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Home My WebLink AboutDocumentation_Environmental Advisory Committee_Tab 01_11/9/2022Agenda Item #1. Environmental Advisory Committee (EAC) STAFF MEMO Meeting: Staff Contact: Environmental Advisory Committee (EAC) -Nov 09 2022 Lynne Britt Department: Environmental Advisory Committee EMIF MD A Village of Tequesta 2019 Baseline GHG Emissions Inventory Report. Presenters: Tom Herrod, Senior Program Officer, ICLEI USA (Local Governments for Sustainability), and Hannah Miller, Program Officer, ICLEI USA This document and any attachments may be reproduced upon request in an alternative format by completing our Accessibility Feedback Form, sending an e-mail to the Village Clerk or calling 561-768- 0443. PROJECT NAME: BUDGET: n/a ENCUMBERED: n/a Proposed: Projected Remaining: n/a n/a 2019 Baseline GHG Emissions Inventory Overview and Results - ICLEI PRESENTATION TO EAC 11 A 9n99 Village of Tequesta 2019 Baseline GHG Emissions Inventory Report 11.9.2022 Page 4 of 109 Agenda Iteo-Ol. rE$ u a c 4 Y 2 w 3 7 ,fu v e Page 5 of 109 Agenda Iteo-Ol. E$ W a c o Y S7 4 ui f4 fO 4 E fu • E 4--1fu a �- u w ru 0 CT E � o _.tn > U} t� m f)-0 ply Sufi rua) ru cm � QJ f �? 4-J Lin o LC1 f ru L U (31 ci— � cn V) � .° E_ { 0 4 7 ru Ln L L. E r Ez 0 U L Q + c u L Boa J 0 Ln a) �_ M t .0 I E U � § —1 f4� W D Q] a) x c� � � N > w I_—w mac " C CM< - Q ru J Page 6 of 109 Agenda Ite#.!,#1. E$ ai c 'o •;? 2 w a,f v e J 4-J 0 Lq F l u • L p� 1 l.! ►ir r V) 5. 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Yi Page 23 of 109 Agenda Itefn,#1. ru s �r �A rA LA i CA u � ❑ u CL •}}�..� 0 Gi +U m OA m 4J W � ( m u � i _ to t Ln C c ❑ ,4 Ln Z; W V a--r '0 IF-Q� m u (U,T C -0 D c 0 C m (uto L :3 *= c s►� ' C 0 O p C7 '� a-J m n :3 M CL = -0 +.A E ra 0 cs .> V9 C u Q 0 O CL am m CL 0 a-j Q 0 = c Qj •— L Li u + — r-i ni M Ln Page 24 of 109 a --a Ln ■i "Owl Qj ,} E ro Q U �. m _ r V a CL. Ln D f[], Q J E LU J C I- LO � CL _ Z19111=11r. Agenda Item #1. Table of Contents ICLEI-Local Governments for Sustainability USA...........................................................................1 List of Tables............................................................................................................... ........3 .......................... Listof Figures................................................................................................................................................3 InventoryCalculations...................................................................................................................................5 KeyFindings.....................................................................................................................................................6 ClimateChange............................................................................................................................................... 8 Greenhouse Gas Inventory as a Step Toward Carbon Neutrality..............................................10 ICLEI Climate Mitigation Milestones...............................................................................................11 InventoryMethodology...............................................................................................................................12 Understanding a Greenhouse Gas Emissions Inventory ..............................................................12 Community Emissions Protocol..........................................................................................................13 Local Government Operations (LGO) Protocol..............................................................................13 Quantifying Greenhouse Gas Emissions..........................................................................................14 Sourcesand Activities.........................................................................................................................14 BaseYear................................................................................................................................................14 Quantification Methods............................................................................ ..................14 ....................... Community Emissions Inventory Results.............................................................................................16 Local Government Operations Emissions Inventory Results..........................................................17 Conclusion...................................................... ................................................................................................17 Appendix A: High Impact Analysis Summary Report.......................................................................19 Acknowledgements..................................................................................................................................20 Village of Tequesta 2019 Inventory of Community and Government GHG Emissions 2 Page 27 of 109 Agenda Item #1. Tables and Figures List of Tables Table 1: Global Warming Potential Values (IPCC, 2014).............................................................................12 Table 2: Communitywide Emissions Inventory...........................................................................................16 Table 3: Local Government Operations Inventory ......................................................................................17 List of Figures Figure 1: Community -wide Emissions by Sector...........................................................................................6 Figure 2: Government Operations Emissions by Sector...............................................................................7 Figure 3: ICLEI Climate Mitigation Milestones............................................................................................11 Figure 4: Relationship of Community and Government Operations Inventories.......................................12 Village of Tequesta 2019 Inventory of Community and Government GHG Emissions Page 28 of 109 Agenda Item #1. Executive Summary The Village of Tequesta (Village) conducted a baseline (2019) greenhouse gas (GHG) emissions inventory following the internationally recognized Local Government Operations (LGO) protocol and the community -wide U.S. Community Protocol (USCP), to better understand the sources and quantity of GHG emissions community -wide, including from Village operations and facilities. Global warming is a process whereby GHGs accumulating in the atmosphere contribute to an increase in the temperature of the earth's atmosphere. Greenhouse gases allow visible and ultraviolet light from the sun to pass through the atmosphere, but they prevent heat from escaping back out into space, a process known as the "greenhouse effect". The main gases responsible for the greenhouse effect are carbon dioxide, methane, and nitrous oxide. The Village recognizes that greenhouse gas (GHG) emissions from human activity are catalyzing profound climate change, the consequences of which pose substantial risks to the future health, wellbeing, and prosperity of our community. The findings in this report represent the Village's carbon footprint and will serve as the baseline for measuring the Village's future climate action goals. Prior to conducting its greenhouse gas inventory, the Village joined the International Council for Local Environmental Initiatives — Local Governments for Sustainability USA (ICLEI) and this report was prepared by the Village of Tequesta Building Department with assistance from the ICLEI. The 2019 baseline GHG emissions report results are as follows: Community -wide emissions total 46,814 MTCO2e, and Government Operations total 2,110 MTCO2e. While the Village has no current emissions reduction goals set, it will be considering the ICLEI recommendation of a per capita reduction of 62.8%, and absolute reduction of 58.2% by 2030, as shown in the ICLEI High Impact Action Analysis Summary Report for the Village, attached hereto as Appendix A (HIA Summary). The HIA Summary projects the Village's GHG emissions from 2019 to 2030 based on forecasted changes in fuel use, land use, population, historical trends and other factors. Village of Tequesta 2019 Inventory of Community and Government GHG Emissions Page 29 of 109 Agenda Item #1. Inventory Calculations This 2019 baseline inventory was calculated following the International Council for Local Environmental Initiatives — Local Governments for Sustainability USA (ICLEI) ClearPath energy and emissions management software tool to calculate and track greenhouse gas criteria air pollutant emissions. The ClearPath software is also used to forecast future emissions levels and track progress towards meeting reduction targets. The Intergovernmental Panel on Climate Change (IPCC) 5th Assessment was used for Global Warming Potential (GWP) values to convert methane and nitrous oxide to CO2 equivalent units. ClearPath's inventory calculators allow for input of the sector activity (i.e., kWh or VMT) and emissions factor to calculate the final CO2e emissions. Village of Tequesta 2019 Inventory of Community and Government GHG Emissions Page 30 of 109 Agenda Item #1. Key Findings There are three types of greenhouse gas (GHG) emissions: Scope 1, scope 2 and scope 3. Scope 1 emissions are those from direct sources of GHG emissions that originate from facilities and/or equipment owned or operated by the Village, including fossil fuel combustion and fleet fuel consumption. Scope 2 are emissions made indirectly, including electricity or energy the Village buys for heating and cooling buildings from a utility provider. Scope 3 are those indirect emissions that the Village is indirectly responsible for, up and down its value chain, e.g., emissions from employee travel and commuting; emissions associated with contracted solid waste disposal and wastewater treatment from sources owned or controlled by another entity. The Inventory Results section of this report provides a detailed profile of emissions sources within the Village of Tequesta. These data will also provide a baseline against which the Village will be able to compare future performance and demonstrate progress in reducing emissions. Figure 1: Community -wide Emissions by Sector and Scope Community -wide MTCO2e Scope 2 Commercial energy 20% Scope 1 Transportation & mobile sources 50% Scope 2 Residential energy 30% ■ Scope 1 Transportation & mobile sources ■ Scope 2 Residential energy o Scope 2 Commercial energy 46,814 MTCO2e Village of Tequesta 2019 Inventory of Community and Government GHG Emissions Page 31 of 109 Agenda Item #1. Village Operations Emissions Figure 2 shows local government operations emissions. Energy use in water and wastewater facilities accounts for a vast majority (62%) of these emissions. The next largest contributor is energy use in buildings and facilities (20%) of emissions, followed by Employee Commute (12%) and Vehicle Fleet (6%). Actions to reduce emissions from the above sectors will be a key part of any future climate action plans developed by the Village of Tequesta. Street Lights & Traffic Signals were responsible for the remainder (less than 1%) of local governmental operations emissions. Figure 2: Local Government Operations Emissions by Sector and Scope Scope 3 Water & Wastewater Treatment Facilities 62% LG 0 MTCO2e Scope 1 Vehicle Fleet 6% Scope 1 Employee Commute MAhhh, 12% Scope 2 Street Lights & Traffic Signals 0% ■ Scope 1 Vehicle Fleet ■ Scope 1 Employee Commute _. Scope 2 Buildings & Facilities Scope 2 Street Lights & Traffic Signals ■ Scope 3 Water & Wastewater Treatment Facilities 2J10 MTCO2e Village of Tequesta 2019 Inventory of Community and Government GHG Emissions Page 32 of 109 Agenda Item #1. Climate Change Naturally occurring gases dispersed in the atmosphere determine the Earth's climate by trapping solar radiation. This phenomenon is known as the greenhouse effect. Overwhelming evidence shows that human activities are increasing the concentration of greenhouse gases and changing the global climate. The most significant contributor is the burning of fossil fuels for transportation, electricity generation and other purposes, which introduces large amounts of carbon dioxide and other greenhouse gases into the atmosphere. Collectively, these gases intensify the natural greenhouse effect, causing global average surface and lower atmospheric temperatures to rise, threatening the safety, quality of life, and economic prosperity of global communities. Although the natural greenhouse effect is needed to keep the earth warm, a human enhanced greenhouse effect with the rapid accumulation of GHG in the atmosphere leads to too much heat and radiation being trapped. The Intergovernmental Panel on Climate Change (IPCC) Sixth Assessment Report confirms that human activities have unequivocally caused an increase in carbon emissions'. Many regions are already experiencing the consequences of global climate change, and the Village of Tequesta is no exception. Human activities are estimated to have caused approximately LOT of global warming above pre- industrial levels, with a likely range of 0.8'C to 1.2°C. Global warming is likely to reach 1.5'C between 2030 and 2052 if it continues to increase at the current rate. (high confidence) Warming from anthropogenic emissions from the pre -industrial period to the present will persist for centuries to millennia and will continue to cause further long-term changes in the climate system, such as sea level rise, with associated impacts (high confidence), but these emissions alone are unlikely to cause global warming of 1.5°C (medium confidence). Climate -related risks for natural and human systems are higher for global warming of 1.5°C than at present, but lower than at 2°C (high confidence). These risks depend on the magnitude and rate of warming, geographic location, levels of development and vulnerability, and on the choices and implementation of adaptation and mitigation options (high confidence)'. According to the 2018 National Climate Assessment, the Southeast U.S. will experience potentially devastating impacts from seasonal changes and hazards occurring at unprecedented magnitudes. Florida is at particular risk for coastal hazards, flooding, erosion, and hurricanes that will continue to intensify 11PCC, 2021: Summary for Policymakers. In: Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change [Masson Del motte, V., P. Zhai, A. Pirani, S. L. Connors, C. Pean, S. Berger, N. Caud, Y. Chen, L. Goldfarb, M. I. Gomis, M. Huang, K. Leitzell, E. Lonnoy, J. B. R. Matthews, T. K. Maycock, T. Waterfield, O. Yelekgi, R. Yu and B. Zhou (eds.)]. Cambridge University Press. In Press. 'IPCC, 2018: Summary for Policymakers. In: Global Warming of 1.5°C. An IPCC Special Report on the impacts of global warming of 1.5°C above pre -industrial levels and related global greenhouse gas emission pathways, in the context of strengthening the global response to the threat of climate change, sustainable development, and efforts to eradicate poverty [Masson-Delmotte, V., P. Zhai, H.-O. Portner, D. Roberts, J. Skea, P.R. Shukla, A. Pirani, W. Moufouma-Okia, C. Pean, R. Pidcock, S. Connors, J.B.R. Matthews, Y. Chen, X. Zhou, M.I. Gomis, E. Lonnoy, T. Maycock, M. Tignor, and T. Waterfield (eds.)]. World Meteorological Organization, Geneva, Switzerland, 32 pp. Village of Tequesta 2019 Inventory of Community and Government GHG Emissions Page 33 of 109 Agenda Item #1. with sea -level rise. The southeast U.S. will experience potentially devastating impacts from seasonal changes and hazards occurring at unprecedented magnitudes. Southeast Florida, including the Village of Tequesta, is at risk for coastal hazards, such as flooding, erosion, and hurricanes that will continue to intensify with sea -level rise. So many people visit and move to this region to enjoy the beautiful coast, but its seaside location also puts it at extreme risk. In addition, climate change will continue to produce warmer seasons and extreme temperatures that threaten many sectors within the Village of Tequesta and the greater region, most notably tourism, public health, and agriculture3. In addition, climate change will continue to produce warmer seasons and extreme temperatures that threaten many sectors within Palm Beach County and the greater region, most notably building safety, public health and tourism. Many communities in the United States have started to take responsibility for addressing climate change at the local level. Reducing fossil fuel use in the community can have many benefits in addition to reducing greenhouse gas emissions. More efficient use of energy decreases utility and transportation costs for residents and businesses. Retrofitting homes and businesses to be more efficient creates local jobs. In addition, when residents save on energy costs, they are more likely to be spend at local businesses and add to the local economy. Reducing fossil fuel use improves air quality, and increasing opportunities for walking and bicycling improves residents' health. 3 U.S. Global Change Research Program. 2018 National Climate Assessment — Ch 19: Southeast. Retrieved from https:Hnca2018.globalchange.gov/chapter/19/ Village of Tequesta 2019 Inventory of Community and Government GHG Emissions Page 34 of 109 Agenda Item #1. Greenhouse Gas Inventory as a Step Toward Carbon Neutrality Facing the climate crisis requires the concerted efforts of local governments and their partners, those that are close to the communities directly dealing with the impacts of climate change. Cities, towns and counties are well placed to define coherent and inclusive plans that address integrated climate action - climate change adaptation, resilience and mitigation. Existing targets and plans need to be reviewed to bring in the necessary level of ambition and outline how to achieve net -zero emissions by 2050 at the latest. Creating a roadmap for climate neutrality requires the Village of Tequesta to identify priority sectors for action, while considering climate justice, inclusiveness, local job creation and other benefits of sustainable development. To complete this inventory, the Village of Tequesta utilized tools and guidelines from ICLEI - Local Governments for Sustainability (ICLEI), which provides authoritative direction for greenhouse gas emissions accounting and defines climate neutrality as follows: The targeted reduction of greenhouse gas (GHG) emissions and GHG avoidance in government operations and across the community in all sectors to an absolute net -zero emission level at the latest by 2050. In parallel to this, it is critical to adapt to climate change and enhance climate resilience across all sectors, in all systems and processes. To achieve ambitious emissions reductions and move toward climate neutrality, the Village of Tequesta will need to set a clear goal and act rapidly following a holistic and integrated approach. Climate action is an opportunity for our community to experience a wide range of co -benefits, such as creating socio- economic opportunities, reducing poverty and inequality, and improving the health of people and nature. ACCELERATED CLIMATE ACTION WHY? IIIL PF CO -BENEFITS ACROSS SECTORS • Improving Air Quality • Protecting Biodiversity • Local Job Creation • Clean Energy Transition • Behaviour Change HOW? FIVE ICLEI PATHWAYS Low Emissions Nature Based Equitable and People -Centered Resilient Circular Village of Tequesta 2019 Inventory of Community and Government GHG Emissions 1 l Page 35 of 109 Agenda Item #1. ICLEI Climate Mitigation Milestones In response to the climate emergency, many communities in the United States are taking responsibility for addressing emissions at the local level. Since many of the major sources of greenhouse gas emissions are directly or indirectly controlled through local policies, local governments have a strong role to play in reducing greenhouse gas emissions within their boundaries, as well as influencing regional emissions through partnerships and advocacy. Through proactive measures around land use patterns, transportation demand management, energy efficiency, green building, waste diversion, and more, local governments can dramatically reduce emissions in their communities. In addition, local governments are primarily responsible for the provision of emergency services and the mitigation of natural disaster impacts. ICLEI provides a framework and methodology for local governments to identify and reduce greenhouse gas emissions, organized along Five Milestones, also shown in Figure 3: 1. Conduct an inventory and forecast of local greenhouse gas emissions; 2. Establish a greenhouse gas emissions Science Based Target 4; 3. Develop a climate action plan for achieving the emissions reduction target; 4. Implement the climate action plan; and, S. Monitor and report on progress. This report represents the completion of ICLEI's Climate Mitigation Milestone One, and provides a foundation for future work to reduce greenhouse gas emissions in the Village of Tequesta. Milestone I 4e Im'entory Emissions Milestone 5 Milestone 2 MonitorEvaluate Establish Target Progress ** im�wl I Milestone 4 Milestone 3 Implement Climate Develop Climate Action Plan Action Plan Figure 1: ICLEI Climate Mitigation Milestones 4 Science -Based Targets are calculated climate goals, in line with the latest climate science, that represent your community's fair share of the ambition necessary to meet the Paris Agreement commitment of keeping warming below 1.5°C. To achieve this goal, the Intergovernmental Panel on Climate Change (IPCC) states that we must reduce global emissions by 50% by 2030 and achieve climate neutrality by 2050. Equitably reducing global emissions by 500/, requires that high -emitting, wealthy nations reduce their emissions by more than 50%. Village of Tequesta 2019 Inventory of Community and Government GHG Emissions I I Page 36 of 109 Agenda Item #1. Inventory Methodology Understanding a Greenhouse Gas Emissions Inventory The first step toward achieving tangible greenhouse gas em reductions requires identifying baseline emissions levels sources and activities generating emissions in the community This report presents emissions from both the Village of Tequesta community as a whole, and from operations of the Village of Tequesta government. The government operations inventory is mostly a subset of the community inventory, as shown in Figure 4. For example, data on commercial energy use by the community includes energy consumed by municipal buildings, and community vehicle - miles -traveled estimates include miles driven by municipa fleet vehicles. As local governments continue to join the climate protection movement, the need for a standardized Figure 2: Relationship of Community and Government Operations Inventories approach to quantify GHG emissions has proven essential. This inventory uses the approach and methods provided by the U.S. Community Protocol for Accounting and Reporting Greenhouse Gas Emissions (Community Protocol) and the Local Government Operations Protocol for Accounting and Reporting Greenhouse Gas Emissions (LGO Protocol), both of which are described below. Three greenhouse gases are included in this inventory: carbon dioxide (CO2), methane (CH4) and nitrous oxide (N20). Many of the charts in this report represent emissions in "carbon dioxide equivalent" (CO2e) values, calculated using the Global Warming Potentials (GWP) for methane and nitrous oxide from the IPCC 5th Assessment Report. Table 1: Global Warming Potential Values (IPCC, 2018) Carbon Dioxide (CO2) 1 Methane (CH4) 28 Nitrous Oxide (N20) 265 Village of Tequesta 2019 Inventory of Community and Government GHG Emissions 1 Page 37 of 109 Agenda Item #1. Community Emissions Protocol Version 1.2 of the U.S. Community Protocol for Accounting and Reporting GHG Emissions' was released by ICLEI in 2019, and represents a national standard in guidance to help U.S. local governments develop effective community GHG emissions inventories. It establishes reporting requirements for all community GHG emissions inventories, provides detailed accounting guidance for quantifying GHG emissions associated with a range of emission sources and community activities, and provides a number of optional reporting frameworks to help local governments customize their community GHG emissions inventory reports based on their local goals and capacities. The community inventory in this report includes emissions from the five Basic Emissions Generating Activities required by the Community Protocol. These activities are: • Use of electricity by the community • On -road passenger and freight motor vehicle travel • Use of energy in potable water and wastewater treatment and distribution • Generation of solid waste by the community The community inventory also includes the following activities: • Wastewater processing The Village of Tequesta community -wide inventory followed the US Community Protocol. The Village is compliant with US Community Protocol by addressing all of the aforementioned categories. The Village will be considering emissions reductions from these five basic emissions generating activities. Local Government Operations (LGO) Protocol In 2010, ICLEI, the California Air Resources Board (CARE), and the California Climate Action Registry (CCAR) released Version 1.1 of the LGO Protocol.6 The LGO Protocol serves as the national standard for quantifying and reporting greenhouse emissions from local government operations. The purpose of the LGO Protocol is to provide the principles, approach, methodology, and procedures needed to develop a local government operations greenhouse gas emissions inventory. The following activities are included in the LGO inventory: • Energy consumption from buildings & facilities ICLEI. 2012. US Community Protocol for Accounting and Reporting Greenhouse Gas Emissions. Retrieved from http://www.icleiusa.org/tools/ghg-protocol/community-protocol 6 ICLEI. 2008. Local Government Operations Protocol for Accounting and Reporting Greenhouse Gas Emissions. Retrieved from http://www.icleiusa.org/programs/climate/ghg-protocol/ghg-protocol Village of Tequesta 2019 Inventory of Community and Government GHG Emissions 1.1) Page 38 of 109 Agenda Item #1. • Wastewater treatment processes • On -road transportation from employee commute and vehicle fleet Quantifying Greenhouse Gas Emissions Sources and Activities Communities contribute to greenhouse gas emissions in many ways. Two central categorizations of emissions are used in the community inventory: 1) GHG emissions that are produced by "sources' located within the community boundary, and 2) GHG emissions produced as a consequence of community "activities". Any physical process inside the jurisdictional boundary that releases GHG emissions into the atmosphere The use of energy, materials, and/or services by members of the community that result in the creation of GHG emissions. By reporting on both GHG emissions sources and activities, local governments can develop and promote a deeper understanding of GHG emissions associated with their communities. A purely source -based emissions inventory could be summed to estimate total emissions released within the community's jurisdictional boundary. In contrast, a purely activity -based emissions inventory could provide perspective on the efficiency of the community, even when the associated emissions occur outside the jurisdictional boundary. The division of emissions into sources and activities replaces the scopes framework that is used in government operations inventories, but that does not have a clear definition for application to community inventories. Base Year The inventory process requires the selection of a base year with which to compare current emissions. The Village of Tequesta's community greenhouse gas emissions inventory utilizes 2019 as its baseline year, because it is the most recent year for which the necessary data are available. Quantification Methods Greenhouse gas emissions can be quantified in two ways: • Measurement -based methodologies refer to the direct measurement of greenhouse gas emissions (from a monitoring system) emitted from a flue of a power plant, wastewater treatment plant, landfill, or industrial facility. Village of Tequesta 2019 Inventory of Community and Government GHG Emissions 14 Page 39 of 109 Agenda Item #1. Most emissions sources in this inventory are quantified using calculation -based methodologies. Activity data refer to the relevant measurement of energy use or other greenhouse gas -generating processes such as fuel consumption by fuel type, metered annual electricity consumption, and annual vehicle miles traveled. Please see appendices for a detailed listing of the activity data used in composing this inventory. Known emission factors are used to convert energy usage or other activity data into associated quantities of emissions. Emissions factors are usually expressed in terms of emissions per unit of activity data (e.g. Ibs CO2/kWh of electricity). For this inventory, calculations were made using ICLEI's ClearPath tool. Village of Tequesta 2019 Inventory of Community and Government GHG Emissions 1 Page 40 of 109 Agenda Item #1. Community Emissions Inventory Results The information contained in this Inventory Results section provides a detailed profile of emissions sources within the Village of Tequesta; information that is key to guiding local reduction efforts. This 2019 data will also provide a baseline against which the Village will be able to compare future performance and demonstrate progress in reducing emissions. The total communitywide emissions for the 2019 inventory are shown in Table 2 and Figure 5 below. Table 2: Communitywide Emissions Inventory Sector energy Fuel or source Electricity (Florida Power & Light) 2019 Usage 47,693,993 Usage unit kWh 2019 Emissions (MTCO2e) 14,457 Residential energy total 14,457 Commercial energy Electricity 30,623,571 kWh 9,283 Commercial energy total 9,283 Industrial energy Electricity 14,085 kWh 4 Industrial energy total 4 On -road Gasoline 40,786,452 VMT 16,836 transportation Diesel 4,224,170 VMT 6,220 Transportation total Solid Waste Waste Generated 15 Tons 8 Solid waste total 8 Water and wastewater Water Treatment Energy Usage 12 Tons 6 Water and wastewater total Total community -wide emissions 6 46,814 Village of Tequesta 2019 Inventory of Community and Government GHG Emissions 14 Page 41 of 109 Agenda Item #1. Local Government Operations Emissions Inventory Results The Village of Tequesta's government operations emissions for 2019 are shown in Table 3 below. Table 3: Local Government Operations Inventory Sector Fuel or source 2019 Usage Usage unit Buildings & Facilities I Electricity 1,408,370 kWh 2019 Emissions (MTCO2e) 427 Buildings & Facilities total 427 Street Lights & Traffic Signals Electricity 3,072 kWh 0 (less than 1) Street Lights & Traffic Signals total 0 Vehicle Fleet Gasoline 12,211 GAL 107 Diesel 2,940 GAL 30 Vehicle Fleet total 137 Employee Commute Gasoline 664,058 VMT 241 Diesel 6,877 VMT 3 Employee Commute Total 244 Solid Waste Waste Generation 0.27 Tons 0 (less than 1) Solid waste total 0 Water and wastewater Process Emissions 6,088 People 1,301 Water and wastewater total Total government emissions 1,301 2,110 Conclusion This inventory marks the completion of the first step of establishing a GHG baseline inventory. The next step will be to set emissions reduction targets for the Village that identifies specific quantified strategies that can cumulatively meet those targets. The Intergovernmental Panel on Climate Change (IPCC) states that to meet the Paris Agreement commitment of keeping warming below 1.5'C we must reduce global emissions by 50% by 2030 and reach climate neutrality by 2050. Equitably reducing global emissions by Village of Tequesta 2019 Inventory of Community and Government GHG Emissions I Page 42 of 109 Agenda Item #1. 50% requires that high -emitting, wealthy nations reduce their emissions by more than 50%. More than ever, it is imperative that countries, regions, and local governments set targets that are ambitious enough to slash carbon emissions between now and mid-century. Science -Based Targets are calculated climate goals, in line with the latest climate science, that represent a community's fair share of the global ambition necessary to meet the Paris Agreement commitment. To achieve a science -based target, community education, involvement, and partnerships will be instrumental, and any future climate action goals by the Village will involve cross departmental collaboration and action to reduce emissions across facilities, fleet, utilities, engineering, operations and procurement. Items to consider include, but are not limited to, the following: • Promotion of electric vehicles (EVs) to replace gasoline passenger vehicles through the provision of public spaces charging and through fleet policies to increase EVs in Village fleet and familiarize staff with EVs. • Energy efficiency for residential and commercial buildings through building codes and incentives which mandate or incentivize green building credentials (e.g., LEED or similar) in new construction and major renovations as well as incentives for energy efficiency retrofits (such as weatherization and conversion to more efficient HVAC systems). • Continued reductions in the electricity emissions factor by adding renewable energy by reducing soft costs to residential installation, encouraging commercial installation, adding on site renewables to Village facilities, and engaging with Florida Power and Light to increase renewable energy in their energy portfolio. • Reducing per -capita vehicle miles travelled (VMT) through land use planning and encouraging the use of transit, bicycling and walking. • Investment in infrastructure to improve safety and comfort for people on bikes and people walking such as separated bike lanes and sidewalks with canopy trees. The completion of another GHG emission inventory in three to five years is recommended by the ICLEI in order to assess progress resulting from any actions implemented. Village of Tequesta 2019 Inventory of Community and Government GHG Emissions 15 Page 43 of 109 Ager*pPbeniAt-A: High Impact Analysis Summary Report Local ci im nit I Te4uesta, PL2019 High Impact Action Analysis Summary Report; Tequesta, FL 2019 SRTs and Baseline year 2030 Per Capita 2030 Absolute Baseline Scope 1 • 2 (MT e02e) 2030 Scope 1 F 2 (MT cote) Emissions Goals 2019 62.8% 58.2% 46,802 19,583 Growth Rates Population Growth Baseline & Fere�asted Emissions Modeled Emissions (After HIAs) I mc Elnlaaiona N dtotal 2030 Forecasted 2030 Modeled c02a) (Ad)utotal Emissions (MT Emissions (MT percent Change CO2e) CO2e) WC.mmedal - 0% 0 0 0.0% Electric Commercial 9,283 20We 2,090 1,965 -6.0% Fuels Residential 14,457 31% 16,271 8.319 -48.9% Electric Residential 14.457 31% 3,254 3.497 7.5% Fuels Industrial - 0% 0 0 0.0% Electric industrial 0% 0 0 0.0% On -Road T,a Portatlon 23,056 49% 21,383 11,173 -47.8% Sum of Primary 61,253 131% 42,997 24,9S3 .42.0% Sectors Inventory Total 46,810 - - - - ICLEI ►s8TsedTarget t NIA ct Actions VMT Vehicte Miles Traveled EY Electric Vehicles SP Square Feet (R^2) EB EKisting Buildings Emission Profile 2S,000 �a,000 15'coo C v = 10,000 w o. ` dr Emissions Sector HIA Overview net Reduction Type Name (MT CO2e) Description Explanation/Source Grid Clean Energy Standard: 80%Reduction In cv 'cl—Earn, su+a•,w Decarbonl23tion CES 22,374 carbon lntenstry(kg 002714WH) by 2030. °r,,r xnn,rd,n.,lblbwr...u. akr. a•-. +ynom.+a,.a..r-r,r,.w Nigh Level VMT Moderate (S% VMT 1,069 5% Reduction in total VMT 11.K —0rm0 mlww Reduction Reduction) On -Road Electric California +(9% 8,617 4S% of V147 Is EV by 2030. This action Influences an Increase in Residential 8 A,bke1t 1In lane1.11 ri,w aWnmr+ra bred te,c4s rr ,. cwfrrm.,n,,exh 1"„o(uwon, Vehicles Adoption Annual GrowUl) Commerccial buildings electiricty emissions. v.rou.r"I Commercial 5% EO Renovated 230 5% of all SF (existing) per year Is reduced rma,.aaasoa—:•+"=r...,,.,.a........,ca•. _ ,n, uswmusz yt Building Efficiency by 20% (energy) esential 5%EB Renovated 358 5% fall Sr (existing) peryear isrc ,duced btufllxen Act s>xnw„cw...'.,,...l.. ••WaIL'iL n,e.e. •...1 BuiRidlding Efficiency by 20%(energy) Commercial 5% of existing SF per year is electrlfled. �.. Building 5% Ell Electrified 0 This action influences an increase In Electrification Commericial bulldingselecbricty emissions. Residential 5% of existing SF per year a elcctrifcd. 0 Iding 5%ES Eiearlfied 7,770 T his anion influences an lnvease in Electrification Resoenbal buildings electirlay emaslons. 2030Ab.olut.SBT 58.2% 2030 PerCapita 62.8% SET 2030 Outlook Reduction Achieved 59.3% Reduction Achieved 63.8% (Abosolute) (Peres ha) Percent To G° -110% Percent To Go (Par -0.98% (At —I. e) . Capita) mh welL m uwnw0 urwer a veabve camm0ct xanwwn-Kmc4mmeroa.Kouen.aovet,.o irxrmacanu O OeO W vwe Ivi Arvi c,mmvNat pvrprw. MS nrr,. corrv„Varl ,,,v 1 mh n:a�rl,l rru:, P,°JN ,m,buton n ICLEI . Lwal Gr+emxnrt for 5unartrbkh USA NOTICE The HIA summary is a high-level analysis that represents an example pathway to achieving your Science Based Targets (based on your 2019 baseline year). This analysis uses national data and assumptions to form our preset scenarios. In short, the HIA summary should be used as an illustrative high-level, general pathway to support decision -making but should not be used as the sole influence on decision -making directly. However, the analysis Page 44 Of 109 remains as a demonstration of the need for swift and ambitious action. Agenda Item #1. Acknowledgements This baseline 2019 inventory was compiled by the Village of Tequesta Building Department with the assistance of ICLEI-Local Governments for Sustainability USA (ICLEI), and the Florida League of Cities Race to Zero Cohort. This template was created by ICLEI in 2022. Village of Tequesta 2019 Inventory of Community and Government GHG Emissions 20 Page 45 of 109