DECARBONIZING EXISTING COMMERCIAL BUILDINGS
Transcript of DECARBONIZING EXISTING COMMERCIAL BUILDINGS
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DECARBONIZING EXISTING COMMERCIAL BUILDINGS
Webinar6/24/20
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DAVID ADLERPROGRAM MANAGER
SAN DIEGO GREEN BUILDING COUNCIL
Photo by Daniel Guerra on Unsplash
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Inspire, educate and collaborate within our community to transform our built
environment toward true sustainability
Our buildings and communities will regenerate and sustain the health and vitality of all life within a generation.
SAN DIEGO GREEN BUILDING COUNCIL
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PARTNERSHIPS w/ LOCAL MUNICIPALITIES
San Diego Regional Energy Partnership
City of San Diego City of La Mesa City of Chula Vista City of El Cajon National City County of San Diego
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2020 Focus
DECARBONIZATION WATER REUSE HEALTH & WELLNESS EQUITY
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NATIONAL CONNECTIONS
LOCAL FOCUS
PERSONAL INTERACTIONS
IMPLEMENTATION
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Upcoming Events
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Presenter
Tony Sclafani, PE, CEMEngineering Manager, Pacific Coast
Johnson Controls
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This Photo by Unknown Author is licensed under CC BY-NC-ND
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Decarbonizing Existing Commercial Buildings
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Learning Objectives1. Learn what decarbonization of buildings means.
2. Become familiar with practical applications of building system technologies to achieve decarbonization of existing commercial buildings.
3. Learn about the anticipated interactions between decarbonized buildings and other related topics of building performance such as electrification, demand response, gas and electric utilities, and other topics.
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Conclusions Decarbonization of buildings means the elimination of carbon dioxide and other
greenhouse gas emissions from buildings. Eliminating the use of natural gas in residential and commercial buildings would
have the same impact as shutting off all power plants in California. Decarbonizing the building stock is a serious challenge. Energy transfer is dangerous. Use your judgment and professional experience to evaluate data and opinions.
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Disclosure: My work is based on energy retrofits in existing commercial buildings.
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Condensed Presentation
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Backgroundon
Decarbonization
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Definitions Working definition1
Decarbonization is the process of reducing economy-wide carbon or other greenhouse gases.
“Deep Decarbonization” Reducing GHG emissions to achieve 2050 goals in the equivalent
MMTCO2e. In other words, when the goal is achieved we’ve successfully
decarbonized. Decarbonization of Buildings
Elimination of carbon dioxide and other greenhouse gas emissions from buildings.
16Source: California’s Building Decarbonization Opportunity: Knowing Where We Are and Delivering What We Need. Building Decarbonization Coalition.
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Policy Progression
Energy Policy
Climate Policy
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California Climate Goals
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Stat
ewid
e G
HG
Em
issi
ons
1990 Levels
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Methane
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Methane
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Methane
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Is methane use in buildings significant?
Source: https://ww2.arb.ca.gov/ghg-descriptions-sources
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Methane 2017 total California emissions ≈ 424.1MMTCO2e Residential and commercial emissions ≈ 41.1MMTCO2e (10%)
38.6 MMTCO2e from CO2 90% of the 41.1 is from combustion of natural gas
1.4 MMTCO2e from N2O 0.94 MMTCO2e from CH4
1. California’s Building Decarbonization Opportunity: Knowing Where We Are and Delivering What We Need. Building Decarbonization Coalition.
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MethaneIs electrifying the heating systems in buildings a good value proposition?
≈10% of total emissions in California is due to natural gas usage in residential and commercial buildings.
Compare with 9% of total emissions due to in-state electricity generation.
Eliminating the use of natural gas in residential and commercial buildings would have the same impact as shutting off all power plants in California.
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Emissions by category
24Source: https://ww3.arb.ca.gov/cc/inventory/pubs/reports/2000_2017/ghg_inventory_trends_00-17.pdf
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Emissions by category
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Building Decarbonization Coalition CARB
≈25% of emissions come from buildings
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Emissions within buildings
26Is electrifying the heating systems in buildings an appropriate solution?
Source: https://www.c2es.org/document/decarbonizing-u-s-buildings/
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AchievingDecarbonization
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Design Approach1. Establish the target2. Maximize energy efficiency3. Electrify4. Implement renewables (PV)
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Design Approach Efficiency reduces the cost of PV (via right-
sizing) Reduced building loads and PV capacity
mitigates the cost of electrical upgrades
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Energy Uses in Buildings Electricity
Lighting HVAC (ventilation and cooling) Miscellaneous Loads
Plug loads Refrigeration Cooking Process
Natural Gas HVAC (heating) Domestic hot water (heating) Process
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LED Lighting1. LED tubes2. LED fixtures3. LED fixtures with embedded controls
1. Tuning2. Dimming3. Daylight harvesting4. Color changing5. Occupancy sensors
4. Networked5. BAS-integrated6. App enabled (asset tracking, wayfinding, etc.)
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HVAC – Heating and Cooling Loads Reduce Envelope loads
Window film Weatherization Window replacement Exterior EIFS insulation Indoor furred insulation Ceiling insulation Roof insulation Door adjustments, weatherization, replacement
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HVAC – Heating and Cooling Loads Reduce* ventilation loads
Re-calculate outdoor air ventilation requirements based on actual building operation.
Perform testing, adjusting, and balancing to set correct minimum outdoor air flows. Make control system programming adjustments as needed.
Install or retro-commission economizer systems. Make control system programming adjustments for outdoor air
temperature lockout, unoccupied lockout, and optimal startup sequences of operation.
*COVID-19 Follow ASHRAE guidance and maintain code compliance
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HVAC - Equipment RTUs to heat pumps Packaged AHUs to electric heat Terminal unit replacement and conversion to
WSHP or electric reheat Fan energy reductions Chillers (heat pump chillers, heat recovery
chillers) Pumps Cooling towers
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HVAC – Space Heating RTUs to heat pumps Packaged AHUs to electric heat Terminal unit replacement and conversion to WSHP or electric
reheat Convert hot water boilers from gas to electric Steam systems
De-couple heating hot water (≈180F) from domestic hot water (≈120F)
Remove heat exchangers Install electric boilers
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Domestic Hot Water Heat Pump Hot Water Heaters Electric DHW heaters
Tankless Storage tank
Electric point-of-use hot water heaters
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Miscellaneous Electrical Loads Plug load controls Refrigeration door seals, defrost controls, evaporator
fan motor controls Consolidate and unplug unused refrigeration ENERGY STAR kitchen cooking and refrigeration
equipment Kitchen exhaust hood controls Process equipment
Elevators Air compressors Shop equipment
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Solar PV Carport PV Rooftop PV Ground mount PV
Fixed tilt Single axis tracking Dual axis tracking
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Energy Storage Life cycle cost savings Time delay benefits Grid interaction benefits Value stacking and revenue generation
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Controls Control of disparate building energy systems Integrations and APIs Optimization
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User Interface Occupants’ proactive and ongoing
role EG: COVID-19, PSPS, wildfires
(“resiliency”)
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Electrical Load Reductions1. LED lighting2. Cooling system3. Air distribution system4. Reduction of miscellaneous loads
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Electrical Load Additions1. Electric vehicles2. Space heating3. Hot water heating4. Process loads
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The Boiler Situation Boiler electrification creates a large electrical load 1,000,000 Btu/hr input boiler provides ≈ 800,000
Btu/hr output 800,000 Btu/hr output ≈ 235 kW
≈$60k per electric boiler vs. $33k for gas + electrical upgrades ≈$10,000+++ + solar capacity (sized relative to therm usage, not
kW rating) + battery capacity
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Electrical Distribution Upgrades
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Distribution Panel
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Electrical Distribution Upgrades
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Service Entrance Switchboard
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Learning Objectives1. Learn what decarbonization of buildings means.
2. Become familiar with practical applications of building system technologies to achieve decarbonization of existing commercial buildings.
3. Learn about the anticipated interactions between decarbonized buildings and other related topics of building performance such as electrification, demand response, gas and electric utilities, and other topics.
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Conclusions Decarbonization of buildings means the elimination of carbon dioxide and other
greenhouse gas emissions from buildings. Eliminating the use of natural gas in residential and commercial buildings would
have the same impact as shutting off all power plants in California. Decarbonizing the building stock is a serious challenge. Energy transfer is dangerous. Use your judgment and professional experience to evaluate data and opinions.
48
Disclosure: My work is based on energy retrofits in existing commercial buildings.
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Backgroundon
Decarbonization
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Definitions Working definition1
Decarbonization is the process of reducing economy-wide carbon or other greenhouse gases.
“Deep Decarbonization” Reducing GHG emissions to achieve 2050 goals in the equivalent
MMTCO2e. In other words, when the goal is achieved we’ve successfully
decarbonized. Decarbonization of Buildings
Elimination of carbon dioxide and other greenhouse gas emissions from buildings.
52Source: California’s Building Decarbonization Opportunity: Knowing Where We Are and Delivering What We Need. Building Decarbonization Coalition.
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Policy Progression
Energy Policy
Climate Policy
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Policy Progression 1975 – Energy Policy and Conservation Act (EPCA)
In response to 1973 oil crisis. Goals included reducing energy demand and improving energy efficiency.
2005 – Energy Policy Act (EPACT) 2005 – Kyoto Protocol enters into force 2006 – AB 32 Global Warming Solutions Act of 2006 2015 – SB 350 Clean Energy and Pollution Reduction Act 2018 – SB 100 California Renewables Portfolio Standard Program: emissions of
greenhouse gases 2018 – SB 1477 Low-emissions buildings and sources of heat energy
Led to CPUC rulemaking on building decarbonization (R.19-01-011).
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California Climate Goals Executive Order S-3-05
By 2010, reduce GHG emissions to 2000 levels By 2020, reduce GHG emissions to 1990 levels By 2050, reduce GHG emissions to 80 percent below 1990 levels
Executive Order B-30-15 By 2030, reduce GHG emissions to 40 percent below 1990 levels
SB 100 100% of all electricity must come from renewable and zero carbon
sources by December 31, 2045.
Executive Order B-55-18 By 2045, achieve carbon neutrality.
Targets total GHG emissions within the state of California
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Fun Fact: SB 100 and EO B-55-18 were signed by Gov. Brown on the same day.
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California Climate Goals
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Stat
ewid
e G
HG
Em
issi
ons
1990 Levels
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What are greenhouse gases? “Gases that trap heat in the atmosphere are called greenhouse
gases.” – US EPA Health and Safety Code 38505 identifies seven greenhouse
gases that ARB is responsible to monitor and regulate in order to reduce emissions:
1. Carbon dioxide (CO2)2. Methane (CH4)3. Nitrous oxide (N2O)4. Sulfur hexafluoride (SF6)5. Hydrofluorocarbons (HFCs)6. Perfluorocarbons (PFCs)7. Nitrogen trifluoride (NF3).
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What are greenhouse gases?
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92% of emissions come from CO2and CH4
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Methane Methane is converted into carbon dioxide after
combustion 1 ton of methane (CH4) emissions ≈ 25 to 35 tons of
carbon dioxide emissions Natural gas is 70%-90% methane (and 0%-8%
carbon dioxide) Gas leaks
≈1.5% to 3% nationwide
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Methane
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Methane Natural gas leaks
>2% and no climate benefit >3% and the climate change impact is doubled ≈1.5% to 3% nationwide Estimated at 3.6% (2.4% to 4.3%) for California
Methane emissions are bad
61Source: Presentation by Panama Bartholomy to Silicon Valley Clean Energy; https://www.youtube.com/watch?v=dRkz_FPi6z8&t=998s
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Methane
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Methane
63Source: https://ww3.arb.ca.gov/cc/inventory/data/tables/ghg_inventory_scopingplan_2000-17ch4.pdf
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Methane
64Source: https://ww3.arb.ca.gov/cc/inventory/data/tables/ghg_inventory_scopingplan_2000-17ch4.pdf
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Methane
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MethaneIs electrifying the heating systems in buildings an appropriate solution?
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Emissions by sector
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Building Decarbonization Coalition CARB
26%-27% of emissions come from buildings
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Emissions within buildings
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AchievingDecarbonization
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Design Approach1. Establish the target2. Maximize energy efficiency3. Electrify4. Implement renewables (PV)
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Design Approach Efficiency reduces the cost of PV (via right-
sizing) Reduced building loads and PV capacity
mitigates the cost of electrical upgrades
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What are we designing to offset? Site vs. source? National averages? Real-time values? TDV emissions? Commute? Water? Embodied carbon?
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“Embodied Carbon”Fabricating the materials that comprise buildings—like concrete, steel, and windows—also releases a significant amount of carbon into the atmosphere. These emissions are called “embodied carbon” because the carbon emissions from producing and transporting materials have already occurred prior to construction and are fixed. Therefore, this amount of carbon emissions are symbolically represented (embodied) by the building itself.
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“Embodied Carbon”
76Source: https://www.imt.org/should-i-stay-or-should-i-go-the-embodied-carbon-of-new-and-existing-buildings/
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Energy Uses in Buildings Electricity
Lighting HVAC Miscellaneous Loads
Plug loads Refrigeration Cooking Process
Natural Gas HVAC (heating) Domestic hot water (heating) Process
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“Deep Energy Retrofits” Holistic approach vs. isolated systems Occupants’ proactive and ongoing role Contrast with “Deep Decarbonization”
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LED Lighting1. LED tubes2. LED fixtures3. LED fixtures with embedded controls
1. Tuning2. Dimming3. Daylight harvesting4. Color changing5. Occupancy sensors
4. Networked5. BAS-integrated6. App enabled (asset tracking, wayfinding, etc.)
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LED Lighting Every fixture can be an IP addressable Unlimited zoning Maximized savings Data
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HVAC – Heating and Cooling Loads Reduce Envelope loads
Window film Weatherization Window replacement Exterior EIFS insulation Indoor furred insulation Ceiling insulation Roof insulation Door adjustments, weatherization, replacement
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HVAC – Heating and Cooling Loads Reduce* ventilation loads
Re-calculate outdoor air ventilation requirements based on actual building operation.
Perform testing, adjusting, and balancing to set correct minimum outdoor air flows. Make control system programming adjustments as needed.
Install or retro-commission economizer systems. Make control system programming adjustments for outdoor air
temperature lockout, unoccupied lockout, and optimal startup sequences of operation.
*COVID-19 Follow ASHRAE guidance
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HVAC - Equipment RTUs to heat pumps Packaged AHUs to electric heat Terminal unit replacement and conversion to
WSHP or electric reheat Fan energy reductions Chillers (heat pump chillers, heat recovery
chillers) Pumps Cooling towers
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HVAC – Space Heating RTUs to heat pumps Packaged AHUs to electric heat Terminal unit replacement and conversion to WSHP or electric
reheat Convert hot water boilers from gas to electric Steam systems
De-couple heating hot water (≈180F) from domestic hot water (≈120F)
Remove heat exchangers Install electric boilers
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Domestic Hot Water Heat Pump Hot Water Heaters Electric DHW heaters
Tankless Storage tank
Electric point-of-use hot water heaters
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Miscellaneous Electrical Loads Plug load controls Refrigeration door seals, defrost controls, evaporator
fan motor controls Consolidate and unplug unused refrigeration ENERGY STAR kitchen cooking and refrigeration
equipment Kitchen exhaust hood controls Process equipment
Elevators Air compressors Shop equipment
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Solar PV Carport PV Rooftop PV Ground mount PV
Fixed tilt Single axis tracking Dual axis tracking
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Energy Storage Life cycle cost savings Time delay benefits Grid interaction benefits Value stacking and revenue generation
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Controls Control of disparate building energy systems Integrations and APIs Optimization
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User Interface Recall “deep retrofits” Occupants’ proactive and ongoing
role EG: COVID-19, PSPS, wildfires
(“resiliency”)
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PracticalConsiderations
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Electrical Load Reductions LED lighting Cooling system Air distribution system Reduction of miscellaneous loads
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Electrical Load Additions Electric vehicles Space heating Hot water heating Process loads
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The Boiler Situation Boiler electrification creates a large electrical load 1,000,000 Btu/hr input boiler provides ≈ 800,000
Btu/hr output 800,000 Btu/hr output ≈ 235 kW
≈$60k per electric boiler vs. $33k for gas + electrical upgrades ≈$10,000+++ + solar capacity (sized relative to therm usage, not
kW rating) + battery capacity
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Electrical Distribution Upgrades
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Distribution Panel
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Electrical Distribution Upgrades
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Service Entrance Switchboard
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Electrical Distribution Upgrades
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Utility Distribution Transformer
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Electrical Distribution Upgrades
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Utility Distribution Transformer
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Electrical Distribution Upgrades
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Utility Distribution Transformer
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Electrical Distribution Upgrades
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Electrical Substation
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Electrical Distribution Upgrades
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Upgrade Type Location Cost
New panels Behind the meter Manageable
New service entrance switchboard Behind the meter Expensive
New utility distribution transformer In front of the meter Very expensive
Substation improvements In front of the meter Worst case
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EV Load Additions≈ 30 Amps per Level 2 charger
Think malls, stadiums, campuses, etc.
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Solar PV and Energy Storage Do it once? Switchboard upgrades Flexibility = value
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Related Topics
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Zero Net Energy (ZNE)What about ZNE?
ZNE building - An energy-efficient building where, on a source energy basis, the actual annual consumed energy is less than or equal to the on-site renewable generated energy.
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Focus is shifting from energy to climate (from what to why).
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Measurement & Verification“Measurement and Verification” (M&V) is the process of using measurement to reliably determine actual savings created within an individual facility by an energy management program.
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WaterEmissions are associated with water treatment and distribution.
Similar to embodied carbon.
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Delivery MethodsDesign-Bid-BuildDesign-BuildConstruction Manager at Risk (aka CM/GC)Construction Management Multi-PrimePublic Private Partnership (P3)Integrated Project Delivery
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Consider the benefits of holistic, integrated, design and responsibility for performance outcomes.
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Project Finance Grants, rebates, incentives Capital projects Lease purchase Bond financing Third party ownership
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Involve financial stakeholders early
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Microgrids
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AC vs. DC Solar PV generates DC power EV chargers provide DC power DC microgrids under study
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AC for the foreseeable future. Buildings are wired for AC.
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Digital Transformation Building Systems
Standalone legacy systems Smart Systems
Optimization and analytics Interconnected Systems
EG: HVAC + lighting Converged Systems
Shared technology stack, interoperable sensors AI & Data Driven Systems
Event-based, personalized, shares data across enterprise
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In the near future “apps” for buildings will be common
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Demand Response• Per Title 24:• DEMAND RESPONSE is short-term changes in electricity usage by end-use customers
from their normal consumption patterns. Demand response may be in response to:• a. changes in the price of electricity; or • b. participation in programs or services designed to modify electricity use
• i. in response to wholesale market prices or• ii. when system reliability is jeopardized.
• DEMAND RESPONSE SIGNAL is a signal sent by the local utility, Independent System Operator (ISO), or designated curtailment service provider or aggregator, to a customer, indicating a price or a request to modify electricity consumption, for a limited time period.
• DEMAND RESPONSIVE CONTROL is a kind of control that is capable of receiving and automatically responding to a demand response signal.
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A.I.
114Source: https://medium.com/ai-in-plain-english/artificial-intelligence-vs-machine-learning-vs-deep-learning-whats-the-difference-dccce18efe7f
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A.I.
115Source: https://medium.com/ai-in-plain-english/artificial-intelligence-vs-machine-learning-vs-deep-learning-whats-the-difference-dccce18efe7f
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Public Health
116Source: https://www.cdc.gov/climateandhealth/effects/default.htm
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Climate Equity Energy poverty Price volatility Limited ability to mitigate climate
risks (EG: electrification)
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Jobs
118Source: https://innovation.luskin.ucla.edu/wp-content/uploads/2019/11/California_Building_Decarbonization.pdf
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Jobs
119Source: https://innovation.luskin.ucla.edu/wp-content/uploads/2019/11/California_Building_Decarbonization.pdf
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Safety
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Risk of wildfires vs. risk of natural gas explosions.Energy in any form can cause injury.
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Natural Gas Utilities Resource adequacy role Natural gas is better for
environment than coal
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Electric Utilities Traditional utilities (SDGE) New developments (CCAs) Solution to the PV re-sizing problem may be to
balance electrical purchases. SDGE EcoChoice and EcoShare.
Utility-to-building communications and control
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Learning Objectives1. Learn what decarbonization of buildings means.
2. Become familiar with practical applications of building system technologies to achieve decarbonization of existing commercial buildings.
3. Learn about the anticipated interactions between decarbonized buildings and other related topics of building performance such as electrification, demand response, gas and electric utilities, and other topics.
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Conclusions Decarbonization of buildings means the elimination of carbon dioxide and other
greenhouse gas emissions from buildings. Eliminating the use of natural gas in residential and commercial buildings would
have the same impact as shutting off all power plants in California. Decarbonizing the building stock is a serious challenge. Energy transfer is dangerous. Use your judgment and professional experience to evaluate data and opinions.
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ResourcesCARBhttps://ww2.arb.ca.gov/our-work/programs/ghg-inventory-program
The Building Decarbonization Coalitionhttp://www.buildingdecarb.org/
CPUChttps://www.cpuc.ca.gov/BuildingDecarb/
Icons made by Freepik from www.flaticon.com
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End of Presentation
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