Investor Presentaiton

Intensity of emissions of greenhouse gases (GHG) | G4-EN18| Embraer calculates its greenhouse gas intensity indicator by adding the emissions from Scopes 1 and 2 accor- ding to the company's net revenue. The company's reduction goal is 3% during 2017, using 2013 as a reference. Considered in this indicator: Scope 1 emissions referring to: fugitive emissions; burning of different aeronauti- cal kerosene fuels (QAV, in Portuguese); and burning of QAV in production flights (current portfolio aircraft). Not considered: development flight emissions and certification of new products, as well as the Defense and Security Business Unit's aircraft. In this way, the 2016 indicator showed 19% reduction with relation to the year of 2013. Reduction of emissions of greenhouse gas (GHG) |G4-EN19| Reduction of emissions of greenhouse gas (GHG) Weight (tCO2e) 2014 2015 2016 Redesigning processes - Scope 1 77 98 0 Conversion and modernization of equipment - Scope 2 47 239 185 Conversion and modernization of equipment - Scope 1 120 0 0 Changes in the behavior of employees 22 0 19 Total emissions avoided 266 337 204 Persistent Organic Pollutants (POP) 0 0 0 Volatile Organic Compounds (VOC) Particulate Matter (PM) 27 20 7 36 26 19 Reported values refer to manufacturing plants SJK, EGM, Eleb, GPX and BOT. To calculate emissions, the te- chnical norms from the Environmental Company of the State of São Paulo (CETESB, in Portuguese) and the Environmental Protection Agency (EPA) were used. Installations carry out surveillance of atmospheric emissions resulting from stationary sources annually or at the demand of a local environmental agency, as per company procedure doc.emb 2314 and the Plan of Surveillance for Atmospheric Emissions (PMEA, in Portuguese). PMEAS identify all installed stationary sources, analyzed parameters and systems for controlling employed pollutants. Emissions monitored are: Particulated Matter, Volatile Organic Compounds, Nitrogen Oxide, Sulphuric Oxide and Carbon Monoxide. Emissions, measured in mg/Nm3, are converted to tonnes/year in order to verify if they ex- ceeded the limits set by law. Results are recorded at the local environmental agency and do not exceed the set limits, a compensation project not being necessary. Emissions from volatile organic compounds were significantly reduced in the last few years due to the installation of robots in the main painting cabins, which lessened the quantity of paint used for planes, consequently redu- cing VOC emissions. Also added are the improvements made for control procedures for calculating emissions. Total discard of water, separated by quality and destination | G4-EN22| Emissions of substances that destroy the ozone layer (SDOS, in Portuguese) |G4-EN20| Emissions shown in tonnes of equivalent CFC-11, calculated using the Ozone Depleting Potential (ODP) adopted by Montreal Protocol. Values taken from the Environmental Protection Agency (EPA), available at www.epa.gov/ ozone/science/ods/index.html. Total volume of water discard (m³) 2014 2015 2016 Treatment Destination Domestic 318,443 373,229 291,422 SJK 213,196 164,318 153,752 Primary treatment - railing Emissions of substances that destroy the ozone layer (SDOS, in Portuguese) Precursor HCFC-22 HCFC-141b Total ODP (tCFC-11E/t gas) 0.055 0.110 0.165 2014 (tonnes) 0.08 0.03 0.11 2015 (tonnes) 2016 (tonnes) Public sewage collection network Public sewage EGM 46,867 56,970 48,270 Primary treatment - railing collection network 0.08 0.04 GPX 38,009 34,465 34,319 Anaerobic treatment 0.03 0.02 TTE 20,371 13,311 12,440 Aerobic treatment 0.11 0.06 OGMA N/C 104,165 42,641 Biological treatment Local stream Local stream Public sewage collection network Emissions of NOx, SOx and other significant atmospheric emissions |G4-EN21| Industrial 71,108 116,126 108,047 SJK 23,708 25,690 24,619 BOT 2014 2015 2016 37,702 37,670 28,918 Categories NOX SOX Volume of emissions in tonnes 103 2 Volume of Volume of EGM 4,160 4,200 3,540 emissions in tonnes emissions in tonnes 97 91 GPX 615 827 577 2 2 ELEB 4,923 4,714 3,699 Physical-chemical treatment Physical-chemical treatment Physical-chemical treatment Physical-chemical treatment Physical-chemical treatment Public sewage collection network Public sewage collection network Public sewage collection network Local stream Public sewage collection network 56 57

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