CCFC 25TH ANNUAL CONFERENCE. San Bernardino Community College Zero Net Energy at the District Office and Applied Technology Training Center

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1 San Bernardino Community College Zero Net Energy at the District Office and Applied Technology Training Center September 11, 2018 San Bernardino, California Meet Our Team 1

SBCCD s Approach to ZNE Renewable Energy - Solar PV System At SBCCD Led Lighting Retrofit In Closeout Phase Tube Skylight

2 ZNE Pilot Program Highlights SBCCD ZNE Journey Review of Prop 39 ZNE Pilot Program Review of Cadmus Analysis And Recommendations What is ZNE? SBCCD s Approach to ZNE Renewable Energy - Solar PV System At SBCCD Led Lighting Retrofit In Closeout Phase Tube Skylight Project In Construction Phase Implementation of Other ZNE Measures Spectrometer Spot Measurement Study By Agile Environments EnOcean Controls Installation And Commissioning Implementation of ZNE measures Campus Wide Welcome to SBCCD ZNE Journey 2

Who is SBCCD? 1 Out of 72 Community College Districts in State of California 2 Out of 114 Campuses of CCD system 3.3 Dollar tax-payer receive for every $1.

3 Who is SBCCD? 1 Out of 72 Community College Districts in State of California 2 Out of 114 Campuses of CCD system 3.3 Dollar tax-payer receive for every $1.0 invested in education 4 Million people within its geographical region 22 Cities and Communities within its geographical region 25,000 Opportunities for students annually 1 Million square-feet and 57 facilities district-wide 621,800,000 Dollar contribution annually for regional economic impact 21,000 students from 20 cities across the Inland Empire depend on Crafton Hills College and San Bernardino Valley College Our Service Area Includes: Big Bear Bloomington Colton Crestline Grand Terrace Highland Lake Arrowhead Loma Linda Mentone Redlands Rialto San Bernardino Yucaipa (Partial List) 3

7 Goals of Sustainability Plan 1. Create a campus-wide culture of sustainability 2. Incorporate sustainability into the development of new and renovated facilities 3.

Enhance curricular educational opportunities for sustainability 7.

4 7 Goals of Sustainability Plan 1. Create a campus-wide culture of sustainability 2. Incorporate sustainability into the development of new and renovated facilities 3. Invest in renewable energy and energy efficiency programs 4. Develop a more sustainable transportation system 5. Develop a more sustainable system for the purchase of supplies and materials 6. Enhance curricular educational opportunities for sustainability 7. Establish a commitment to climate action Facilities Planning & Construction Supports the mission of SBCCD through the planning and development of facilities and standards which advance learning by providing a safe, sustainable, and high-quality environment LEED and sustainability programs District standards & specifications Owner program requirements (OPR) Facilities master plan Sustainability integrated energy Energy conservation plan Waste water management plan Environmental health & safety program Saving by design Water saving plan Waste and recyclable 4

Sustainability is a Culture Participation @ American college and university presidents climate commitment 2010 Board policy (3580) in 2010 Committee membership in 2011 Sustainability plan adopted in

5 Sustainability is a Culture American college and university presidents climate commitment 2010 Board policy (3580) in 2010 Committee membership in 2011 Sustainability plan adopted in 2012 Long term dedication and commitment by board of trustees, chancellor, colleges presidents, community stakeholders Alternate energy conception plan 2011/2012 Energy conservation plan 2011/2012 Behavioral changes educational component 2012 today Facilities master plan 2017 through 2022 Integrating energy & sustainability master plan 2018 Challenges, Opportunities, Initiatives Overcoming challenges: Measure P Bond $190 Million Local obligation bonds Proposition 39 fund Capital outlay fund Energy saving Projects paid by itself saving from general fund CPCU incentives ZNE pilot program Professional consultants Events: green schools, CHESC, USGBC, CCFC, CMAA, AIA, CASH, etc. CCC/IOU Partnership Program Prop 39 SCE Zero-Net Energy Pilot Program Facilities, Sustainability & Integrated Energy Master Plans Energy Conservation Measures Measure M Bond $500 Million Prop 39 Clean Energy Act $3.1 Million 5

2017 Master Planning Sustainable facilities planning continue Sets milestones toward achieving zero net energy (ZNE) Sustainability goals for healthy environments Community enthusiasm for

sub-metering of all systems Electric/hybrid vehicle charging stations Online dashboard that shows power generation and power usage Retro-commissioning on a 3- to 5-year cycle Prop 39 ZNE Pilot

Funds for Prop 39, The California Clean Energy Jobs Act, are helping schools across California with the state s goals to reduce energy use and greenhouse emissions.

6 2017 Master Planning Sustainable facilities planning continue Sets milestones toward achieving zero net energy (ZNE) Sustainability goals for healthy environments Community enthusiasm for environmental stewardship Optimal learning conditions Next steps: Ultra-efficient building design standards Micro-grid and battery storage Fuel cell electrical generation Emerging technologies, sub-metering of all systems Electric/hybrid vehicle charging stations Online dashboard that shows power generation and power usage Retro-commissioning on a 3- to 5-year cycle Prop 39 ZNE Pilot Project Program Goals ZNE projects are part of California Public Utilities Company s (CPUC) Proposition 39 ZNE for Schools Pilot Program. Funds for Prop 39, The California Clean Energy Jobs Act, are helping schools across California with the state s goals to reduce energy use and greenhouse emissions. Leverage Prop 39 funds Retrofitting existing buildings in public schools & community colleges Establish Proof of Concept of feasibility across California Document findings & Best Practices Future Program Development Prop 39 ZNE Value to Schools Socialize awareness to stakeholders District staff members, teachers, students, parents, & community Design Assistance Training Implementation & on-going maintenance of these retrofits 6

Prop 39 ZNE Pilot Program Learning Objectives: Learning Objective 1: The pilot program aims to establish that ZNE retrofits of schools is feasible across California.

on any challenges on building to a ZNE level, is the basis of case studies being developed for school district education.

7 Prop 39 ZNE Pilot Program Learning Objectives: Learning Objective 1: The pilot program aims to establish that ZNE retrofits of schools is feasible across California. Learning Objective 2: All stakeholders involved in this pilot program are receiving an in-depth training on ZNE design and implementation, new and advance technologies, and the information gathered on any challenges on building to a ZNE level, is the basis of case studies being developed for school district education. Learning Objective 3: The pilot program will provide the basis of larger scale implementation of ZNE concept at schools and community colleges and it will make schools and communities stronger, resilient and energy independent. Learning Objective 4: Gather information about the current incremental cost of ZNE for school districts, and where these costs can be driven down, allowing district to redirect money for utility bills to classroom. Pre-ZNE Implementation: District Offices Current Utility Data Electrical consumption Peak electrical demand Average electricity cost Average gas cost 510,000 kwh/year 158 kw $0.15/kWh $1.17/therm Existing Equipment Lower efficiency rooftop package cooling units Electrical resistance water heaters for domestic hot water needs Lighting systems were found to be 1st generation T8 lamps and lack effective occupancy and daylight controls 7

8 CAMDUS Recommendations Zero Net Energy What is it? 1. Increased energy efficiency 2. Reduced operating costs 3. Resiliency 4. Insulation from future energy cost fluctuations 5. Societal value ENERGY CONSUMPTION RENEWABLE ENERGY BUILDING ENERGY MIDNIGHT 8

9 Zero Net Energy Approach Zero Net Energy Approach EEM-9 Automated Shading EEM-10 Light Tubes Photovoltaics EEM-6 Gas Water Heater EEM-5 Convert to VAV EEM-7 Plug load management EEM-3 Evaporative Condenser EEM-7 LED Lighting EEM-2 / 4 New RTU s 9

10 Zero Net Energy Approach 4,500,000 4,000,000 3,500,000 Energy Use / kbtu-yr 3,000,000 2,500,000 2,000,000 1,500,000 1,000, ,000 - Existing Energy Use Existing Source Energy Proposed Source Energy Electricity Natural Gas On site renewable energy (source) Zero Net Energy Approach 4,500,000 4,000,000 3,500,000 Energy Use / kbtu-yr 3,000,000 2,500,000 2,000,000 1,500,000 1,000, ,000 EEM s - Existing Energy Use Existing Source Energy Proposed Source Energy Electricity Natural Gas On site renewable energy (source) 10

Existing Source Energy Proposed Source Energy Electricity Natural Gas On site

11 Zero Net Energy Approach 4,500,000 4,000,000 3,500,000 Energy Use / kbtu-yr 3,000,000 2,500,000 2,000,000 1,500,000 1,000, ,000 - Existing Energy Use Existing Source Energy Proposed Source Energy Electricity Natural Gas On site renewable energy (source) Solar PV System kw Carport Photovoltaic System 2. Provided by Sunpower 3. Added benefits of keeping cars cool(er) and reduced heat island effect from asphalt 4. Operational since Feb Performance so far meeting expectations 11

12 LED Lighting Retrofit in Closeout Phase 1. Retrofit solution 2. LA Lighting and EnOcean controls have been key 3. Integration with solar tubes Parabolic Troffer Spectrometer Spot Measurement By: Kyle Konis Agile Environnements 12

Old Fluorescent Lighting at Open Office Workstation This grey curve is the circadian response function uw/cm2/nm 1.2 1.0 0.8 0.6 0.4 EML = 98 plux = 173 M/P = 0.57 Visual response function 0.

0 400 450 500 550 600 650 700 Wavelength (nm) Just SolaTube Where this measurement was taken, 269 EML is achieved with just the daylight coming from the SolaTube.

13 Old Fluorescent Lighting at Open Office Workstation This grey curve is the circadian response function uw/cm2/nm EML = 98 plux = 173 M/P = 0.57 Visual response function 0.2 Not much energy is distributed in the wavelengths of the circadian response Wavelength (nm) Just SolaTube Where this measurement was taken, 269 EML is achieved with just the daylight coming from the SolaTube. This measurement supports the design goal that workstations near Solatubes can be primarily lit with daylight during daylight hours, (even with the blinds fully closed). Old Fluorescent Compared with the old fluorescent light spectrum, which has sharp spikes, the daylight spectrum is broader and more even. The daylight source delivers nearly three times more Equivalent Melanopic Lux (EML), which leads to greater potential for circadian stimulus and alertness uw/cm2/nm uw/cm2/nm Wavelength (nm) EML = 269 plux = 274 M/P = Wavelength (nm) EML = 98 plux = 173 M/P = EML 98 EML 13

14 LED Lighting Retrofit in Closeout Phase Executive Training Room LED Lighting Retrofit in Closeout Phase EnOcean Controls 14

15 LED Lighting Retrofit in Closeout Phase EnOcean Commissioning Tube Skylight Project in Construction Phase 15

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Air Volume (VAV) Provide new variable air volume boxes for training rooms.

19 HVAC Replacement in Bidding Phase HVAC Demolition and replacement of five existing rooftop package constant volume units with new ultra high efficiency variable speed air conditioning units Variable Air Volume (VAV) Provide new variable air volume boxes for training rooms. Controls The existing building energy management system will be upgraded. CO2 sensors for demand control ventilation are being added. 19

20 Replacement of Hot Water Heater in Procurement Phase Utilizing Southern California Gas Midstream Program Replacing existing storage gas water heater with tankless high efficiency water heater. Automated Shading in Planning Phase Motorized Mecho Shade Daylight Wireless Sensor Allows operation of shades via EnOcean controls 20

Campus-wide Upcoming Renewable Energy At SBVC campus Self-generation and

2 mw solar carport and rooftop Approved interconnection application by SCE

Partnership (P3) Combined with Battery storage Long term power stability Q&A

Hussain Agah (SBCCD) Director, Facilities Planning & Construction Lisa Hannaman

21 Campus-wide Upcoming Renewable Energy At SBVC campus Self-generation and reliability Reduced utility bills Economical factors 2.2 mw solar carport and rooftop Approved interconnection application by SCE Grandfather TOU for 10 years Clean Renewable Energy Bond Public-Private Partnership (P3) Combined with Battery storage Long term power stability Q&A Moderator: Farrah Farzaneh (SBCCD) Sustainability and Energy Manager Panel: Hussain Agah (SBCCD) Director, Facilities Planning & Construction Lisa Hannaman (SCE) Account Manager Martin Howell (Arup) Associate Principal, Energy Ken Salyer (HMC Architects) Principal / Higher Education Practice Leader 21