1. How Carbon Intensity Effects Kaya

2. Population

3. 2014 Population Growth Rates USA:.77 Definition: The average annual percent change in the population, resulting from a surplus (or deficit) of births over deaths and the balance of migrants entering and leaving a country. The rate may be positive or negative. The growth rate is a factor in determining how great a burden would be imposed on a country by the changing needs of its people for infrastructure (e.g., schools, hospitals, housing, roads), resources (e.g., food, water, electricity), and jobs. Rapid population growth can be seen as threatening by neighboring countries. Source: CIA World Factbook - Unless otherwise noted, information in this page is accurate as of January 1, 2014

4. GDP/Population Luxembourg-10.27x world United states- 5.02x world http://statisticstimes.com/economy/world-gdp-capita-ranking.php Source: International Monetary Fund World Economic Outlook

5. GDP/Population Affluence- average consumption of each person in the population It is assumed that as the GDP increases, consumption of good/services/energy will increase http://www.imf.org/external/pubs/ft/weo/2015/01/weodata http://statisticstimes.com/economy/world-gdp-capita-ranking.php

6. Energy/GDP The energy intensity required to produce a unit of GDP is falling in most countries of the world China GDP grew by about 10% a year between 1980 and 2005, while energy use grew by a little less than 6% per year Between 2005 and 2010, real GDP continued to grow by about 10% per year, while energy use grew by about 7.5% per year Up until 2005, the USA was able to increase real GDP by 3% per year, while increasing energy use by only 1% per year

7. CO2/Energy The amount of carbon by weight emitted per unit of energy consumed Can be decomposed into fossil and non-fossil shares, and emissions can be expressed as carbon emissions per unit of fossil energy Scott can you explain how they calculate this?

8. 2014 IPCC

9. Source: IPCC, 2011: IPCC Special Report on Renewable Energy Sources and Climate Change Mitigation CO2e/kWh of various energy systems lbs. CO2e/kWh Natural Gas: 0.6-2 Coal: 1.4-3.6 lbs. Wind 0.02 to 0.04 Solar 0.07 to 0.2 Geothermal 0.1 to 0.2

10. Decarbonization http://www.ipcc.ch/ipccreports/sres/emission/index.php?idp=46 Declining average carbon intensity of primary energy over time Figure 2-11 shows rate of 0.3% per year decline Global rate is decreasing but in some countries carbon intensity is increasing Median scenarios indicate rate of 1.1% most intensive uses of fossil fuels lead to no reduction Highest decarbonization rate of 2.5% per year indicate complete transition to non fossil fuels Figure 2-11: Global decarbonization of primary energy - historical development and future scenarios, shown as an index (1990 = 1). The median (50th), 5th, 25th, 75th and 95th percentiles of the frequency distribution are shown. Statistics associated with scenarios from the literature do not imply probability of occurrence. Data source: Nakicenovic, 1996; Morita and Lee, 1998.

11. Kaya Identity TPES (Total Primary Energy Supply) CO2 emissions: 6% lower in 2013 than 1990 Carbon intensity: declined 8* CO2 emissions almost tripled +137% GDP/population +42% population growth C intensity increase due to increased Coal use

12. Kaya Identity OECD90- Organization for Economic Cooperation and Development FSU- former USSR ALM+ASIA-Developing countries World- Self explanatory Global CO2 emissions since the middle of the 19 th century are estimated to have increased by approximately 1.7% per year 1% growth in population and a 2% growth in per capita income Subtract the 1% per year decline energy intensity of world GDP and decrease of 0.3% of carbon intensity Important note: Developed countries population has been steady while emissions evolved with GDP For Developing countries both population and income growth appear as important drivers of emissions Figure 3-1: Historical trends in energy-related CO2 emissions ("carbon emissions" shown as bold gray line) and broken down into the components of emission growth: growth or declines of population, gross domestic product (GDP) at purchasing power parities (PPPs), energy use per unit of GDP (Energy/GDP), share of renewables in energy use (Renewable energy/Energy), and carbon intensity per fossil energy (Carbon/Fossil energy) since 1970, in million tons elemental carbon (MtC). From top to bottom: Organization for Economic Cooperation and Development (OECD90, countries that belong to the OECD as of 1990), former USSR (FSU), Developing Countries (ASIA and Africa, Latin America and the Middle East (ALM)), and World. Source: G � rer and Ban, 1997.

13. https://www.iea.org/publications/freepublications/publication /CO2EmissionsFromFuelCombustionHighlights2015.pdf Kaya Identity

14. Global GHG’s 25% burning of coal, natural gas, and oil 21% Industrial – primarily from on site burning of fossil fuels for facilities energy 14% transportation – 95% of energy used for transportation is petroleum based 10% other energy - emissions from the energy sector not directly associated with electricity or heat production, such as fuel extraction, refining, processing 6% buildings - on-site energy generation and burning fuels for heat in buildings or cooking in homes 76% of GHG’s primarily from burning of fossil fuels

16. Who are the bad boys Give me the top 10 cumulative emitters of CO2 from 1850-present EU grouped as 1 emitter

17. World CO2 Emitters

18. Case Study: United States https://www3.epa.gov/climatechange/Downloads/ghgemissions/US-GHG-Inventory-2016-Chapter-3- Energy.pdf - CO2/Energy Consumption is 8.2% lower than 1990 levels - Energy Consumption and CO2/GDP - Shift from a manufacturing economy to a service-based economy, increases in efficiency, energy consumption and energy- related CO2 emissions per dollar of gross domestic product (GDP) have both declined since 1990

19. United States Total U.S. Greenhouse Gas Emissions by Economic Sector in 2013 81% produced by fossil fuels

20. United States GHG Inventory file:///C:/Users/Grant/AppData/Local/Microsoft/Windows/INetCac he/IE/5ZWUJAWS/US-GHG-Inventory-2016-Chapter-3-Energy.pdf