessibility: This water fountain can be activated with both arms using the activation button at the front. Wheelchairs can access this fountain with the parallel approach and frontal approach. There is adequate space underneath for wheelchair access and plenty of space around the fountain for wheelchair manoeuvring. Sample height: 83.5 cm Angle of water trajectory: 20\u00C2\u00B0 Bottle-filling capabilities: This fountain has a gooseneck for bottle filling. Assuming the pressure at the spigot is adequate, it is also possible to fill bottles using it. When pressure is very good, the goosenecks fill water bottles faster than spigots. Other details: Visible from the back entrance. This fountain type meets all current Federal Regulations for the disabled including those in the Americans with Disabilities Act. The goosenecks can be broken off the fountains. Perhaps a more durable bottle filler would be better. The mechanism also requires both hands. A push back mechanism would be easier. 42 WH_SS 3 Locations: Hugh Dempster Pavilion (1), ICICS_X2 (1) Ergonomics/Ease of use: The fountain is designed for drinking from the spigot. Bottle filling is ergonomically viable with activation from the front and the bottle tilted to the right. Accessibility: This water fountain can be activated with both arms using the activation button at the front. Wheelchairs can access this fountain with the parallel approach and frontal approach. There is adequate space underneath for wheelchair access and plenty of space around the fountain for wheelchair manoeuvring. Sample heights: 88.5 cm (DMP), 85 cm (ICICS) Angle of water trajectory: 14\u00C2\u00B0 Bottle-filling capabilities: This fountain does not have a specific fixture for bottle filling. Assuming the pressure at the spigot is adequate, bottle filling is possible. These fountains could be enhanced with bottle-filling fixtures. When pressure is very good at fountains with goosenecks, goosenecks fill water bottles faster than spigots. Other details: Signage would be helpful. This fountain type meets all current Federal Regulations for the disabled including those in the Americans with Disabilities Act. The goosenecks can be broken off the fountains. Perhaps a more durable bottle filler would be better. The mechanism also requires both hands. A push back mechanism would be easier. 43 WH_SS 4 Locations: Brock Hall (3), Jack Bell School for Social Work (4) Ergonomics/Ease of use: The fountain is designed for drinking from the spigot. Bottle filling is ergonomically viable with activation from the front and the bottle tilted to the left. Filling larger bottles may be difficult; installing a bottle-filling fixture would be helpful. Accessibility: This water fountain can be activated with both hands using the activation button at the front. Wheelchairs can access this fountain with the parallel approach (depending on location) and frontal approach. There is adequate space underneath for wheelchair access and plenty of space around the fountain for wheelchair manoeuvring. Sample height: 86 cm (SOWK) Angle of water trajectory: 0\u00C2\u00B0 Bottle-filling capabilities: This fountain does not have a specific fixture for bottle filling. Assuming the pressure at the spigot is adequate, bottle filling is possible. All water fountains in Brock Hall had very poor pressure and water fountains in Jack Bell either had good pressure or very good pressure. These fountains could be enhanced with bottle-filling fixtures. Other details: The goosenecks can be broken off the fountains. Perhaps a more durable bottle filler would be better. The mechanism also requires both hands. A push back mechanism would be easier. 44 WH_SS 5 Locations: Chan Centre (3) Ergonomics/Ease of use: The fountain is designed for drinking from the spigot. Bottle filling is ergonomically viable with activation from the front and the bottle tilted to the left. Accessibility: This water fountain can be activated with both hands using the activation button at the front. Wheelchairs can this fountain access with the parallel approach and frontal approach. There is adequate space underneath for wheelchair access and plenty of space around the fountain for wheelchair manoeuvring. Sample height: 85 cm Angle of water trajectory: 30\u00C2\u00B0 Bottle-filling capabilities: This fountain does not have a specific fixture for bottle filling. Assuming the pressure at the spigot is adequate, bottle filling is possible. 45 WH_SS 6 Locations: Osborne Unit 2 (2) Ergonomics/Ease of use: The fountain is designed for drinking from the spigot. Filling a bottle will be difficult because the hand required to hold the bottle would also need to be pushing the button. Filling a bottle requires individuals to cross arms. Accessibility: This water fountain would be difficult to activate with an injured, broken or amputated right arm. Wheelchairs can access this fountain with the parallel approach and frontal approach. There is adequate space underneath for wheelchair access and plenty of space around the fountain for wheelchair manoeuvring. Sample height: 92.5 cm Angle of water trajectory: 45\u00C2\u00B0 Bottle-filling capabilities: This fountain does not have a specific fixture for bottle filling. Assuming the pressure is adequate, it is possible. 46 WH_SS 7a-7c 47 WH_SS 7a-7c (continued) Locations: SRC (4), Ritsumeikan (1) Ergonomics/Ease of use: The fountain is designed for drinking from the spigot. Bottle filling is ergonomically viable with activation from the front and the bottle tilted to the left. Accessibility: This water fountain can be activated with both arms using the activation bar at the front. WH_SS 7c requires activation from the left side. Wheelchairs can access this fountain with the parallel approach and frontal approach. There is adequate space underneath for wheelchair access and plenty of space around the fountain for wheelchair manoeuvring. Sample height: 90 cm (SRC) Angle of water trajectory: 15\u00C2\u00B0 Bottle-filling capabilities: This fountain does not have a specific fixture for bottle filling. Assuming the pressure at the spigot is adequate, bottle filling is possible. 48 WH_SS 8 Locations: IRC (2) Ergonomics/Ease of use: The fountain is designed for drinking from the spigot. Bottle filling is only ergonomically viable with activation on the right side and requires both arms. Accessibility: This water fountain would be difficult to activate with an injured, broken or amputated right arm. Wheelchairs can access this with the parallel approach and frontal approach. Spigot is near the front of the fountain and the water trajectory is parallel to the front of the fountain. Sample height: 99 cm Angle of water trajectory: 0\u00C2\u00B0 Bottle-filling capabilities: This fountain does not have a specific fixture for bottle filling. Assuming the pressure is adequate, it is possible. The pressure was very poor during the Drinking Water Outlet Assessment (2013). Other details: In office space, not likely to be used by students 49 WH__SS 9 Locations: Irving K. Barber Library (7) Ergonomics/Ease of use: The fountain is designed for drinking from the spigot. Bottle filling is only ergonomically viable with activation on the right side and requires both arms. Accessibility: This water fountain can be activated from both sides and from the front. Wheelchairs can access with the parallel approach and frontal approach. There is adequate space underneath for wheelchair access and plenty of space around the fountain for wheelchair manoeuvring. Spigot is near the front of the fountain and the water trajectory is near parallel. Sample height: 89.5 cm Angle of water trajectory: 12\u00C2\u00B0 Bottle-filling capabilities: This fountain does not have a specific fixture for bottle filling. Assuming the pressure is adequate, it is possible. Although the pressure was good or very good during the Spring evaluation, it was difficult to completely fill taller bottles. This type of fountain could be retrofitted with bottle fillers. Other details: They are easy to find because of their proximity to the washrooms. 50 WH_SS 10 (ElkayEZH2O) Locations: Pharmaceutical Research Building (1), Henry Angus (3) Ergonomics/Ease of use: The fountain is designed for drinking from the spigot and for bottle filling. The motion sensor allows for one-handed filling and minimal contact. Accessibility: This water fountain can be activated using the large activation button at the front and is accessible from both sides. Wheelchairs can access the fountain with the parallel approach and frontal approach. There is adequate space underneath for wheelchair access and plenty of space around the fountain for wheelchair manoeuvring. Sample heights: 84 cm (ANGU), 89 cm (PHARM) Angle of water trajectory: 7\u00C2\u00B0 Bottle-filling capabilities: This fountain has a bottle filler with an electric motion sensor for touchless activation (20-second auto shut-off timer). Assuming the pressure is adequate at the spigot, it would also be possible to fill a bottle using the spigot as well (from the left side). Other details: Automated bottle filling Green Ticker counts how many plastic bottles are saved from waste. American Disabilities Act Compliant Green Spec Listed 51 WH_SS 10b Location: Old Barn Community Centre (1) Ergonomics/Ease of use: The fountain is designed for drinking from the spigot and for bottle filling. Accessibility: This water fountain can be activated using the large activation button at the front and is accessible from both sides. Wheelchairs can access the fountain with the parallel approach and frontal approach. There is adequate space underneath for wheelchair access and plenty of space around the fountain for wheelchair manoeuvring. Height: Shorter to accommodate children Angle of water trajectory: 7\u00C2\u00B0 Bottle-filling capabilities: This fountain has a gooseneck for bottle filling. Assuming the pressure at the spigot is adequate, it is also possible to fill bottles using it. When pressure is very good, the goosenecks fill water bottles faster than spigots. Assuming the pressure is adequate at the spigot, it would also be possible to fill a bottle using the spigot as well. Other details: American Disabilities Act Compliant The goosenecks can be broken off the fountains. Perhaps a more durable bottle filler would be better. The mechanism also requires both hands. A push back mechanism would be easier. 52 2WH_SS 1 Locations: Continuing Studies (2) Ergonomics/Ease of use: These fountains are designed for drinking from the spigot. Bottle filling can be done with the spigot and is ergonomically viable with activation from the front. Accessibility: These water fountains can be activated with both hands using the activation buttons at the front. Wheelchairs can access these fountains with the parallel approach and frontal approach. There is adequate space underneath for wheelchair access and plenty of space around the fountains for wheelchair manoeuvring. This water fountain pair offers two heights for wheelchair access and individuals who have difficulty bending. Sample heights: 87 cm and 101 cm Angle of water trajectory: 20\u00C2\u00B0, 20\u00C2\u00B0 Bottle-filling capabilities: Assuming the pressure at the spigots is adequate, it is also possible to fill bottles using it. When pressure is very good, the goosenecks fill water bottles faster than spigots. Neither of these fountains has a specific fixture for bottle filling and could be enhanced with one. *There is a bottle-filling cooler right next to it. Other details: This fountain type meets all current Federal Regulations for the disabled including those in the Americans with Disabilities Act. The goosenecks can be broken off the fountains. Perhaps a more durable bottle filler would be better. The mechanism also requires both hands. A push back mechanism would be easier. 53 2WH_SS 2 Location: David Lam (1) Ergonomics/Ease of use: Both fountains are designed for drinking from the spigot and one has a gooseneck for bottle filling. Bottle filling can be done with the spigot and is ergonomically viable with activation from the front. Bottles can be filled from the left side with the gooseneck and requires two hands. Accessibility: These water fountains can be activated with both hands using the activation buttons at the front. Wheelchairs can access these fountains with the parallel approach and frontal approach. There is adequate space underneath for wheelchair access and plenty of space around the fountains for wheelchair manoeuvring. This water fountain pair offers two heights for wheelchair access and individuals who have difficulty bending. Heights: 87 cm and 100.5 cm Angle of water trajectory: 0\u00C2\u00B0, 20\u00C2\u00B0 Bottle-filling capabilities: One of the fountains has a gooseneck for bottle filling. Assuming the pressure at the spigots is adequate, it is also possible to fill bottles using them. When pressure is very good, the goosenecks fill water bottles faster than spigots. 54 2WH_SS 2 (continued) Other details: This fountain type meets all current Federal Regulations for the disabled including those in the Americans with Disabilities Act. The goosenecks can be broken off the fountains. Perhaps a more durable bottle filler would be better. The mechanism also requires both hands. A push back mechanism would be easier. 55 2WH_SS 3 Locations: Life Sciences Centre (4) Ergonomics/Ease of use: These fountains are designed for drinking from the spigot and bottle filling. Bottle filling can be done with the spigot and is ergonomically viable with activation from the front. Accessibility: These water fountains can be activated with both hands using the activation bars at the front. Wheelchairs can access these fountains with the parallel approach and frontal approach. There is adequate space underneath for wheelchair access and plenty of space around the fountain for wheelchair manoeuvring. This water fountain pair offers two heights for wheelchair access and individuals who have difficulty bending. Sample heights: 101 cm and 85 cm Angle of water trajectory: 15\u00C2\u00B0 Bottle-filling capabilities: Two locations have goosenecks for bottle filling. Assuming the pressure at the spigots is adequate, it is also possible to fill bottles using them. When pressure is very good, the goosenecks fill water bottles faster than spigots. There are two locations where neither of the fountains have a specific fixture for bottle filling and could be enhanced with one. Other details: The goosenecks can be broken off the fountains. Perhaps a more durable bottle filler would be better. The mechanism also requires both hands. A push back mechanism would be easier. 56 2WH_SS 4 Location: Tennis Centre (1) Ergonomics/Ease of use: These fountains are designed for drinking from the spigot. Bottle filling can be done with the spigot and is ergonomically viable with activation from the front. Accessibility: These water fountains can be activated with both hands using the activation button at the front. Wheelchairs can access these fountains with the parallel approach and frontal approach. There is adequate space underneath for wheelchair access and plenty of space around the fountains for wheelchair manoeuvring. This water fountain pair offers two heights for wheelchair access and individuals who have difficulty bending. Sample heights: 94.5 cm and 81 cm Angle of water trajectory: 22\u00C2\u00B0, 22\u00C2\u00B0 Bottle-filling capabilities: Assuming the pressure at the spigots is adequate, it is also possible to fill bottles using it. Neither of these fountains have a specific fixture for bottle filling. Installing a fountain with bottle-filling capabilities would be ideal as this is found at a recreational facility. Other details: This fountain type meets all current Federal Regulations for the disabled including those in the Americans with Disabilities Act. 57 BF 1 Location: Stir it Up Caf\u00C3\u00A9 (1) Ergonomics/Ease of use: This water outlet is designed for bottle filling and is ergonomically viable with both hands. Accessibility: This bottle filler can be activated with both hands using the activation lever. Wheelchairs can access this counter unit with the parallel approach. There is adequate space around the outlet for wheelchair manoeuvring. Height of counter: 91.5 cm Distance from counter edge: 28.5 58 BF 2a and 2b Location: 2a. The Loop Caf\u00C3\u00A9 (1) 2b. Magma Caf\u00C3\u00A9 (1) Ergonomics/Ease of use: This water outlet is designed for bottle filling and is ergonomically viable with both hands. Accessibility: These water outlets can be activated with both arms using the activation lever. Wheelchairs can access with the parallel approach. There is adequate space around the outlet for wheelchair manoeuvring. Height of counter: 2a. 1 m 10.5 cm (This outlet would be difficult for individuals in wheelchairs to use) 2b. 94.5 cm Distance from counter edge: 2a. 53 cm 2b. 49.5 cm Other details: Sink allows for users to wash out their bottles and cups 59 BF 3 Location: Walter Gage Residence (1) Ergonomics/Ease of use: This water outlet is designed for bottle filling and is ergonomically viable with both hands. Accessibility: This water outlet is activated with a motion sensor. Wheelchairs can access with the parallel approach or the frontal approach. There is adequate space around the outlet for wheelchair manoeuvring. Height of sensor: 1 m 22.5 cm Other details: Meets the American with Disabilities Act\u00E2\u0080\u0099s standards when mounted at the correct height (121.7 cm). FS_1 (Waterfillz) Location: Swing (1), Macmillan (1), Kaiser Building (1), SUB (2), Ergonomics/Ease of use: This water outlet is designed for bottle filling and is ergonomically viable with both arms. Accessibility: This water outlet is activated with a button. The button may be too high for individuals in wheelchairs. Wheelchairs can access this outlet with the parallel or the frontal approach and there is adequate space around the outlet for wheelchair maneuvering. Height of shelf: 1 m 11 cm Height of button: 1 m 43 cm Other details: Counts how many bottles have been saved 60 Summary Tables and Graphs: Table 3.1 This table summarizes the results from the review of UBC\u00E2\u0080\u0099s water fountains 61 Figure 3.1 This graph shows the distribution of each type of water fountain on the UBC campus. The red bar represents the common Haws model and the orange bar represents the Elkay EZH2O model. Figure 3.2 This graph shows how the sample heights from water fountains at UBC compare to the 76-90cm standard (error bars) from the City of Winnipeg\u00E2\u0080\u0099s Accessibility Design Standards. The sample size is 55 water fountains from the overall 174 that were reviewed. * Does not include higher fountains from double-fountain units (4)01020304050607080EM_P 1 [COPP]EM_P 2 [Osborne Unit 1]EM_SS 1 [BUTO]EM_SS 2 [FNH]EM_SS 3 [CK Choi]EM_SS 4\u00E2\u0080\u00A6WH_P 1a-1d\u00E2\u0080\u00A6WH_P 2 [CHEM]WH_P 3 [MCLD,HEBB]WH_P 4 [MCLD]WH_P 5a-5b [SUB\u00E2\u0080\u00A6WH_SS 1a-1c\u00E2\u0080\u00A6WH_SS 2 [ESB]WH_SS 3 [DMP,ICICS]WH_SS 4 [BROCK, SOWK]WH_SS 5 [CHAN]WH_SS 6 [Osborne Unit 2]WH_SS 7a-7c\u00E2\u0080\u00A6WH_SS 8 [IRC 4&5]WH_SS 9 [IBLC]WH_SS 10 (EZH2O)\u00E2\u0080\u00A6WH_SS 10b [Old Barn\u00E2\u0080\u00A62 WH_SS 1 [CONT_ST]2 WH_SS 2 [DLAM]2 WH_SS 3 [LSC]2 WH_SS 4 [Tennis Centre]BF 1 [Stir it Up]BF 2a-2b [Loop, Magma]BF 3 [Gage]FS_WaterfillzWater fountain distribution at UBC 020406080100120All fountains(55)Newermodels (31*)Older models(20)Spigot Height (cm) Selected fountain spigot heights at UBC Mean spigot heightsMinimumMaximum 62 Table 3.2 This table summarizes where UBC Food Services has installed water outlets at their food service locations. \u00E2\u0080\u0098Yes\u00E2\u0080\u0099 indicates that the food service location has a water bottle refilling station. \u00E2\u0080\u0098No\u00E2\u0080\u0099 indicates that the venue does not have a water outlet. Discussion: In all cases, signage needs to be installed to help users find the water outlets from main entrances, main stairways and elevators. The majority of the water fountains at UBC comply with the recommended height range of 76-90 cm. The fountains that had limited accessibility had water trajectory angles closer to 45\u00C2\u00B0, did not allow the frontal approach from wheelchairs, could only be activated from one side, had a twisting knob activation mechanism, and did not have a bottle filling fixture. These were typically characteristic of the older water fountain models found on campus. Newer more accessible models should eventually replace these water fountain types. Wall hung fountains are more accessible to wheelchairs than water fountains embedded into the wall. The two water fountain types that satisfy most of the criteria are the WH_SS 1-2 (Haws) accompanied by bottle fillers and the WH_M 2 (EZH2O). The Haws model is the most common fountain type on campus and often has a gooseneck bottle filler. UBC Building Operations has indicated that the fountains and the gooseneck bottle fillers are sold separately. They need to drill holes into the fountains to install the fillers. The goosenecks can also be broken off the fountains. A more durable bottle filler would last longer. The mechanism requires both hands and makes it difficult to fill water bottles with one hand. A sturdier push back mechanism would be a suitable solution both problems and would be more hygienic. The EZH2O model has recently been added to the UBC Technical Guidelines as the suggested water fountain model. 63 This is an excellent choice because it offers maximum accessibility, an automated bottle filling mechanism, and a Green Ticker that counts how many plastic bottles are saved from waste. The automated bottle filling mechanism minimizes contact with the fountain itself and improves hygiene. The Green Ticker helps users conceptualize how they\u00E2\u0080\u0099re helping to minimize plastic waste and keep the environment clean. Building Operations has also indicated that this water fountain is easier to maintain because there are no extra parts to add and its components are not easily broken. Out of the sixteen food service locations visited (Table 3.2), three (the Loop, Magma and Stir it Up) had push-back water dispensers and one had a mini kitchenette sink (Caffe Perugia). The two newest outlets (the Loop and Magma) have their outlets situated away from the service area to allow maximum accessibility during busy hours. The counter units at the Loop, Magma and Caffe Perugia exceed the 76-90cm standard for wheelchair accessible water fountains and require individuals to reach in to fill their bottles. As wheelchairs limit the ability to reach up and forward, these water dispensers may be difficult for handicapped people to use. All three of the previously mentioned outlets would allow for the parallel approach, since the frontal approach is probably not favourable. The mini kitchenette sink located in Caffe Perugia is 107 cm from the ground in the corner of a corner counter unit, which further decreases wheelchair accessibility. More research should be done on what type of water dispenser would be most accessible for people on campus. 64 4. Water provision at UBC\u00E2\u0080\u0099s high-density outdoor areas Though water fountains are commonly found in UBC\u00E2\u0080\u0099s main academic buildings, outdoor water fountains are very rarely seen on campus. The HAWS 3380 and the galvanized 3380G are currently recommended in UBC\u00E2\u0080\u0099s design guidelines for its Vancouver campus. These fountains are low maintenance, designed for wheelchair accessibility and tolerant of heavy use (UBC Campus and Community Planning, 2010). One of these fountains has been installed near the baseball diamond situated along Wesbrook Mall on UBC\u00E2\u0080\u0099s South Campus. Part 3 of UBC\u00E2\u0080\u0099s design guidelines for Vancouver\u00E2\u0080\u0099s campus indicates that outdoor mixed-use hubs should aim to include a public drinking fountain in its design (UBC Campus and Community Planning, 2010). Since the tap water access definition indicates that drinking water will be accessible at UBC\u00E2\u0080\u0099s high-density outdoor areas and the campus is continually improving its public spaces, there is potential to install outdoor water outlets where they are needed. The more evident outdoor areas that need access to drinking water are UBC\u00E2\u0080\u0099s recreational fields. UBC Athletics and Recreation currently operates nine fields, Thunderbird Stadium, a baseball field and an oval for track and field. There are currently no designated water bottle filling stations at any of these recreational areas. To date, athletes have been filling bottles with hose bibbs and washroom sinks or bringing bottled water. It would be ideal to have at least one bottle filling station at every field or one at every team area, and water fountains wherever needed. The priority is installing fixtures that can fill personal bottles and large Gatorade jugs. There are two main types of outdoor water outlets UBC Athletics and Recreation could consider installing in their recreational areas. The first are pedestal or hydrant outlets. Examples of pedestal outlets are model 125SM or 125SMSS from the Most Dependable Fountains INC., and the Stern-Williams model 7200-32 (Figures 4.1 and 4.2). They would be geared towards athletes who need to fill water bottles and large Gatorade jugs. There are multiple hose bibb or faucet options available. A traditional hose bibb shape may be more ideal because sprinklers can often be connected to them during children\u00E2\u0080\u0099s summer sports programs. 65 Figure 4.1 (Left) Most Dependable Fountains, INC. Model 125SM/125SMSS (Hose bibb option) (Most Dependable Fountains, INC., 2014) Figure 4.2 (Right) Stern-Williams Model 7200-32 (multiple barrier-free fountain hose bibb options as well) (Stern-Williams, 2000) 66 The second type of water outlets is drinking fountains meant for drinking from the spigot. These would be suitable for a quick drink or a slower bottle refill. Examples of outdoor water fountains are the HAWS models 3500 and 3380, the Elkay Outdoor Tubular Steel FTN Models LK4410 and LK4420 (Figures 4.3 and 4.4), and the Stern-Williams all-purpose pedestal fountains. These outlets would be useful for people who are walking around the recreational fields or watching sports events. Figure 4.3 (Left) Elkay Outdoor Tubular Steel FTN Model LK4410 Figure 4.4 (Right) Elkay Outdoor Tubular Steel FTN Model LK4420 (Elkay Manufacturing Company, 2013) 67 The following schematic shows where athletes and spectators most likely gather at Thunderbird Park, along with the types of water outlets that would be suitable to meet the needs of these two groups of people. This map refers to the park\u00E2\u0080\u0099s current layout and is subject to change as financing and water connections are considered. Thunderbird Park will also undergo some reconfigurations within the next two years and locations should be checked against updated plans. Figure 4.5 Map of proposed water outlet locations at UBC Thunderbird Stadium and Thunderbird Park 68 A less prominent group of outdoor areas that could use access to drinking water are outdoor public spaces on UBC\u00E2\u0080\u0099s main campus. These locations range from recreational areas to public spaces that are not directly adjacent to buildings with water fountains. The following locations at UBC may need outdoor water outlets. \u00EF\u0082\u00B7 Public space outside Buchanan C/D/E Rationale: Aside from a commercial water cooler in the Meekison Arts Student Space, Buchanan D, there are no water fountains in these three sections of the Buchanan classrooms. Installing an outdoor water fountain in this outdoor space would make it convenient for people to fill water bottles on their way to class or when they spend time outside. Alternative solutions: Install a more permanent fixture in Meekison Arts Student Space. Fill bottle at Stir it Up in Buchanan A. 69 \u00EF\u0082\u00B7 Public space on North side of Irving K. Barber Learning Centre Rationale: Though there are water fountains in Irving, the closest one to this public space is on the other side of the building. Installing an outdoor water fountain in this outdoor space would make it convenient for people to fill water bottles on their way to class or when they spend time outside. This would be a good location to install a pilot outdoor fountain because a lot of traffic goes through this intersection. 70 \u00EF\u0082\u00B7 The UBC Bus Loop and MacInnes Recreational Field Rationale: This section of campus is quite busy because of the bus loop and recreational activities that occur on the field. Installing an outdoor water fountain somewhere in this general area would make it convenient for people to fill water bottles on their way to class, while leaving campus or when they use the field. Alternative solutions: Provide signage that leads the public to the Student Recreation Centre if they need water or washrooms. Open up the Student Recreation Centre doors adjacent to the current bus loop to allow access to fountains and washrooms. The UBC bus loop and MacInness Field are located in the Gage South area. This section of campus will undergo significant changes in the next few years to meet the needs of the community\u00E2\u0080\u0099s growing population. The highlights of these upgrades include a new aquatic centre, a permanent diesel bus loop, and a bookable recreational field for students and other outdoor events. The bus loop will be relocated and the new aquatic centre will be built on the current MacInness Field site (UBC Campus and Community Planning, 2011). Please refer to Figure 3 in the Appendix for a map of the tentative plans for Gage South. To increase access to drinking water in the upgraded area, a water fountain could be installed in the new Aquatic Centre when it is built and an outdoor water fountain could be installed at the new MacInness Field. This location should be examined in the context of the updated construction plans for this area. http://www.examiner.com/article/how-to-be-a-transit-all-star 71 \u00EF\u0082\u00B7 The UBC Skatepark and adjacent basketball court Rationale: This is a recreational area that is not directly adjacent to a building with water fountains. http://www.publicaffairs.ubc.ca/2013/05/01/let-the-shredding-begin-north-americas-first-campus-skatepark-opens-at-ubc/ 72 \u00EF\u0082\u00B7 Grass oval South of the Forest Sciences Centre Rationale: This is a recreational area that is not directly adjacent to a building with water fountains. Alternative solution: Install a water outlet outside of the Forest Sciences Centre 73 \u00EF\u0082\u00B7 Memorial Road by the Music Building and Frederic Lasserre Building Rationale: This public space is located next to the Frederic Lasserre Building and the Music Building. Neither of these building have permanent water outlets that satisfy the tap water access definition. Installing an outdoor water fountain in this outdoor space would make it convenient for people to fill water bottles on their way to class or when they spend time outside. Alternative solution: Install water fountains inside the Music Building and the Frederic Lasserre Building. In addition to the previously mentioned fixed water outlets, the UBC could also consider purchasing a portable Waterfillz unit similar to the one UVIC uses for outdoor events. The campus could encourage outdoor event planners to book the machine to reduce the number of plastic water bottles that are used at their events. 74 Recommendations In response to the research done throughout this project, the following actions are recommended to UBC Building Operations, UBC Student Housing and Hospitality Services, the Department of Athletics and Recreation, and Campus and Community Planning to increase free drinking water accessibility on UBC\u00E2\u0080\u0099s Vancouver Campus. UBC Building Operations As the current Technical Guidelines do not include specific standards for how water fountains should be installed to allow maximum access, it is recommended that the department add similar guidelines as those offered by the City of Winnipeg\u00E2\u0080\u0099s Accessibility Design Standards and York University Building Standards. Important aspects to consider include the height of the water fountain, the operating mechanism, the location of the operating mechanism on the fountain, space availability around the fountain, the trajectory angle of the water, and the water flow height or pressure. It is also worthy to note the accessibility ratio required on a respective building floor. If there is one fountain or outlet on a floor, it needs to be accessible to individuals who use wheelchairs. Where there is more than one outlet on a floor, at least 50% of them need to be universally accessible (City of Winnipeg, 2010). In addition to the Technical Guideline suggestions made in the Review of UBC\u00E2\u0080\u0099s Guidelines section, it would also be ideal for UBC Building Operations to develop a fountain upgrade plan like SFU\u00E2\u0080\u0099s operations initiative to increase accessibility where there are currently older water fountain models. Priority should be given to buildings with higher amounts of student traffic and recreation but upgrades should systematically move their way throughout all campus buildings. The following list outlines which buildings require higher-priority upgrades: \u00EF\u0082\u00B7 Chemistry Building \u00E2\u0080\u0093 High student traffic \u00EF\u0082\u00B7 Macleod Building \u00E2\u0080\u0093 High student traffic \u00EF\u0082\u00B7 Irving K. Barber Learning Centre (add EZH2O dispenser or gooseneck) \u00E2\u0080\u0093 High student traffic \u00EF\u0082\u00B7 Civil and Mechanical Engineering Building \u00E2\u0080\u0093 High student traffic \u00EF\u0082\u00B7 Biological Sciences \u00E2\u0080\u0093 High student traffic \u00EF\u0082\u00B7 War Memorial Gym \u00E2\u0080\u0093 Recreational facility \u00EF\u0082\u00B7 Student Recreation Centre \u00E2\u0080\u0093 Recreational facility \u00EF\u0082\u00B7 Doug Mitchell Thunderbird Sports Centre \u00E2\u0080\u0093 Recreational facility \u00EF\u0082\u00B7 Osborne Centre (Units 1 and 2) \u00E2\u0080\u0093 Recreational facility \u00EF\u0082\u00B7 UBC Tennis Centre \u00E2\u0080\u0093 Recreational facility (Tran et al., 2012) 75 For cases where Building Operations needs to retrofit water fountains with bottle fillers, the department may want to consider installing bottle fillers with push-back mechanisms to increase convenience and durability (similar to the ones UVIC uses). Student Housing and Hospitality Services Since bottled water is commonly bought at UBC Food Service locations, it is suggested that UBC Food Services install water outlets at food service locations that do not already have them along with appropriate signage. It would also be ideal to consider putting in other designs, because the current design is not the most accessible to individuals in wheelchairs. As mentioned in the discussion of the Review of UBC\u00E2\u0080\u0099s water outlets section, wheelchairs limit the ability to reach up and forward, and consequently the current water dispenser design may be difficult for handicapped people to use. Modifications should consider height and depth of reach guidelines similar to those found in the BC Building Code for washroom installations (Figures 1 and 2 in the Appendix). Once water outlets have been installed at food service locations, it would also be ideal to decrease the availability of bottled water and bottled water advertisements at these sites to encourage students to fill their own bottles. Disposable cups could be available for people who do not have bottles, but a more reusable solution should be considered. In addition, SHHS could also add water fountains to the ground levels of residence common blocks at Marine Drive, Vanier and Totem. There are no fountains available in these common student areas even though they are high-traffic locations. Currently, students either need to return to their residence rooms or go to nearby food service areas for a refill. Installing water fountains in these locations would increase the convenience of using reusable water bottles. UBC Department of Athletics and Recreation It is recommended that the UBC Department of Athletics and Recreation increase water provision for athletes and spectators at Thunderbird Park and Thunderbird Stadium considering the suggestions made in the Water provision at UBC\u00E2\u0080\u0099s high-density outdoor areas section, specifically in Figure 4.5\u00E2\u0080\u0099s schematic. Although this project has proposed possible outlets the Department of Athletics and Recreation could install, further research and discussion needs to be done to determine the optimal and most economic water outlets to use. Once specific numbers of each outlet type are determined, quotes provided by suppliers will help determine which outlets are most feasible for the campus\u00E2\u0080\u0099s recreational fields. The next steps for this aspect of UBC water provision are: \u00EF\u0082\u00B7 To establish a budget and request quotes for potential outlets \u00EF\u0082\u00B7 Work out feasible water connections with UBC Building/ Plant Operations \u00EF\u0082\u00B7 Adjust the map from Figure 4.5 according to water supply, budget and heavier field usage 76 \u00EF\u0082\u00B7 Have selected water outlets and locations approved by UBC Building Operations and Campus and Community Planning To offer a more proximate source of water to the current bus loop and MacInnes Field, the Department of Athletics and Recreation could consider opening up the Student Recreation Centre\u00E2\u0080\u0099s doors adjacent to the bus loop to provide accessibility to fountains and washrooms inside. Considering the upgrades that will be occurring in the Gage South area, designs for the new Aquatic Centre could consider installing a water fountain accessible from the bus loop. This would depend on which direction the main entrance would face. An outdoor water fountain could also be installed at the new MacInness Field once it is relocated. Campus and Community Planning The recommendation for Campus and Community Planning is to discuss the feasibility of outdoor water outlets on campus and consider the proposed outdoor water fountain locations on main campus and along paths that connect recreational fields specified in Section 4. Water provision at UBC\u00E2\u0080\u0099s high-density outdoor areas. If the decision is to keep water outlets indoors, Campus and Community Planning should collaborate with building departments, Building Operations, and SHHS to discuss given alternatives and ensure that drinking water is accessible in all areas of the campus. Campus and Community Planning may also want to consider purchasing a portable Waterfillz station (similar to UVIC\u00E2\u0080\u0099s) for large outdoor events. 77 Conclusion UBC has been making significant strides towards its goal of expanding public access to drinking water and reducing the consumption of single-use water bottles. The creation of the Tap Water Declaration Committee ensures that the campus is committed to improving this aspect of its overall sustainability targets. This project provides the committee with guidelines to follow in making the campus\u00E2\u0080\u0099s drinking outlets universally accessible and more suitable for UBC\u00E2\u0080\u0099s community. The review of UBC\u00E2\u0080\u0099s water outlets has indicated that the most common water fountain found on campus and the Elkay EZH2O water fountain meet universal accessibility guidelines as well as offer excellent bottle-filling capabilities. Older water fountain models that are less accessible and convenient should be gradually phased out through a fountain upgrade program. The project has also explored the possibility of providing water outdoors on UBC\u00E2\u0080\u0099s main campus and at recreational fields accompanied by suggested infrastructure and locations. These findings and recommendations will help the institution attain the standards listed in the new tap water access definition. It is highly recommended that the committee openly communicate their intentions with the various departments on campus, because the success of this initiative will require both the cooperation and collaboration from the university\u00E2\u0080\u0099s students and staff. Although this project has provided and cited specific accessibility guidelines, it would be ideal to engage with the public on this aspect of water provision. People who use wheelchairs should actually test out highlighted outlets to confirm or refute the access claims from this project. Further research should also focus on the best way to discard old water fountain models and determine if their materials can be down-cycled into other industry products. 78 Acknowledgements I would like to thank the following staff and stakeholders for their support and mentorship throughout this project: Leith Blachford, Loriann Mcgowan and Victoria Wakefield from Student Housing and Hospitality Services; Justin Ritchie and Jenna Singh from AMS Sustainability; Bud Fraser from Campus Sustainability. I thank: Greig Samodien from UBC Building Operations for providing all the necessary documents and information to conduct the reviews of UBC\u00E2\u0080\u0099s water fountain guidelines and water outlets; Bradley Thomas from UBC\u00E2\u0080\u0099s Department of Athletics and Recreation for providing all the necessary documents and information to scope out current water provision conditions at Thunderbird Park and Stadium. I want to thank Liska Richer, the SEEDS Program Manager, for handling logistics and providing support throughout the project. 79 References Canadian barrier free design Inc. (2009). Accessibility Facility Design Criteria. Retrieved from https://www.viu.ca/facilities/DocumentReview/VIU_Access_Design_Guide_September24_2009_Review.pdf Cheng, A. (2013). Assessing Access to Drinking Water at UBC. Retrieved from http://sustain.ubc.ca/sites/sustain.ubc.ca/files/seedslibrary/Andrea%20Cheng_SEEDS%20Project%20Final%20Report%20Light%20Complete.pdf City of Vancouver. (2013). 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Retrieved from http://www.yorku.ca/csbo/planningrenovations/building-standards/documents/WaterBottlerefillandwaterfountainsFINALver1.0.pdf 81 Appendix Figure 1 (Canadian barrier free design Inc., 2009) Figure 2 \u00E2\u0080\u0093 (Canadian barrier free design Inc., 2009) "@en . "Report"@en . "10.14288/1.0108863"@en . "eng"@en . "Unreviewed"@en . "Vancouver : University of British Columbia Library"@en . "Attribution-NonCommercial-NoDerivs 2.5 Canada"@en . "http://creativecommons.org/licenses/by-nc-nd/2.5/ca/"@en . "Undergraduate"@en . "University of British Columbia. VOL 400"@en . "UBC Social Ecological Economic Development Studies (SEEDS) Student Report"@en . "Increasing access to drinking water at UBC"@en . "Text"@en . "http://hdl.handle.net/2429/54029"@en .