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Home My WebLink AboutICGreenhouseGasUpdate-2017Iowa City Community-wide Greenhouse Gas Emissions Prepared by the City of Iowa City Inventory UpdateJune 2017 Introduction .............................................................................................................................................................................................................1Methods .....................................................................................................................................................................................................................3Community Analysis .............................................................................................................................................................................................4Community Results Summary ..........................................................................................................................................................................52005 Community-wide Greenhouse Gas Baseline Emissions ............................................................................................................62015 Community-wide Greenhouse Gas Emissions ...............................................................................................................................8Population & Per Capita Emissions Trends ..............................................................................................................................................11Trends by Sector ...................................................................................................................................................................................................18Renewable Energy Commitments ................................................................................................................................................................20Conclusion ...............................................................................................................................................................................................................22 Appendix 1. Compact of Mayors Letter of Intent ...................................................................................................................................23Appendix 2. Community-Wide Target Reduction Resolution ...........................................................................................................24Appendix 3. Steering Committee Resolution ...........................................................................................................................................27Appendix 4. Updated Steering Committee Resolution ........................................................................................................................29Appendix 5. Calculated Annual Emissions (metric tonnes CO2e) ..................................................................................................32Appendix 6. Emissions Factors for 2015 ...................................................................................................................................................33Appendix 7. Community Energy Usage Numbers ..................................................................................................................................34Appendix 8. Definitions .....................................................................................................................................................................................35Appendix 9. Global Warming Potentials (GWP) .....................................................................................................................................38Appendix 10. Summary of Iowa City’s STAR Rating .............................................................................................................................39 Table of Contents Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 Iowa City began actively working on climate issues in 2007, when Mayor Ross Wilburn signed the Mayor’s Climate Protection Agreement (Figure 1). In 2008, Iowa City joined the “Cities for Climate Protection Campaign” which resulted in Iowa City’s creation of a community-wide greenhouse gas (GHG) inventory, which was completed in August, 2009. Iowa City was the first city in the state of Iowa to complete a GHG inventory. Community-wide GHG emissions data is updated annually to track the progress and trends of the community’s emissions. This report is an update from the 2009 GHG inventory report and includes a continuous record of annual data from the time of that report.On February 17, 2016, Mayor Jim Throgmorton affirmed the City’s continued commitment to climate change by signing a letter to join the U.S. Compact of Mayors. The Compact of Mayors recently joined with the European Union’s Covenant of Mayors to form the Global Covenant of Mayors for Climate and Energy. While cities can work towards climate mitigation independently, joining the Covenant of Mayors offers a recognized framework, provides city staff with information and support, and connects the community with numerous cities around the globe committed to taking actions to reduce GHG emissions. By formally committing to the Global Covenant of Mayors for Climate & Energy, Iowa City agreed to complete the following milestones over a three year period: At engagement: • Mayor makes a formal commitment to reduce GHG emissions and address climate change risks (signed Feb. 17, 2016) 1 Within 1 Year:• Complete a Community-wide GHG inventory, using the Global Protocol for Community-Scale GHG Emissions (submitted Dec. 2016)• Report local hazards related to climate change (submitted Dec. 2016) Within 2 years: • Set a GHG Reduction Target (Resolution signed Dec. 6, 2016)• Complete a climate risk vulnerability assessment Within 3 Years: • Complete a Climate Action and Adaptation PlanDocumentation that has been completed for the Covenant of Mayors can be found in the Appendices. Figure 1. Iowa City’s Climate Action Timeline Introduction 2 Introduction STAR Community RatingOn March 9, 2016, Iowa City was awarded a 4-STAR Community Rating for sustainability excellence by being formally certified in the STAR (Sustainability Tools for Assessing and Rating Communities) Community Rating System. Although Iowa City was the highest-scoring city in the state and achieved high rankings in most goal areas, the City scored lowest in its Climate and Energy goals. The creation of the Climate Action and Adaptation Plan and appointment of the Climate Action Steering Committee along with other actions that that City staff are undertaking, regarding climate have been a focus of the City Council. The STAR framework is a tool that communities can use to quantify these efforts. Iowa City plans on recertifying with STAR in 2020. More information about Iowa City’s STAR rating can be found at icgov.org/STAR and in Appendix 10. Purpose and GoalsThe purpose of this report is to summarize the results of the community-wide GHG inventory using the Global Protocol for Community-Scale GHG Emissions which identifies both the quantity and sources of GHG emissions produced from activities within the City of Iowa City. This data is made available to the Climate Action Steering Committee and Iowa City residents in order to assist informed decision-making to determine future actions to be taken by the community. These emissions-reducing actions will be included in Iowa City’s Climate Action and Adaptation Plan, after calculations are totaled to reach the reduction targets set forth by the City Council. On Dec. 7, 2016, the City Council approved a resolution setting community-wide greenhouse gas reduction goals of 26-28% for the year 2025 and 80% by 2050. The baseline year for these reductions is 2005. At the time the reduction goals were set, they were in alignment with the U.S. targets set by the Paris Agreement and agreed upon for the United States by President Obama in 2016 (http://unfccc.int/paris_agreement/items/9485.php). The Development and implementation of the Climate Action and Adaptation Plan will assist in meeting these targets. Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 The methods used in this inventory are consistent with guidelines outlined by the Global Protocol for Community-Scale GHG emissions (GPC). This protocol is the most up-to-date method for establishing community-wide greenhouse gas emissions standards and provides consistency in reporting for cities around the world. City staff worked with CDP (formerly known as the Carbon Disclosure Project), an organization which works with local governments and corporations to disclose greenhouse gas emissions. More information about CDP can be found here: cdp.net/en/climate.For this report, GHG emissions generated in the community were totaled by calculating emissions of carbon dioxide (CO2), methane (CH4), and nitrous oxide (N2O) from data on energy use and waste generation. CH4 and N2O were converted to CO2 equivalent (CO2e) global warming potential (GWP) units developed by the Intergovernmental Panel on Climate Change (IPCC). The total units of CO2e then represent the sum total of all greenhouse gases multiplied by their corresponding global warming potential factor. The protocol does not calculate the hydrofluorocarbons (HFCs), perfluorocarbons (PFCs), sulfur hexafluoride (SF6), or other GHGs in the community analysis. All gases are reported in the standard GHG units of metric tons (tonnes) CO2e. One metric tonne is equal to 2,205 U.S. pounds.The Global Protocol for Community-Scale Greenhouse Gas Emissions Inventory (GPC) also requires 3 reporting of emissions by “scope.” Scope 1 refers to emissions produced within the city limits and released into the community atmosphere. This includes combustion of all fossil fuels such as gasoline, diesel, natural gas, coal, propane and any other fuel producing greenhouse gases within the city limits. Methane produced from landfill waste and wastewater treatment is also included in Scope 1. Scope 2 emissions include greenhouse gas emissions that occur as a consequence of using grid-supplied electricity, which occur due to usage within the city, but the emissions occur outside the city limits. This report does not address Scope 3 emissions, which refers to all other greenhouse gas emissions that occur outside of the city as a result of activities that take place within city limits. Some examples of Scope 3 emissions include employee commute, business travel, and production of goods used or consumed within the city. These scope distinctions help to avoid double counting between communities and to clarify where emissions are generated. In addition to the community-wide inventory, City staff also completed an inventory for the city government operations, which will be useful for community awareness, especially in terms of landfill, water, and wastewater-related emissions, since those are a direct result of actions of community members. Methods Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 Community GHG totals included emissions from activities within the city limits of Iowa City. The total combined energy usage and emissions were calculated from the following sectors:  Residential  Private residences  Commercial  Businesses, Public Sector, University of Iowa  Industrial  Industry  Transportation  Fuel usage for vehicles  Waste  Solid waste (landfill) and wastewater treatment  Other  University of Iowa Power Plant Data was collected from local utility companies for aggregate totals of electrical and natural gas usage for residential, commercial and industrial sectors. MidAmerican Energy supplies the vast majority of electricity and natural gas for the Iowa City community (99.5% of purchased energy). A small 4 percentage of electricity is supplied by Eastern Iowa Light and Power (0.5% of purchased energy), which services a small section of the southern portion of the city. Transportation data was provided by the Iowa Department of Transportation (IDOT) using a computer modeling program which estimates vehicle miles traveled on all streets, roads, and highways within the city limits. Waste data was provided by the Iowa City Landfill, and adjusted by City staff to reflect the portion of waste generated by the population of Iowa City since the landfill service area includes all of Johnson County. The University of Iowa provided data for amounts of fuel (coal, natural gas) used by the University of Iowa Power Plant (UI Power Plant). The UI Power Plant co-generates steam used for heating and chillers and also produces, on average, 15-20% of the campus’ electricity. The UI Power Plant does not represent the entire energy use for buildings and facilities owned by the University, and purchased electricity and natural gas for the University falls under the commercial sector in the community analysis. Additionally, all other public sector energy use also falls under the commercial sector in this analysis. Separating out the total energy use data for the public sector was not possible at the time of this inventory, but all public sector emissions are represented in the community total. Total energy usage data can be found in Appendix 7. Community Analysis Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 Nine years of community-wide greenhouse gas inventories have been calculated and are graphed below (Figure 2). The baseline year for target reductions is 2005 and community-wide data has been analyzed annually from 2008. From 2005, community-wide GHG emissions have decreased 23.1%. Although this is a remarkable achievement, in order to meet the 80% reduction target set by the City Council, significant work will still be needed.From 2005 to 2015:  The population of Iowa City grew by 12%  Energy use increased by 3.6%  Total CO2e emissions fell by 23.1%, from 1,285,168 metric tonnes in 2005 to 987,735 metric tonnes in 2015  Per capita CO2e emissions dropped from 19.6 metric tonnes to 13.3 metric tonnes  Industrial, commercial, and residential sectors all saw reductions in emissions  The University of Iowa Power Plant also reduced emissions  Emissions reductions are a result of MidAmerican Energy’s increasing renewable wind energy 5 production (for electricity), increased use of biomass at the University of Iowa Power Plant, and general energy efficiency improvements  Emissions increased slightly for both transportation and waste due to a larger population driving more total miles and producing more waste Iowa City set goals of reducing emissions from the 2005 baseline by 26-28% in 2025, and by 80% in 2050. As renewable energy production continues to grow in the coming years, Iowa City is set to meet its 26-28% emissions reduction target before 2025. Reducing emissions by 80% from the 2005 baseline will require continued renewable energy growth, significantly reduced natural gas use, and significantly reduced transportation fuel use. If current population growth rates continue, per capita CO2e emissions will need to drop from 13.3 metric tonnes in 2015 to roughly 2.0 metric tonnes in 2050 to meet the 80% reduction goal. Figure 2. Iowa City Community total annual emissions, 2005-2015, and emission reduction targets Community Results Summary Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 The 2005 baseline was chosen to match the national baseline set in the Paris Agreement. Although community-wide GHG inventories were completed in 2000 and 2008, complete data for 2005 is unavailable. For missing data, energy usage estimates were made using a linear regression between 2000 and 2008 data. Emissions from electricity use in for 2005 and all other years were calculated using data from MidAmerican Energy Iowa Annual Fuel Reports. Emissions factors were calculated using the numbers for the generation fuel mix of energy delivered to Iowa customers. The University of Iowa Power Plant provided data on 2005 emissions. While data for 2005 is estimated, the number is a seen as a good approximation.The Iowa City community produced an estimated total of 1,285,168 metric tonnes CO2e in 2005. With 6 a population of 65,641 in 2005, Iowa City per capita emissions equaled 19.6 tonnes CO2e (Figure 3). Each community’s CO2e emissions vary depending on climate and the variations in the residential, commercial and industrial sectors. The CO2e total for the Iowa City community is fairly representative of other communities within the country and is about average for U.S. CO2e emissions per capita in 2005. CO2 was the largest percentage (>99%) of the total greenhouse gases emitted in 2005. N2O and CH4 have GWPs of 265 and 28, respectively. Although they are emitted in smaller amounts, these amounts are multiplied by their respective GWPs to calculate their CO2 equivalents (refer to GWP table in Appendix 9). 2005 Community-wide Greenhouse Gas Baseline Emissions Figure 3. Iowa City Community estimated CO2e totals by sector, 2005 Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 Industrial activities generated the largest portion of Iowa City’s emissions in 2005, at 29%. Commercial activities generated 21%, residential 19%, the University of Iowa Power Plant 19%, transportation 11%, and waste 1% (Figure 3). 7 2005 Community-wide Greenhouse Gas Baseline Emissions Electricity use accounted for the majority of Iowa City’s greenhouse gas emissions in 2005, with 52% of the total (Figure 4). Grid electricity is a Scope 2 emission, so emissions are produced outside city limits. Natural gas accounted for 18%, coal burned at the University of Iowa Power Plant 18%, transportation 11%, and waste 1%. These emissions fall under Scope 1 and were released within city limits. Figure 4. Iowa City Community estimated CO2e totals by source, 2005 The energy used by the community in 2005 totaled 9,839,827 MMBTUs (Million British Thermal Units), with all sectors using a roughly equivalent amount of energy (Figure 5). Figure 5. Iowa City Community total annual emissions, 2005-2015, and emission reduction targets Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 2,332,203 24% 2,206,660 22% 2,265,614 23% 620,187 6% 2,475,260 25% 2005 Energy by Sector (MMBTUs) Residential Commercial Industrial UI Power Plant Transportation 2,332,203 24% 2,206,660 22% 2,265,614 23% 620,187 6% 2,475,260 25% 2005 Energy by Sector (MMBTUs) Residential Commercial Industrial UI Power Plant Transportation 8 2015 Community-wide Greenhouse Gas Baseline Emissions Figure 6. Comparisons of per capita emissions with other Midwestern college towns (data from reportingSTARcommunities.org/indicators and lawrenceks.org) 0 5 10 15 20 25 Evanston, IL (2014) Iowa City, IA (2015) Lawrence, KS (2012) Ann Arbor (2010) Columbia, MO (2010) CO 2 e p e r C a p t i a City Comparisons of Per Capita Emissions Total CO2e emissions for the community decreased 23.1% from 2005 to 2015. Decreases were in the residential (-21.8%), commercial (-27.8%), and industrial (-33%) sectors. Emissions decreases were largely due to renewable wind energy production (for electricity) by MidAmerican Energy increasing from 0% in 2005 to 35.5% in 2015. The UI Power Plant CO2e emissions decreased 22% between 2005 and 2015; this decrease was due to the partial substitution of biomass (oat hulls and miscanthus) for coal. The overall decrease in per capita emissions from 2005 to 2015 was due to a combination of these factors. Increases in emissions were seen in transportation (+5%) and waste (+9%) and were due to increases in population outpacing efficiency improvements. Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 The Iowa City Community produced 987,735 metric tonnes CO2e in 2015. With a population of 74,220 in 2015, per capita emissions totaled 13.3 metric tonnes CO2e, a 32% reduction per capita from 2005. Iowa City’s per capita emissions are compared with other college towns in the Midwest with data that was available online (Figure 6). 9 2015 Community-wide Greenhouse Gas Baseline Emissions 251,901 25% 196,646 20% 188,872 19% 188,042 19% 144,700 15% 17,575 2% 2015 Community-wide Emissions by Sector (metric tonnes CO2e) Industrial Commercial Residential UI Power Plant Transportation Waste Industrial activities generated the largest portion of Iowa City’s emissions in 2015, at 25%. Commercial generated 20%, residential and the UI Power Plant generated 19% each, transportation generated 15%, and waste generated 2% (Figure 7). Figure 7. Iowa City Community CO2e totals by sector, 2015 Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 Figure 8. Iowa City Community CO2e totals by source, 2015In 2015, electricity use accounted for just 42% of the community’s CO2e, as compared to 52% in 2005 (Figure 8). This decrease in electrical emissions will continue as MidAmerican Energy, which provided 99% of Iowa City’s and 70-80% of the University of Iowa’s electricity in 2015, increases their wind energy production. MidAmerican Energy’s goal is to produce enough renewable energy each year to equal 100% of its customers’ usage. The energy used by the community in 2015 totaled 10,205,291 MMBTUs, an increase of 3.6% from 2005. All sectors used a roughly equivalent amount of energy. 10 2015 Community-wide Greenhouse Gas Baseline Emissions Figure 9. Iowa City Community energy use by sector, 2015 2,352,734 23% 2,177,347 21% 2,347,319 23% 732,652 7% 2,595,238 26% 2015 Energy by Sector (MMBTUs) Residential Commercial Industrial UI Power Plant Transportation Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 Iowa City’s population grew from 65,641 in 2005 to 74,220 in 2015 (Figure 10). 11Figure 11. Iowa City emissions per capita, 2005-2015 Population & Per Capita Emissions Trends 50,000 60,000 70,000 80,000 Iowa City Population 2005-2015 During this same period, per capita emissions decreased from 19.6 tonnes per capita to 13.3 tonnes per capita (Figure 11 and Table 1). Figure 10. Iowa City population, 2005-2015 Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 12 Population & Per Capita Emissions Trends Table 1. Per capita CO2e emissions, 2000-2015 Year CO2e emissions per capita in Iowa City (in metric tonnes) 2000 20.8 2005 19.6 2008 18.8 2009 18.0 2010 20.3 2011 19.6 2012 18.1 2013 18.1 2014 18.1 2015 13.3 To meet the City Council’s 80% reduction goal by 2050, population growth must be factored into the equation. By the year 2050 the population of Iowa City is projected to be 100,000 or about 51% more than 2005 (Figure 11). Projections from 2005 for “business as usual” (i.e. no actions taken) predict that GHG emissions would be 1,949,220 mtCO2e by 2050 taking into account the projected increase due to population growth. Figure 12. Iowa City emissions with projected population growth Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 13 Population & Per Capita Emissions Trends Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 To meet the reduction goal for the year 2050, Iowa City’s emissions should equal 257,034 mtCO2e. To reach this target, a total of 1,692,186 mtCO2e emissions that must be reduced by the year 2050, from the 2005 baseline total.Iowa City’s Climate Action and Adaptation Plan will prioritize the measures to reduce these emissions by looking at each of the sectors and identifying those actions that the community is willing to undertake to reach this goal. IndustrialEmissions from the industrial sector of the Iowa City community include CO2e emissions from electricity and natural gas used in the industries within the community. Data was provided by MidAmerican Energy as an aggregate usage number within the city limits. (Figure 13). Commercial Emissions from the commercial sector of the Iowa City community include CO2e emissions from electricity and natural gas used by businesses within the community as well as University of Iowa buildings and facilities. Data was provided by MidAmerican Energy as an aggregate usage number within the city limits. (Figure 14). ResidentialEmissions from the residential sector of the Iowa City community include CO2e emissions from electricity and natural gas used in residential homes, condominiums and apartments within the community. Data was provided by MidAmerican Energy as an aggregate usage number within the city limits (Figure 15). 18 Trends by Sector 0 100,000 200,000 300,000 400,000 500,000 CO 2 e ( t o n n e s ) Industrial Figure 13. Industrial emissions, 2005-2015 Figure 14. Commercial emissions, 2005-2015 0 50,000 100,000 150,000 200,000 250,000 300,000 CO 2 e ( t o n n e s ) Residential Figure 15. Residential emissions, 2005-2015 Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 TransportationTransportation emissions come from Vehicle Miles Traveled (VMT), calculated annually by the Iowa Department of Transportation (DOT). Traffic counts on a variety of street types are collected in Iowa City and are used by the DOT in a computer model to generate the estimated number for all miles traveled for all vehicles on all streets and highways with in the community (Figure 16). Waste Waste from the Iowa City community goes to the Iowa City Landfill and Recycling Center, which accepts waste from all of Johnson County. Calculations were made to account only for the percentage of waste generated by the Iowa City population. Methane from the landfill is captured, flared and converted to CO2 in the process (Figure 17). University of Iowa Power PlantIowa City is unique among cities its size in the U.S. because it is home to a large University. The University of Iowa is the largest employer in the community and joined the (now defunct) Chicago Climate Exchange in 2005 to account for the CO2 emissions from their power plant. Substituting oat hulls for a portion of coal burned at the plant has reduced emissions since 2003. Data from the University of Iowa power plant is provided by Facilities Management (Figure 18). Trends by Sector 0 50,000 100,000 150,000 200,000 CO 2 e ( t o n n e s ) Transportation 0 5,000 10,000 15,000 20,000 25,000 CO 2 e ( t o n n e s ) Waste Figure 17. Waste emissions, 2005-2015 Figure 18. University of Iowa Power Plant emissions, 2005-2015 19 Figure 16. Transportation emissions, 2005-2015 Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 MidAmerican has committed to produce enough renewable energy each year to equal 100 percent of its customers’ usage. In 2015, 35.5% of electricity in Iowa City came from MidAmerican renewables. MidAmerican’s plans have been approved by the Iowa Utilities Board to increase their wind capacity so renewables will supply 89% of our electricity in Iowa City by 2019. This will impact all MidAmerican electricity accounts in Iowa City, which accounts for 99% of non-University electricity usage. While MidAmerican Energy has been increasing their renewable energy production since 2004, emissions factors used for calculating emissions in this report were higher due to MidAmerican selling a significant number of renewable energy credits prior to 2015 (Figure 19). Eastern Iowa Light and Power provides a small portion (0.5%) of purchased electricity to the southern portion of Iowa City. They state that almost 60% of their sources of energy are carbon free with 24.8% wind/hydro and 34.5% nuclear energy supplying their electrical generation, with plans for adding some solar installments in the next few years. The University of Iowa set sustainability goals in 2008 in their 2020 Vision, including the goal of 40% renewable energy consumption on campus by 2020. The university has been working toward this goal for several years by displacing coal with biomass fuel sources in its solid fuel boilers at the main Power Plant. Due to the success of these efforts, in February 2017 the university committed to eliminating coal from its fuel portfolio by 2025 (Figure 19). The university plans to achieve its goal to stop burning coal largely through increasing and diversifying its renewable fuel sources. 20 Renewable Energy Commitments 1,629 1,565 1,557 1,575 1,437 1,703 1,674 1,563 1,559 1,568 958 0 200 400 600 800 1,000 1,200 1,400 1,600 1,800 CO 2 e l b s / 1 0 0 0 k W h MidAmerican Electricity Generation Emissions Factors Figure 19. MidAmerican electricity generation emissions factor, 2005-2015 Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 Renewable Energy Commitments 21 Figure 20. University of Iowa Power Plant coal-reduction timeline Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 22 Conclusion Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 Several decades of climate research has concluded that human activities are changing our climate. The impact of climate change within Iowa was summarized by the Iowa Climate Change Advisory Council (Iowa Greenhouse Gas Inventory & Reference Case Projections 1990-2025, October 2008). Projected effects of climate change in Iowa include increased frequency of extreme storms, floods, higher rates of soil erosion, and damage to the economy, ecosystems, and human health. These effects have been linked to the rise of GHG emissions due to human activities. The reduction of greenhouse gas emissions is a serious and pressing matter since the U.S. is one of the largest emitters per capita in the world, averaging about 20 metric tonnes of GHG per capita per year. Annual world-wide average emissions are 4 metric tonnes per capita and the estimated sustainable annual limit is 2 metric tonnes per person. Iowa City estimated the community’s baseline 2005 greenhouse gas emissions to be 1,285,168 metric tonnes CO2e. Total greenhouse gas emission equivalent (CO2e) for the community in 2015 was 987,735 metric tonnes. In 2015, the City of Iowa City government operations activities totaled 49,675 metric tonnes CO2e, or 5% of the community total. These amounts were calculated using the most up-to-date protocol approved by the Global Covenant of Mayors. Iowa City’s CO2e for the baseline year (2005) was 19.6 metric tonnes per capita. Per capita averages depend on climate and community activities, but this number falls within the average range for the American population. Estimating data for the baseline year of 2005, analysis was done for both the community and government operations for the most recent year that data was available (2015). All sectors measured showed decreases over this 10 year period, except waste and transportation. MidAmerican Energy’s transition to wind energy production is driving the reduction in emissions for Iowa City. Further steps can be taken to move forward on the process to reduce these emissions, which can have positive effects on the local and global environment and economy. In addition to this inventory, a consumption-based inventory for the Iowa City community will be completed by fall 2017. The consumption-based inventory will include additional emissions due to food and materials consumed in the community. Iowa City was awarded grant funding from the Urban Sustainability Directors Network (USDN) for a pilot project to complete this work, which will give additional insight how community behavior can impact global emissions through consumption. Consumption-based inventories are becoming more main stream as cities want a better understanding of economic consumption and emissions which are created from consumable items and materials. With direct control over less than 5% of the community’s greenhouse gas emissions, cooperative partnerships will be needed to make a significant impact on emissions. Cooperation with the University of Iowa, residents, local industries and businesses will be necessary to make community-wide greenhouse gas reductions. The Council has appointed a Climate Action Steering Committee to work towards identifying and prioritizing specific actions to make these reductions possible. The Steering Committee, assisted by a consultant hired by the City, will be soliciting input from the public to develop an action plan to achieve these goals. Compact of Mayors Letter of Intent Appendix 1 23Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 Community-Wide Target Reduction Resolution 24 Appendix 2 Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 Appendix 2 25Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 26 Appendix 2 Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 Steering Committee Resolution Appendix 3 27Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 28 Appendix 3 Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 Updated Steering Committee Resolution Appendix 4 29Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 30 Appendix 4 Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 Appendix 4 31Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 Calculated Annual Emissions (metric tonnes CO2e) CO2e Totals 32 Appendix 5 Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 From:Brenda Nations To:Shannon McMahon Subject:Revised table for Appendix 5 Date:Wednesday, June 28, 2017 9:13:32 AM Only this table needs to be replace—all the others are fine. When you have all those in, we will be ready for a new version so I can make the text match. Thanks!!! 2005 2008 2009 2010 2011 2012 2013 2014 2015 376,201 408,884 331,126 414,455 413,145 440,907 404,690 390,717 251,901 272,222 259,803 244,324 281,040 274,902 254,393 268,978 274,760 196,646 241,450 254,055 234,259 270,753 266,786 233,171 255,718 271,236 188,872 241,167 182,273 249,557 247,332 234,228 184,572 216,192 234,806 188,042 138,011 139,952 136,517 142,094 140,607 139,877 136,338 141,909 144,700 16,117 16,467 17,856 19,037 21,376 16,461 15,741 17,803 17,575 1,285,168 1,261,433 1,213,639 1,374,712 1,351,043 1,269,382 1,297,657 1,331,231 987,735 Brenda Nations Sustainability Coordinator City of Iowa City 410 E. Washington St. Iowa City, IA 52240 Phone: (319) 887-6161 www.icgov.org/sustainability Emissions Factors for 2015 Appendix 6 33 EMISSION FACTORS  Use this table to record the emission factors used to calculate GHG emissions from all the a References provided in column D shall be used to identify the relevant emission factors in CO2 CH4 N2O Total CO2e Fuel A kg /kWh 0.4822 0.003 0.0029 Average emission factor for national electricity grid National emissions factor database Electricity lb /kWh 0.9580 0.00008183 0.000011933 0.963453485 MidAmerican MidAmerican Natural Gas kg /kWh 0.2020 0.0000036 0.00000036 0.2021962 IPCC IPCC VMT g /VMT 431.6536 0.0278 0.0294 440.223 19.64 lbs CO2/gal &20.386mi/gal eia.gov U of I Bituminous Coal for Power Plant lb /mmBtu 205.68 0.0250 0.0035 207.3075 University of Iowa Power Plant UI Power Plant Natural Gas - Main Plant Only - MMBtu lb /mmBtu 117.00 0.0020 0.0002 117.109 University of Iowa Power Plant UI Power Plant Aviation lb /mmBtu 152.7 0.007 0.0013 153.2405 University of Iowa Power Plant (.135mmBtu/gal)UI Power Plant Wastewater kg /Person 0 0.044478 0.02549348 8.0011562 Iowa City South WWTP Iowa City South WWTP Solid Waste kg /scf/yr 0 2.36558E-06 0 6.62361E-05 Landfill Landfill Lawn Care lb /hr 34.85 0 0 34.85 34.85 lbs/h for small gas engines (lawnmowers &lawncare)eia.gov Construction kg /hr 60.86 0 0 60.86 2.68kg/L for large diesel engines eia.gov Diesel kg /L 2.68 0 0 2.68 2.68kg/L for large diesel engines eia.gov SourceDescriptionEmission factorUnits F gases Fuel type or activity Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 For reporting requirements, the University of Iowa uses emission factors of 25 GWP for methane and 298 GWP for nitrous oxide. Community Energy Usage Numbers 34 *2005 numbers are based on a linear regression between 2000 and 2008 energy usage numbers when actual data was not available. Appendix 7 Community Energy Usage Data 2005*2008 2009 2010 2011 2012 2013 2014 2015 Residential Natural gas MidAmer. (therms)16,783,292 17,929,377 17,292,300 16,692,943 16,764,340 13,550,178 17,364,007 19,962,383 16,332,115 Residential Electricity MidAmer. (kWh)191,219,543 205,814,529 200,454,336 220,470,323 218,410,665 213,360,076 212,799,534 213,461,618 209,980,526 Residential Electricity EIL& P (kWh)365,618 430,139 1,033,795 1,321,114 1,446,856 1,569,483 1,726,432 900,794 839,634 Commercial Natural Gas MidAmer(therms)15,353,896 17,109,060 16,057,807 16,307,083 14,452,418 16,841,621 21,635,952 18,480,980 19,890,086 Commercial Electricity MidAmer (kWh)265,575,426 266,527,132 270,497,102 279,447,533 277,563,688 279,536,164 278,331,259 270,529,911 268,999,862 Commercial Electricity EIL& P (kWh)5,230 94,822 124,215 162,411 175,366 192,944 212,239 193,252 130,099 Industrial Natural gas MidAmer (therms)7,338,597 7,637,088 6,901,186 6,855,199 6,709,016 7,087,751 7,592,693 7,656,574 7,071,816 Industrial Electricity MidAmer (kWh)445,263,390 503,204,321 436,815,904 475,621,791 483,739,607 552,794,665 496,479,224 475,586,003 472,399,495 Industrial Electricity EIL& P (kWh)3,540,509 4,058,195 6,795,234 6,801,462 6,430,902 7,934,269 8,334,487 8,317,092 8,160,804 *U of I natural gas is subtracted to avoid double countingU of I Bituminous Coal for Power Plant (tons)95,086 61,974 92,852 89,832 88,979 59,579 67,370 86,550 61,531 U of I Purchased Natural Gas for PP(mmbtu)294,060 615,203 524,444 606,868 419,520 749,170 973,470 525,774 730,194 Transportation (VMT)313,590,000 318,000,000 310,196,000 322,868,000 319,489,000 317,831,000 309,788,000 322,448,000 328,790,000 Total Landfill (tonnes CO2)22,410 22,413 25,657 26,856 30,284 23,100 21,622 23,902 23,845 % of Landfill total 69%71%67%69%69%69%70%69%69% Community Waste (tonnes CH4)0 0 0 0 0 0 0 0 0 Iowa City Community Waste (tonnes CO2)15,463 15,913 17,190 18,531 20,896 15,916 15,049 16,516 16,477 CBOD (Carbonaceous BiochemicalOxygen Demand)13,892 11,767 14,152 10,749 10,192 11,098 12,873 27,852 23832 Population 65,641 67,768 69,086 67,862 69,094 70,133 71,591 73,415 74220 MidAmerican CO2lbs/MWh (from Annual Energy Reports)1,629 1,575 1,437 1,703 1,674 1,563 1,559 1,568 958 Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 DefinitionsADT Average Daily Traffic count: the total volume of traffic past a single point over a 24 hour period.BAU Business as usual scenario: assumes no strategies are employed to reduce greenhouse gases.Biogas The gas produced from decomposition of landfill waste or sewage consisting of methane, carbon dioxide, nitrogen and other trace gases such as hydrogen sulfide, ammonia and hydrogen.CACP2009 2009 Clean Air and Climate Protection software supplied by ICLEI, formerly used by Iowa City to calculate past years greenhouse gas emissions inventories. Data for this inventory was recalculated using the GPC protocol.CCX The Chicago Climate Exchange. A voluntary, but legally binding GHG emissions reduction cap and trade system. (chicagoclimatex.com/).CDP An organization which works with local governments and corporations to disclose greenhouse gas emissions, formerly the Carbon Disclosure Project. More information about CDP can be found at cdp.net/en/climate.CH4 Methane: A hydrocarbon that is a greenhouse gas with a global warming potential 21 times that of carbon dioxide (CO2). Methane is produced through anaerobic (without oxygen) decomposition of waste in landfills, animal digestion, decomposition of animal wastes, production and distribution of natural gas and petroleum, coal production, and incomplete fossil fuel combustion.CO2 Carbon Dioxide: A naturally occurring gas, and also a by-product of burning fossil fuels and biomass, as well as land-use changes and other industrial processes. It is the principal anthropogenic greenhouse gas.CO2e Carbon Dioxide Equivalent: A measure of the global warming potential of all greenhouse gases emitted including CH4, NO2 and other gasses in addition to CO2. Consumption-Basedinventory A consumption-based inventory refers to an emissions inventory that in addition to traditional emissions created within the city limits, evaluates emissions associated with all consumption, regardless of where it is produced. Many local governments are pursing this type of inventory to better understand how food and other materials purchased and consumed by the community have an impact on the environment and economy. GHG Greenhouse gases, which include carbon dioxide (CO2), methane (CH4), nitrous oxide (N2O), hydrofluorocarbons (HFCs), perfluorocarbons (PFCs), and sulfur hexafluoride (SF6).GPC Global Protocol for Community-scale Greenhouse Gas Emissions Inventories: The first global standard to measure greenhouse gas emissions from cities created as a joint project by ICLEI-Local Governments for Sustainability, the World Resources Institute (WRI) and C40 Cities Appendix 8 35Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 36 Appendix 8 Climate Leadership Group, with additional collaboration by the World Bank, UNEP, and UN-Habitat. GWP Global Warming Potential. The GWP-weighted emissions of direct greenhouse gases in the inventory are presented in terms of equivalent emissions of carbon dioxide (CO2). GWP factors represent the ratio of the heat-trapping ability of each greenhouse gas relative to that of carbon dioxide.HFCs Hydroflorocarbons: Compounds containing only hydrogen, fluorine, and carbon atoms. They were introduced as alternatives to ozone depleting substances in serving many industrial, commercial, and personal needs. HFCs are emitted as by-products of industrial processes and are also used in manufacturing. They do not significantly deplete the stratospheric ozone layer, but they are powerful greenhouse gases with global warming potentials ranging from 140 to 11,700 times that of carbon dioxide by weight.IPCC The Intergovernmental Panel of Climate Change is the leading body for the assessment of climate change, established by the United Nations Environment Programme (UNEP) and the World Meteorological Organization (WMO) to provide the world with a clear scientific view on the current state of climate change and its potential environmental and socio-economic consequences. (ipcc.ch/)ICLEI International non-profit organization providing software and assistance for communities to calculate their emissions. ICLEI was formerly known as International Council for Local Environmental Initiatives and has changed their name to Local Governments for Sustainability. (icleiusa.org/)KWh Kilowatt hour, a unit of electricity.LED Lights A high efficiency lighting technology that reduces lighting energy consumption by as much as 80% compared to traditional incandescent lighting. The City of Iowa City has employed this technology in a retrofit of the city’s traffic lights, and is looking for other applications of LED lighting to reduce consumption of fossil fuel derived energy.MMTBTU One million British Thermal Units, or 10 therms. A unit of energy measurement.Metric Tonne One thousand kilograms, or approximately 2,205 U.S. lbs.Miscanthus A grass used by the University of Iowa as a biomass, used to replace the burning of coal at the power plant.Natural Gas Underground deposits of gases consisting of 50 to 90 percent methane (CH4) and small amounts of heavier gaseous hydrocarbon compounds such as propane (C3H8) and butane (C4H10). Most prevalent fuel used for home and water heating in Iowa City. Some natural gas in the U.S. is recovered from underground using the process of “fracking.” Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 Appendix 8 37 NO2 Nitrous Oxide: A powerful greenhouse gas with a global warming potential of 310 times that of carbon dioxide (CO2). Major sources of nitrous oxide include soil cultivation practices, especially the use of commercial and organic fertilizers, fossil fuel combustion, nitric acid production, and biomass burning.Oat Hulls A byproduct of grain processing at the Quaker Oats plant in Cedar Rapids, Iowa. The hulls, a former industrial waste, are being redirected to the University of Iowa heat and electricity plant to replace some of the coal used at the plant thereby reducing GHG emissions.PFCs Perfluorocarbons: A group of human-made chemicals composed of carbon and fluorine only. These chemicals (predominantly CF4 and C2F6) were introduced as alternatives, along with hydrofluorocarbons, to the ozone depleting substances. In addition, PFCs are emitted as by-products of industrial processes and are also used in manufacturing. PFCs do not harm the stratospheric ozone layer, but they are powerful greenhouse gases with global warming potentials ranging from 5,700 to 11,900 times that of carbon dioxide.Scope 1 Scope 1 includes emissions being released within the city limits resulting from combustion of fossil fuels and from waste decomposition in the landfill and wastewater treatment plant.Scope 2 Scope 2 includes emissions produced outside the city that are induced by consumption of electrical energy within the city limits.Scope 3 Scope 3 includes emissions of potential policy relevance to local government operations that can be measured and reported but do not qualify as Scope 1 or 2. This includes, but is not limited to, outsourced operations and employee commute.SF6 A very powerful greenhouse gas used primarily in electrical transmission and distribution systems and as a dielectric in electronics. The global warming potential is roughly 22,200 times that of carbon.Therm A unit of measure for energy that is equivalent to 100,000 British Thermal units, or roughly the energy in 100 cubic feet of natural gas. Often used for measuring natural gas usage for billing purposes.VMT Vehicle Miles Traveled. A unit used to measure vehicle travel made by private vehicles, including passenger vehicles, truck, vans and motorcycles. Each mile traveled is counted as one vehicle mile regardless of the number of persons in the vehicle. Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 38 Appendix 9 Global Warming Potentials (GWP) Common Name Chemical Formula Global Warming Potential 1 Carbon dioxide CO2 1 Methane CH4 28 Nitrous oxide N20 265 Sulfur hexaflouride 2 SF6 23,500 Hydrofluorocarbons 2 Various Varies Perfluorocarbons 2 Various Varies 1 Values take from IPCC Fifth Assessment Report, 2014 (AR5) 2 This greenhouse gas inventory did not take these gases into account Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017 For reporting requirements, the University of Iowa uses emission factors of 25 GWP for methane and 298 GWP for nitrous oxide. Appendix 10 39 Summary of Iowa City’s STAR Rating Iowa City Community-wide Greenhouse Gas Emissions Inventory Update - June 2017