PROJECT: UC SANTA CRUZ SHW SUSTAINABILITY LUNCH AND LEARN

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1 PROJECT: SHW SUSTAINABILITY LUNCH AND LEARN TOPICS: STUDENT HOUSING WEST (SHW) INTRODUCTION SUSTAINABILITY POLICIES AND GOALS SHW NET-ZERO STRATEGIES Q&A LOCATION: SANTA, CA DATE: MAY 22, 2018 PAGE 1

2 PROJECT OVERVIEW One integrated project. Three unique communities. Two sites Phased construction. Heller site (west campus, ~13 acres). Hagar site (lower campus, ~13 acres). Meeting current housing demands. Approx. 3,000 beds for upper division undergraduates, graduates, and students with families. Early Education Center for 140 children. Project delivery model. Public Private Partnership (P3). Not for Profit Owner Collegiate Housing Foundation. Developer Capstone Development Partners, LLC. PAGE 2

3 HELLER SITE PAGE 3

4 HELLER SITE 2,700 beds for upper division undergraduate students. 220 beds for graduate students. Scale and massing configured to capitalize on open spaces and retain view sheds. Dedicated space for study rooms, social lounges, and community kitchens. Community Hub with dining and café, market, fitness/wellness center, and a commons/living learning center. Exterior courtyards, plazas, and programmed spaces focusing on informality and individuality. PAGE 4

5 HELLER SITE PLANNING Universal accessibility throughout site. Buildings connected by series of breezeways uniting buildings with courtyards and open spaces. New and existing pedestrian pathways provide connection to the campus. Multi-modal transportation. Car share and loading/unloading zones. EV stations. Secured bike parking and bike share. Mass transportation improvements. PAGE 5

6 HELLER SITE - LANDSCAPING Mixed forest palette around site edges and corridors to provide forest and habitat connectivity. Climate adaptive planting in plazas and planting beds within the site interior using regional native and campus plant palette. Development confined to approximate square footage and location of existing Family Student Housing development. Provides 1.75 acres of enhanced dispersal habitat between drainages including vegetated cover, barrierfree routes, and protective fencing. PAGE 6

7 View from above Porter College PAGE 7

8 View from Southern Courtyard looking East PAGE 8

9 View of Southern Courtyard from Heller Drive PAGE 9

10 View from South looking North at Building 5 and Hub PAGE 10

11 View of Northern Courtyard PAGE 11

12 HAGAR SITE PAGE 12

13 HAGAR SITE - BUILDINGS 35 two-story buildings clustered in 8-12 units per building and providing approximately 140 two-bedroom units for student families. Community & Administration Building. Early Education Center. Community Garden. Interior commons and play areas focused on creating community and safe spaces for children and families. PAGE 13

14 HAGAR SITE VIEWSHED AND VISIBILITY Legend Zone Where Visible Zone Where Not Visible OPERS Facilities Practice Field Meadow Project Site Existing Residences PAGE 14

15 HAGAR SITE PLANNING Universal accessibility across community. Trails and sidewalks connect open spaces and buildings. Designated parking for residential and EEC on site with bike parking at buildings and a bike share at Community Center. Site close to existing transit stops. Second entrance at Coolidge and pedestrian improvements added to mitigate EIR impacts. Pedestrian and mass transportation improvements. PAGE 15

16 HAGAR SITE LANDSCAPING Focused revegetation to blend the site into adjacent meadow and Jordan Gulch areas. Regional native and campus plant palette to create strong ecological connections between site and campus. Climate adaptive planting in plazas and planting beds within the interior using regional native and campus plant palette. Natural area in SW corner to enhance visual experience at Hagar/Coolidge intersection. PAGE 16

17 Hagar Drive & Coolidge Road, View to Northeast PAGE 17

18 Hagar Drive & Village Road, View to Southeast PAGE 18

19 View of Interior Circulation Road looking North PAGE 19

20 View of Northern Interior Commons looking South PAGE 20

21 SUSTAINABILITY PAGE 21

22 SUSTAINABILITY AT PAGE 22

23 SUSTAINABILITY THE ENVIRONMENTAL PILLAR PAGE 23

24 PROJECT SUSTAINABILITY GOALS NET-ZERO CARBON NET-ZERO WATER NET-ZERO WASTE UC has pledged to become carbon neutral by % of non-potable water from recycled water ( net-zero non-potable ) Achieve zero waste by diverting 90% of all waste from landfill. No natural gas use Innovative, efficient building design Energy efficient lighting, fixtures and appliances Maximize onsite renewable energy generation (solar PV) Water efficient design (building and irrigation) Onsite wastewater treatment and reuse Source separation Materials reuse Recycling Composting PAGE 24

25 HELLER SUSTAINABILITY GOALS Goal. LEED Platinum Net Zero Energy efficient building systems, appliances, and light fixtures. Waste Water Treatment Facility Recycled water for toilet flushing and irrigation. Use of excess recycled water elsewhere on campus. Rooftop solar photovoltaics. Solar thermal. Demand Management Smart metering. Education. PAGE 25

26 HAGAR RECYCLED WATER SYSTEM 50,000,000 Heller Water Use 45,000,000 SAVINGS OVER THE NEXT 40 YEARS PROJECTED AT $47.9M Annual Water Use (Gallons) 40,000,000 35,000,000 30,000,000 25,000,000 20,000,000 15,000,000 10,000,000 56% REDUCTION 24.4M GAL/YR SAVINGS 5,000,000 0 BAU Proposed City Water Recycled Water Water Efficiency NOTE: This includes Heller use only. Recycled water use at Porter & Kresge Colleges saves an additional 3.9 million gallons per year. PAGE 26

27 HELLER PATHWAY TO NET-ZERO ENERGY EUI = UCSC TECHNICAL REQUIREMENT EUI = 26 kbtu/sf/year EUI = 23.6 On-site solar = 785 kw Off-site (on campus) solar requirement = 3.33 MW PAGE 27

28 HELLER ON-SITE PV AND SOLAR THERMAL SOLAR PV / THERMAL ON ALL ROOFTOPS EXAMPLE ROOFTOP LAYOUTS SITE PLAN PAGE 28

29 HAGAR SUSTAINABILITY GOALS UNIVERSITY ZERO WASTE POLICIES IN PLACE Goal LEED Platinum. Net Zero PHOTOVOLTAIC ROOFS Energy efficient building systems, appliances, and light fixtures. Exceeds UC Sustainable Practices Policy Requirements Waste Water Treatment Facility Recycled water for toilet flushing and irrigation. Rooftop solar photovoltaics. Demand Management Smart metering. Education. NATURAL VENTILATION NATIVE DROUGHT TOLERANT VEGETATION UNIVERSITY DEMAND MANAGEMENT SYSTEM WASTE WATER TREATMENT FACILITY PAGE 29

30 HAGAR RECYCLED WATER SYSTEM 14,000,000 Hagar Water Use SAVINGS OVER THE NEXT 40 YEARS PROJECTED AT $12.5M Annual Water Use (Gallons) 12,000,000 10,000,000 8,000,000 6,000,000 4,000,000 61% REDUCTION 7.5M GAL/YR SAVINGS 2,000,000 0 BAU Proposed City Water Recycled Water Water Efficiency PAGE 30

31 HAGAR PATHWAY TO NET-ZERO ENERGY 2,000,000 1,800,000 EUI = ,600,000 UCSC TECHNICAL REQUIREMENT EUI = 26 kbtu/sf/year ANNUAL ENERGY USE (kwh) 1,400,000 1,200,000 1,000, , ,000 BAU BUILDING EFFICIENCY THERMAL ENERGY ON-SITE ROOFTOP PV EUI = 25.5 On-site solar = 350 kw 400, ,000 OFF-SITE SOLAR PV Off-site (on campus) solar requirement = 385 kw - BAU HAGAR DESIGN PAGE 31

32 HAGAR ON-SITE PV & SOLAR THERMAL SOLAR PV / THERMAL ON ALL ROOFTOPS TYPICAL ROOFTOP LAYOUT SITE PLAN PAGE 32

33 PATHWAY TO NET ZERO WASTE Project infrastructure designed to achieve systemwide landfill diversion goal of 90%. Provide bins and signage to promote pre-sorting Include divertible packaging at Hub Market/Dining Employ on site construction and innovative prefabrication techniques to reduce factory waste and achieve up to 90% diversion during construction. (1) Organics (CY/Wk) Corrugated Cardboard (CY/Wk) (2) Commingled Recyclable (CY/Wk) Mixed Clean Paper (CY/Wk) (3) Donatable Materials (CY/Wk) (4) Recyclable Hazardous (CY/Wk) (5) Non- Recyclable Hazardous (CY/Wk) (6) E-Waste (CY/Wk) BUILDING BUILDING BUILDING BUILDING BUILDING TOTAL PAGE 33

34 SHW WASTE FLOW Chute & Waste Rooms Transport Point of Generation Tracking Compost - BiobiN Waste Management Center PAGE 34

35 ENGAGEMENT AND EDUCATION RESIDENTIAL COMMERCIAL RESIDENTIAL COMMERCIAL RESIDENT EDUCATION MANUAL HOUSING CONTRACTS SIGNAGE DASHBOARD TOURS PAGE 35

36 ENGAGEMENT AND EDUCATION PAGE 36

37 DISCUSSION PAGE 37