Industry MeetIng for sustaInabIlIty
autoMotIve Industry and sustaInabIlIty
Automotive Industry
Cni – nAtionAl ConFederAtion oF industry – brAZil
Robson Braga de AndradePresident
eduCAtion & teCHnoloGy boArd – diret
Rafael Esmeraldo Lucchesi RamacciottiEducation & Technology Director
brAZiliAn AssoCiAtion oF veHiCle mAnuFACturers
Cledorvino BeliniPresident
Luiz Moan Yabiku Júnior1° Vice-president
Alexandre BernardesAlfredo Miguel NetoAndrea Zámolyi ParkAntonio Candido Prataviera CalcagnottoAntonio Carlos RamosAntonio MegaleAntonio Sérgio Martins MelloCarlos Eduardo Cruz de Souza LemosCarlos MorassuttiFernanda Villas-BôasHugo ZatteraJoão AlecrimJosef-Fidelis SennLuiz Carlos Gomes de Moraes Marco Saltini Mário Fioretti Mauro Marcondes Machado Paulo Takeuchi Ricardo Bastos Rogelio Golfarb Rogério Rezende Silvia Regina Bonotto Pietta Suely Agostinho Valentino RizzioliVice-presidents
Paulo Sotero Pires CostaExecutive Director
Ademar CanteroDirector of Institutional Relations
Aurélio SantanaTechnical Director
Automotive industry And sustAinAbility
bRasílIa2012
CniNational Federation of Industries
AnFAveAbrazilian association of Vehicle Manufacturers
Headquarterssetor bancário NorteQuadra 1 – bloco CEdifício Roberto simonsen70040-903 – brasília – DFPhone: (61) 3317-9000Fax: (61) 3317-9994www.cni.org.br
Headquartersavenida Indianópolis, 49604062-900 – são Paulo – sPPhone: (11) 2193-7800Fax: (11) 2193-7825http://www.anfavea.com.br
C748i
National Federation of Industries. brazilian association of Vehicle Manufacturers.
automotive industry and sustainability / National Confederation of Industry. brazilian association of Vehicle Manufacturers. – brasília : CNI, 2012.
43 p. (Rio+20 sectorial fascicle)
1. sustainability 2. United Nations Conference on sustainable Development I. Title II. series
CDU: 502.14 (063)
© 2012. Cni – national Federation of industriesany part of this publication may be reproduced provided the source is mentioned.
lIsT oF FIgUREs
Chart 1. Manufacturing capacity .......................................................................... 15
Chart 2. brazil – vehicle manufacturing ................................................................ 15
Chart 3. Vehicle manufacturing by segment | 2005-2011 ................................... 16
Chart 4. brazil – New vehicle registration ............................................................. 16
Chart 5. Vehicle registration by engine type | 2002-2011 .................................... 17
Chart 6. Registration of new vehicles by fuel type | 2011 .................................... 17
Chart 7. automotive market | Future scenario ..................................................... 18
Chart 8. brazil – automotive industry | Planned investment automakers ............ 18
Chart 9. Production of vehicles by state | 2010 ................................................... 20
Chart 10. Employment | 2003-2011 ....................................................................... 21
Chart 11. Registration of flex fuel vehicles | 2003-2011 ......................................... 25
Chart 12. biocombustíveis | Perspectivas ............................................................. 27
Chart 13. Emissions limits | light vehicles ............................................................. 29
Chart 14. Emissions reductions – light vehicles .................................................... 29
Chart 15. Emissions reductions – Heavy vehicles .................................................. 30
Chart 16. Proconve P7 – Emissions reductions ..................................................... 30
Chart 17. brazilian automotive industry – Use of input ........................................... 33
Chart 18. automotive industry – greenhouse gases (gHg) emissions ................. 34
Chart 19. Indústria automobilística | Waste material management ....................... 34
Chart 20. Main waste materials in the automotive industry .................................... 34
Chart 21. brazil – vehicle fleet | 2010 ..................................................................... 36
Figure 1. brazilian automotive complex ................................................................. 14
Figure 2. automotive economic chain ................................................................... 14
Figure 3. automobile and agricultural machinery factories ................................... 20
Figure 4. sustainability chain ................................................................................. 23
Figure 5. Vehicle energy – Development status ..................................................... 24
Figure 6. Engine’s electronic panel ........................................................................ 25
Figure 7. Expanding the use of ethanol ................................................................. 26
Figure 8. other uses of ethanol ............................................................................. 26
Figure 9. advantages of using ethanol .................................................................. 26
Figure 10. New natural materials ............................................................................. 37
Figure 11. Dynamic evolution of vehicles ................................................................ 37
sUMMaRy
CNI presentation
sectorial presentation
1 brazilian automotive industry ................................................................................ 13
2 Regionalization and sustainability ........................................................................ 19
2.1 automobile and agricultural machinery factories ....................................... 20
3 Employment, labor and sustainability .................................................................. 21
4 Vehicle energy matrix and sustainability ............................................................... 23
4.1 Pioneering and progress of biofuels ........................................................... 24
4.2 Flex fuel vehicles ......................................................................................... 25
4.3 biodiesel ...................................................................................................... 27
4.4 Vehicle environmental cains ........................................................................ 28
4.5 Proconve – Technological and environmental gains .................................. 31
5 Industrial matrix and sustainability ........................................................................ 33
6 Fleet and sustainability ......................................................................................... 35
6.1 Vehicles of the future ................................................................................... 36
7 Mobility and sustainability ..................................................................................... 39
8 automotive industry and sustainability | Conclusions ......................................... 41
8.1 automotive Iindustry | sustainability principles .......................................... 42
CNI PREsENTaTIoN
The diversity of the national industry and the significant availability of natural resources reveal excellent opportunities for the sustainable development of brazil, combining economic growth, social inclusion and environmental conservation. The materializa-tion of concerns related to sustainability in the strategic agenda of enterprises and governments is a reality. apart from isolated cases of success, the consequences of this attitude are felt in entire sectors of the economy. Further advances are still needed, but the path has already been identified and going back is impossible.
after coordinating an unprecedented critical thinking process on sustainability with 16 industry associations, the National Industry Confederation (CNI) delivers to the brazil-ian society a wide range of information on progress, challenges and opportunities yet to come. The results presented here may not portray the significance of the discussion process experienced by the industry in preparing these documents. Developments on the process will be beyond the Rio +20 Conference, and are definitely incorporated on the daily lives of companies.
The subject of sustainability is inserted differently in each of the industrial sectors. How-ever, some elements are common to all. The continuous pursuit for efficiency in use of resources and the need to increase industrial competitiveness are on the agenda of all the sectors. Encouraging innovation and scientific and technological development is strategic on the transition to more sustainable patterns of production.
strategies to intensify actions coordinated internally in the industrial sectors and with governments and civil society organizations are no less important. The dissemination of sustainable practices by means of the supply chain and incentives for companies to undertake the role of integrated management of the territories are powerful tools.
The sectorial volumes developed by industry associations are valuable contributions to addressing subjects such as sustainability and competitiveness of domestic industry. one of the most representative results of this process will certainly be the strengthen-ing of structured programs of action with a focus on promoting sustainability in the
production. These initiatives will act as raw materials so that the industries involved and CNI are able to systematically publish documents presenting the national industry´s developments towards the goals of sustainable production.
The documents presented here are intended to be a valuable contribution to enhance the debate on sustainability. Each of the sectorial associations is to be congratulated for their efforts.
robson braga de Andrade President of the National Confederation of Industry – brazil
sECToRIal PREsENTaTIoN
In addition to the business philosophy, and more than an issue of individual principle, the issue of sustainability becomes an imposition of a global society, of socioeconomic and environmental balance, of preserving the future of humanity.
With an extensive economic chain, the automotive sector is a structuring industry, an inducer of new technologies and generator of new economies, with consequences in a vast field of activities. From raw materials and inputs to the sectors of suppliers and assembly lines and, subsequently, to the distribution network and on to the final consumer, the automotive industry and its products have profound impacts on sustain-ability, reflecting the social, economic, and natural environments.
Complying with the legislation or having initiatives ahead of the laws, the automotive industry searches for sustainable action models, both regarding its industrial activities land with regard to performance and use of its products, as well as their social eco-nomic effects on communities where they are located.
The automotive industry understands that sustainability is systemic. a comprehensive and seamless process of action, with future vision. a necessarily imposing and priority issue, which should be treated in all its extent and effects on society, public, and pri-vate policies. The automotive industry is a relevant part in the equation development with sustainability.
Cledorvino belini President aNFaVEa
aUToMoTIVE INDUsTRy aND sUsTaINabIlITy 13
1 bRazIlIaN aUToMoTIVE INDUsTRy
The automotive industry and the brazilian automotive market are ranked among the larg-est in the world. globally, brazil is the 4th largest market and 6th largest producer (2010).
The most important automotive groups present in the global sector are established in the country. There are 19 vehicle manufacturers (cars, light commercials, trucks and buses) and 7 producers of agricultural machinery (tractors, harvesters and other products).
The automotive industrial complex consists of auto part supply industry and agricul-tural machinery manufacturers, in addition to a fully developed domestic automotive engineering and a highly qualified staff. at the end of the market, marketing and ser-vices sectors cover the whole country.
aNFaVEa – brazilian association of Vehicle Manufacturers is the automotive industry’s representative entity.
14 INDUsTRy MEETINg FoR sUsTaINabIlITy
Figure 1. Brazilian automotive Complex
Faturamento 2010(inclui autopeças)
US$ 107,6 bilhões
Emprego(direto + indireto)
1,5 milhão de pessoas
ProdutosAutomóveis, comerciais
leves, caminhões, ônibus, tratores e colheitadeiras Capacidade/ano
Veículos: 4,3 milhõesMáquinas agrícolas: 109 mil
no PIB 2010
(inclui autopeças)
Industrial: 22,5% | Total: 5,2%
Relações intersetoriais
200 mil empresas
Geração de tributos 2010 (IPI, ICMS, PIS, COFINS)
Veículos: US$ 27,7 bilhões
Exportações 2010
US$ 20,1 bihões25% das exportações
de manufaturados
Tecnologia
nacionalEmpresas
Montadoras: 26Autopeças: 500
Concessionários: 4.554
Fábricas53 unidades
9 estados39 municípios
1994-2010(inclui autopeças)
US$ 50,5 bilhões
Income 2010(includes parts)
US$ 107.6 billion
Employment(direct + indirect)
1.5 million jobs
ProductsCars, light commercials vehicles, trucks, buses,
tractors and harvesters Capacity/yearVehicles: 4.3 million
Agricultural machinery: 109,000
Share of GDP in 2010
(includes parts)
Industrial: 22.5% | Total: 5.2%
Cross-sector
200,000 companies2010 (IPI, ICMS, PIS, COFINS)
Vehicles: US$ 27.7 billion
Exports 2010
US$ 20.1 billion25% of manufatured exports
Technology
engineering
CompaniesAutomakers: 26Auto parts: 500Dealers: 4,554
Factories53 units9 states
1994-2010
(includes parts)US$ 50.5 billion
Figure 2. automotive eConomiC Chain
Raw Materials Auto parts Automakers Services
• Steel•
• Rubber• Glass
• • Paint
• Engine• Transmission
• Breaks• Tires
• Wheels• Chassis
• Axles
• Cars• Light Commercial
Vehicles• Trucks• Buses
• Tractors•
Vehicles
Labor | EnergyWater | General Input
• Dealers
• Post-Sales• Fuels
• Insurance• Bank
• Parts Stores• Auto Shops
Matérias-primas Autopeças Montadoras Distribuição Serviços
Aço
BorrachaVidro
Tintas
MotorCâmbio
FreiosPneusRodas
ChassisEixos
Automóveis Comerciais leves
CaminhõesÔnibus
TratoresColheitadeiras
Mão-de-obra | Energia Água | Insumos gerais
Concessionárias
Pós-vendas
SegurosBancos
Lojas de autopeças
15aUToMoTIVE INDUsTRy aND sUsTaINabIlITy
The automotive industry has an impact on many sectors of society. More than 200,000 companies in brazil have their activities linked to the automotive sector.
Chart 1. manuFaCturing CapaCity
2005
3,5 4,
0 4,3
2009 2011
Capacidade de produçãomilhões de veículos
2005
3.5 4.
0 4.3
2009 2011
Manufacturing capacitymillion of vehicles
Chart 2. Brazil – vehiCle manuFaCturingBrazil - vehicle manufacturing
million of units
109,3% | 8,6% p.y.
2002 2003 20072004 20082005 20092006 2010
1,63 1,68
2,12 2,
36 2,40
2,82 3,
05 3,07 3,
38
3,42
2011
Brasil - produção de veículosMilhões de unidades
109,3% | 8,6% a.a.
2002 2003 20072004 20082005 20092006 2010
1,63 1,68
2,12 2,
36 2,40
2,82 3,
05 3,07 3,
38
3,42
2011
In 54 years of operations in the country, the automotive industry has manufactured 63 million vehicles.
16 INDUsTRy MEETINg FoR sUsTaINabIlITy
Chart 3. vehiCle manuFaCturing By segment | 2005-2011
Produção de veículos por segmento| 2005-2011Milhões de unidades
Automóveis Comerciais leves Caminhões Ônibus Total
2,36
1,87
2,40
1,91
2,82
2,27
3,05
2,41
3,07
2,49
3,38
2,58
0,34 0,36 0,39 0,44 0,440,57
0,03 0,03 0,03 0,04 0,03 0,04
2007 20082005 20092006 2010
0,11 0,10 0,13 0,16 0,12 0,19
0,61
0,21
0,04
2,54
3,42
2011
Vehicle manufacturing by segment | 2005-2011million of units
2,36
1,87
2,40
1,91
2,82
2,27
3,05
2,41
3,07
2,49
3,38
2,58
0,34 0,36 0,39 0,44 0,440,57
0,03 0,03 0,03 0,04 0,03 0,04
2007 20082005 20092006 2010
0,11 0,10 0,13 0,16 0,12 0,19
0,61
0,21
0,04
2,54
3,42
2011
Chart 4. Brazil – new vehiCle registration
million of units
145,4% | 10,5% p.y.
2002 2003 20072004 20082005 20092006 2010
1.48
1.43 1.
59 1.71 1.
93
2.46 2.
82 3.14 3.
51
3.63
2011
Brasil - Licenciamento de veículos novosMilhões de unidades
145,4% | 10,5% a.a.
2002 2003 20072004 20082005 20092006 2010
1,48
1,43 1,
59 1,71 1,
93
2,46 2,
82 3,14 3,
51
3,63
2011
17aUToMoTIVE INDUsTRy aND sUsTaINabIlITy
Chart 5. vehiCle registration By engine type | 2002-2011
Licenciamento de veículos por motorização | 2002-2011Porcentagem
0
20
40
60
80
100 = 1.0 > 1.0 a 2.0 > 2.0
2002 20072003 20082004 20092005 20102006 2011
Percentage
0
20
40
60
80
100
Note: From 2002 to 2004, data refers to wholesales.
= 1.0 > 1.0 to 2.0 > 2.0
2002 20072003 20082004 20092005 20102006 2011
Throughout its long history of manufacturing in brazil the 1.0 l engines represents more than 50% of production and sales.
Chart 6. registration oF new vehiCles By Fuel type | 2011
million of units
83,3
%
5,8%
10,9
%
0,0%
Total3.63 million units
Flex fuel Diesel Gasoline Ethanol
Milhões de unidades
83,3
%
5,8%
10,9
%
0,0%
Total3,63 milhões de unidades
Flex fuel Diesel Gasolina Etanol
18 INDUsTRy MEETINg FoR sUsTaINabIlITy
Chart 7. automotive market | Future sCenario
Milhões de unidades
2011 2012 2013 2014 2015 2016 2017 2018 2019 2020
0,0
1,0
2,0
3,0
4,0
5,0
6,0
7,0
8,0
Fonte: Anfavea, Tendências, Autofacts, análise PWC.
3,63,8
4,14,5 4,8
5,15,4
5,76,0
6,3
million of units
2011 2012 2013 2014 2015 2016 2017 2018 2019 2020
0,0
1,0
2,0
3,0
4,0
5,0
6,0
7,0
8,0
Source: Anfavea, Tendências, Autofacts, PWC analysis.
3,63,8
4,14,5 4,8
5,15,4
5,76,0
6,3
Projections indicate domestic market potential of 6.3 vehicles/year in 2020.
Chart 8. Brazil – automotive industry | planned investment automakers
Planned investment Automakers
US$ billion
2004-2006
3.6
11.8
22.0
2007-2010 2011-2015
Montadoras
US$ bilhões
2004-2006
3,6
11,8
22,0
2007-2010 2011-2015
Us$ 22 billion of planned investments by 2015, to increase production capacity, pro-cesses, products, technology and innovation, prepare the industry for the future.
aUToMoTIVE INDUsTRy aND sUsTaINabIlITy 19
2 REgIoNalIzaTIoN aND sUsTaINabIlITy
The brazilian automotive industry has decentralized its manufacturing operations throughout the country, both regarding the manufacturers, who produce the final products, as well as the auto part suppliers industry.
Regarding the automobile and agricultural machinery manufacturing industry, there are 26 companies with 53 industrial units, and others based in 39 municipalities in nine brazilian states, from the Mid-southern region to the Midwestern and Northeast-ern – in other words, throughout the entire country.
The regionalization of the automotive industry in the country, most noticeably since the 1990s, also led to decentralization of the auto parts supplier industry, especially through the creation of industrial parks which integrate suppliers and manufacturers, such as automotive industrial hubs in gravataí (Rs), Camaçari (ba), and other auto-motive industrial hubs in betim (Mg), Pinhais (PR), and Resende (RJ).
The investment planned by the automotive industry over the next years focuses on the decentralization of production within the country.
The effects of the internalization of these automotive investments are undeniable, for they change the socioeconomic scenario of the regions where they settle radically, and for the better. Consequently, significant investments are made in the infrastruc-ture and public services of these communities and regions, while, at the same time, there is a multiplier effect that occurs with private investments to meet new consumer needs for local goods and services.
The decentralization of automotive investments creates new local and regional econ-omies, creating employment, and raising income, consumption and quality of life in a virtuous circle.
The internalization of the automotive industry acts as a local, regional and national sustainability factor.
20 INDUsTRy MEETINg FoR sUsTaINabIlITy
2.1 Automobile and agricultural machinery factories
Figure 3. automoBile and agriCultural maChinery FaCtoriesFábricas de veículos e máquinas agrícolas
The decentralization of the investments continues. New factories will be built, generat-ing new economies in the regions.
Chart 9. produCtion oF vehiCles By state | 2010
São Paulo47,9%
Minas Gerais21,6%
Paraná11,6%
Rio Grande do Sul5,6%
Bahia5,7%
Goiás1,7%
Rio de Janeiro6,0%
Produção de veículos por Estado | 2010
São Paulo47,9%
Minas Gerais21,6%
Paraná11,6%
Rio Grande do Sul5,6%
Bahia5,7%
Goiás1,7%
Rio de Janeiro6,0%
aUToMoTIVE INDUsTRy aND sUsTaINabIlITy 21
3 EMPloyMENT, laboR aND sUsTaINabIlITy
a striking feature of the automotive industry is the generation of highly qualified jobs and remuneration compatible with the high level of their professional staff.
over 145,000 workers are directly employed in the automotive industry. However, the reach of this sector is so great that, when we add the workers from the distribution network and automotive services in general to that number, about 1.5 million people work directly in, or have their jobs indirectly linked to the automotive and automotive product industry.
The automotive industry is aggregating, with numerous and severe repercussions on important economic chains and especially on the scale of economic and social communities and regions, multiplying the possibilities of employment and labor, quality of life and social mobility.
Chart 10. employment | 2003-2011Employment2003 to 2011
Thousand of peoples
90.7 thousandTotal employment
manufacturers145.4 thousand
200490
100
110
120
130
140
150
2003 20082005 20092006 2010 20112007
Emprego2003 a 2011
Milhares de pessoas
90,7 milTotal de empregos
montadoras145,4 mil
200490
100
110
120
130
140
150
2003 20082005 20092006 2010 20112007
Each job created in the industry may generate up to ten other jobs in the wide university of activities linked to the industry and to automotive products.
aUToMoTIVE INDUsTRy aND sUsTaINabIlITy 23
4 VEHIClE ENERgy MaTRIx aND sUsTaINabIlITy
The work on research and development of innovations and technologies for the chain of sustainability of the energy matrix for vehicles are intense all over the world, regard-ing fuel and vehicle technologies.
In the fuel area, the focus is on new alternatives for fossil fuels, such as renewable biofuels, synthetic fuels and fuel cells.
In the engine area, the developments aim at greater energy efficiency for internal com-bustion engines, hybrid vehicles and electric motors.
The global vehicle energy matris tends to be multiple, with greater influence from one or other sources according to talent and resources available in each region and to the range of automotive consumption.
In brazil, the short to medium term technical and economic viability lies in the planning of combustion engines, making use of oil derivatives and biofuels such as ethanol and biodiesel. There are individual cases of electric motors or hybrid vechicle in niche markets, generally for company ans institution fleets.
Figure 4. sustainaBility Chain
Cadeia da sustentabilidade
Requisitos
Redução da poluição
Desenvolvimento de fontes neutras para CO2
Sustainability chain
Requirements
Development of Neutral CO2 Sources
24 INDUsTRy MEETINg FoR sUsTaINabIlITy
Figure 5. vehiCle energy – development statusVehicle energy - development status
Energia veicular - status de desenvolvimento
brazil has focused on biofuels in its vehicle energy matrix.
4.1 Pioneering and Progress of Biofuels
With ethanol, brazil is the global pioneer in the large-scale use of biofuel as a renew-able source of vehicle energy.
since 1979, with the National alcohol Program and the beginning of ethanol vehicle production, a new extensive economic chain has been created in the country, from production of ethanol in the sugarcane industry to distribution and large-scale use of fuel directly in otto cycle engines (hydrous ethanol) and for adding up to 25% in gaso-line consumed in the country (anhydrous ethanol). between 1979 and 2000 5.6 million vehicles which run exclusively on ethanol were manufactured in brazil.
since 2003, with their own technological improvements, flex fuel vehicles have been re-leased in brazil, which can consume ethanol or gasoline alike, at the same time, in any proportion. There are already 15 million flex vehicle in circulation in the country, which represent more than 40% of the fleet, or about 32 million vehicles (2010).
The technical and economic viability of ethanol fuel has consolidated this new and impor-tant economic chain in the country. The technological, economic and social effects of these activities are intense, interiorizing development with investments, production, employment, income, consumption, and quality of life of producing regions of the renewable fuel, and even moving the automotive industry itself, with the production of flex fuel vehicles.
In addiction to these social-economic benefits, there are the environmental benefits of ethanol production and consumption, with the reduction of Co2 emissions in the atmo-sphere. The environmental balance of ethanol is positive, considering that its Co2 emis-sions during consumption are offset by the cultivation of sugarcane to produce fuel.
25aUToMoTIVE INDUsTRy aND sUsTaINabIlITy
4.2 Flex fuel vehicles
• Flex fuel vehicles are designed to be fueled by gasoline, ethanol, or any mixture of these fuels.
• Through some special sensors, the onboard computer recognizes which fuel is being used adjusts the combustion engine parameters accordingly, without any driver input.
• Introduced in the brazilian market in March 2003.
Figure 6. engine’s eleCtroniC panel
• Os veículos fuel são projetados para serem abastecidos com gasolina, etanol, ou qualquer mistura destes dois
• Por meio de alguns sensores especiais, o computador de bordo reconhece qual é o e ajusta adequadamente os parâmetros de combustão do motor, sem qualquer interferência do condutor.
• Introduzido no mercado brasileiro em março de 2003.
Cerca de 33 mil postos
todo o País fornecem
Central eletrônicado motor
Flex fuel vehicles
• Flex fuel vehicles are designed to be fueled by gasoline, ethanol, or any mixture of these fuels.
• Through some special sensors, the onboard computer recognizes which fuel is being used adjusts the engine parameters accordingly, without any driver input.
• Introduced in the Brazilian market in March 2003.
Nearly 33 thousand
throughout the country supply both types of fuel
Engine’s electronicpanel
Chart 11. registration oF Flex Fuel vehiCles | 2003-2011
million of units
2003 2004 20082005 20092006 20102007 2011
0.050.33
0.81
1.40
2.002.33
2.65 2.88 2.90
15 million
milhões de unidades
2003 2004 20082005 20092006 20102007 2011
0,050,33
0,81
1,40
2,002,33
2,65 2,88 2,90
15 milhões
Flex fuel vehicles already represent over 40% of the light vehicle fleet in brazil.
26 INDUsTRy MEETINg FoR sUsTaINabIlITy
Figure 7. expanding the use oF ethanol
Ampliação do uso do etanol
Motocicletasrodas, produzindo motocicletas capazes de rodar com gasolina, etanol ou com qualquer proporção dos dois.
Aviõeslevou a tecnologia dos motores a etanol aos aviões, desenvolvendo o modelo agrícola Ipanema.
Expanding the use of ethanol
Motocyclesvehicles manufacturing motorcycles that can run on gasoline, ethanol
Airplanestechnology of ethanol engines to airplanes, developing the Ipanema agricultural model.
Other uses of ethanol
Figure 8. other uses oF ethanol
Ampliação do uso do etanol
Motocicletasrodas, produzindo motocicletas capazes de rodar com gasolina, etanol ou com qualquer proporção dos dois.
Aviõeslevou a tecnologia dos motores a etanol aos aviões, desenvolvendo o modelo agrícola Ipanema.
Expanding the use of ethanol
Motocyclesvehicles manufacturing motorcycles that can run on gasoline, ethanol
Airplanestechnology of ethanol engines to airplanes, developing the Ipanema agricultural model.
Other uses of ethanol
Figure 9. advantages oF using ethanolAdvantages of using ethanol
The environmental balance of ethanol is
neutralizando os gases do efeito estufa em todo o ciclo de produção e consumo.
27aUToMoTIVE INDUsTRy aND sUsTaINabIlITy
4.3 Biodiesel
In recent years, brazil went on to develop the biodiesel Program, which can become a new major sustainable economic chain, with strong economic, social and environmen-tal consequences, notably through the social inclusion of family agriculture involved in the production of raw materials for fuels.
With this program, brazil started to add 2% biodiesel (esterified vegetable oil, renew-able biomass) to diesel consumed by cargo transport and passenger vehicles in the country. Currently, the addition of biodiesel is 5%.
Projections indicate a significant share of biofuels in the vehicle energy consumption of the country, with positive effects on the environmental balance and the generation of new economies within the country.
Chart 12. BioComBustíveis | perspeCtivas
etanol
gasolina
diesel
biodiesel
gvn
(*) TEP - Tonelada Equivalente de Petróleo | Fonte: MME
Consumo: 2008 = 56,8 TEP* 2017 = 86,7 TEP
Biodiesel
Brasil passou a ter a adição de 2% de biodiesel (B2).
Atualmente, o Brasil
de biodiesel, com possibilidade de elevar a mistura no futuro.
Biofuels - Prospects
matrix, with an increased use of biofuels.
(*) TOE – Tons of Oil Equivalent | Source: MME
2008 = 56.8 TOE* 2017 = 86.7 TOE
BiodieselSince 2008, the diesel used in Brazil had the
2% biodiesel (B2).
Currently, Brazil uses B5, with 5% biodiesel, with the possibility of increasing the mixture in the future.
ethanol
gasoline
diesel
biodiesel
ngv
28 INDUsTRy MEETINg FoR sUsTaINabIlITy
4.4 Vehicle environmental gains
automotive products have a long lifecycle, representing significant impacts in society, in terms of environment, urban mobility, road safety, in other words, sustainability.
Constant investments in vehicle innovations, both regarding engine and alternative fuel technologies, as to design and overall performance of automotive products, have become essential.
More efficient engines, with lower fuel consumption and lower emissions, as well as alternatives to petroleum derivatives, are the focus of the automotive R&D center proj-ects worldwide, and also in brazil.
gains in energy efficiency and emissions reductions in brazil are significant. as for emissions, brazilian light and heavy vehicles comply with their respective laws, in order to reduce emissions of carbon monoxide (Co), hydrocarbons (HC), oxides of nitrogen (Nox), total aldehydes (CHo), and particulate matter (PM).
The utilization of new materials and less pollutant and more recyclable technologies is already high and will be more intense and clear in future. The introduction of the named “green tires”, for example, with lower atrict coeficient, less wear and higher durability is being increasing in the production assembling lines, bringing environmental gains in the vehicle operation.
as a representative result of Proconve – Program for air Pollution Control by automotive Vehicles, a vehicle today pollutes 28 times less than one manufactured in the 1980s. In other words, it would take 28 current vehicles to generate the same emissions level of only one vehicle of the mid-1980s.
From 2012 to 2013, new emission limits for diesel vehicles will come into effect (stag-es P7 and l6 of the Proconve, equivalent to Euro 5), establishing further emissions reductions, especially oxides of nitrogen and particulate matter. In the case of otto-cycle light vehicles (gasoline and ethanol), a new stage (l 6) comes into effect in 2014, reducing emission limits.
29aUToMoTIVE INDUsTRy aND sUsTaINabIlITy
Chart 13. emissions limits | light vehiClesEmissions limits | Light vehicles
Limits in some countries and regionsWeighted emissions (g/km)
1995 1996 1997 1998 1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015
0,0
0,51,0
1,5
2,0
2,5
3,0
3,5
4,0
Weighted emissions (g/km) = [(CO/10+HC/NMHC/NMOG+NOx) x FD]
Brazil
MexicoUnited States
Europe
Vehicular emissions limits in Brazilmove forward and are equivalent to
light and heavy vehicles.
Emissões ponderadas (g/km) = [(CO/10+HC/NMHC/NMOG+NOx) x FD]
Limites de emissões | Veículos levesLimites em alguns países e região
Emissões ponderadas (g/km)
1995 1996 1997 1998 1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015
0,00,51,0
1,52,02,53,03,5
4,0 Brasil
MéxicoEstados Unidos
Europa
Os limites de emissões veiculares no Brasil avançam e equiparam-se aos padrões internacionais, tanto para veículos leves como para pesados.
Vehicular emissions limits in brazil move forward and are equivalent to international standards for both light and heavy vehicles.
Chart 14. emissions reduCtions – light vehiCles
Redução de emissões | Veículos leves
Aldeídos Totais - CHo (g/km)
Monóxido de Carbono - CO (g/km)
L 1 L 2 L 3 L 4 L 5 L 60
5
10
15
24,0
12,0
2,0 2,0 2,0 1,3
20
25
30
Hidrocarbonetos - HC (g/km)
L 1 L 2 L 3 L 4 L 5 L 60
0,5
1,0
1,5
2,10
1,20
0,30 0,16 0,05 0,05
2,0
2,5
3,0
L 1 L 2 L 3 L 4 L 5 L 60
0,05
0,10
0,15 0,15
0,03 0,03 0,02 0,02
0,20
0,25
0,30Óxidos de Nitrogênio - NOx (g/km)
L 1 L 2 L 3 L 4 L 5 L 60
0,5
1,0
1,5
2,00
1,40
0,600,25 0,12 0,08
2,0
2,5
3,0
NMHC
Datas de Exigência:
• L 1 = 1988• L 2 = 1992• L 3 = 1997
• L 4 = 2005 (40%) 2006 (70%) 2007 (100%)
• L 5 = 2009• L 6 = 2013 (Veículos leves a diesel)
2014 (Novos modelos ciclo 2015 100%)
Total Aldehyde - CHO (g/km)
Carbon Monoxide - CO (g/km)
L 1 L 2 L 3 L 4 L 5 L 60
5
10
15
24,0
12,0
2,0 2,0 2,0 1,3
20
25
30
Hydrocarbons - HC (g/km)
L 1 L 2 L 3 L 4 L 5 L 60
0,5
1,0
1,5
2,10
1,20
0,30 0,16 0,05 0,05
2,0
2,5
3,0
L 1 L 2 L 3 L 4 L 5 L 60
0,05
0,10
0,15 0,15
0,03 0,03 0,02 0,02
0,20
0,25
0,30Nitrogen Oxide - NOx (g/km)
L 1 L 2 L 3 L 4 L 5 L 60
0,5
1,0
1,5
2,00
1,40
0,600,25 0,12 0,08
2,0
2,5
3,0
NMHC
Dates of Requirement:
• L 1 = 1988• L 2 = 1992• L 3 = 1997
• L 4 = 2005 (40%) 2006 (70%) 2007 (100%)
• L 5 = 2009• L 6 = 2013 (light diesel vehicles)
2014 (New cycle models) 2015 100%)
between 1985 and 2011, brazil lowered vehicular emissions by 97%.
30 INDUsTRy MEETINg FoR sUsTaINabIlITy
Chart 15. emissions reduCtions – heavy vehiCles
Dates of Requirement:
• P 1 = 1987 (City bus)1989 (100%)
• P 2 = 1994 ( 80%)1996 (100%)
• P 3 = 1994 (City bus)1996 ( 80%)2000 (100%)
• P 4 = 1998 (City bus)2000 ( 80%)2002 (100%)
• P 5 = 2004 (City bus)2005 (Minibus)2005 ( 40%)2006 (100%)
• P 7 = 2012 (100%)
Carbon Monoxide - CO (g/kWh)
P 2 P 3 P 4 P 5 P 70
5
10
1511,2
14,4
9,0
7,0
5,0
2,0
5,0
2,0
0,70
0,40
0,25
0,15
0,13
0,10
0,21
0,16
0,02 0,03
0,02 0,03
2,45
1,231,10
0,66 0,78 0,46 0,55
4,9 4,02,1 1,5
5,454,0
20
25
30
Hydrocarbons - HC (g/kWh)
NMHC
P 2 P 3 P 4 P 5 P 70
0,5
1,0
1,5
2,0
2,5
3,0
0
0,2
0,4
0,6
0,8
1,0
P 3 P 4 P 5 P 7
Nitrogen Oxide - NOx (g/km)
0
4
2
8
6
12
10
16
14
P 2 P 3 P 4 P 5 P 7
Redução de emissões | Veículos pesados
Datas de Exigência:
• P 1 = 1987 (Ônibus urbano)1989 (100%)
• P 2 = 1994 ( 80%)1996 (100%)
• P 3 = 1994 (Ônibus urbano)1996 ( 80%)2000 (100%)
• P 4 = 1998 (Ônibus urbano)2000 ( 80%)2002 (100%)
• P 5 = 2004 (Ônibus urbano)2005 (Micro-ônibus)2005 ( 40%)2006 (100%)
• P 7 = 2012 (100%)
Monóxido de Carbono - CO (g/KWh)
P 2 P 3 P 4 P 5 P 70
5
10
1511,2
14,4
9,0
7,0
5,0
2,0
5,0
2,0
0,70
0,40
0,25
0,15
0,13
0,10
0,21
0,16
0,02 0,03
0,02 0,03
2,45
1,231,10
0,66 0,78 0,46 0,55
4,9 4,02,1 1,5
5,454,0
20
25
30
Hidrocarbonetos - HC (g/KWh)
NMHC
P 2 P 3 P 4 P 5 P 70
0,5
1,0
1,5
2,0
2,5
3,0
0
0,2
0,4
0,6
0,8
1,0
P 3 P 4 P 5 P 7
Óxidos de Nitrogênio - NOx (g/KWh)
0
4
2
8
6
12
10
16
14
P 2 P 3 P 4 P 5 P 7
Chart 16. proConve p7 – emissions reduCtions
Proconve P7 – Redução de emissões
NOx MPEuro 3 (P 5) Euro 5 (P 7)
60%80%
NOx
Emis
sões
(%)
MPEuro 0 (P 2)
0
10
20
30
40
50
60
70
90
80
100
Euro 1 (P 3) Euro 2 (P 4) Euro 3 (P 5) Euro 5 (P 7)
87,3%
96,3%
NOx MPEuro 3 (P 5) Euro 5 (P 7)
60%80%
NOx
Emis
sion
s (%
)
MPEuro 0 (P 2)
0
10
20
30
40
50
60
70
90
80
100
Euro 1 (P 3) Euro 2 (P 4) Euro 3 (P 5) Euro 5 (P 7)
87,3%
96,3%
The new P7 legislation, effective as of January 2012, brings a 60% reduction of oxides of nitrogen (Nox) and 80% of particulate matter (PM) emissions in relation to the cur-rent stage (P5 equivalent to Euro 3, valid for vehicles manufactured until December 2011). Compared with the onset of Proconve in 1986, the reduction of particulate mat-ter in the new stage is 96.3%, and of Nox, 87.3%.
31aUToMoTIVE INDUsTRy aND sUsTaINabIlITy
4.5 Proconve – Technological and environmental gains
• Modernization of the brazilian automotive industry
◊ international level products
◊ modern manufacturing processes
◊ increased productivity
• adoption, updating and development of new technologies
◊ Fuel quality improvement
◊ Training of high-qualified technicians
◊ canisters
• Fuel quality improvement
◊ lead elimination
◊ sulfur reduction
◊ increased use of biofuels
• Training of high-qualified technicians
◊ brazilian technology development
◊ use of biofuels
◊ flex fuel development
• Investment in the productive chain, new products and control laboratories
Created in 1986, the Program for air Pollution Control by Motor Vehicles (Proconve) established new vehicular emissions paradigms in brazil.
aUToMoTIVE INDUsTRy aND sUsTaINabIlITy 33
5 INDUsTRIal MaTRIx aND sUsTaINabIlITy
The environmental issue is one of the pillars of sustainable automotive industrial ma-trix, alongside product sustainability. systems, processes and management for greater environmental quality, with clean production processes, resource economy, waste re-duction, treatment and reduction of industrial waste, and gains in competency and productivity are building blocks for sustainability in companies.
Environmental and social sustainability policies and principles adopted in the automo-tive industry are absorbed by all previous supply chains and subsequently by assem-bly lines, aligning raw materials suppliers and intermediaries, as well as logistics and dealers, to operate based on green economy principles, with clear targets and goals.
as for the automotive industry environmental issue, the main indicators concern to the lowering of input consumption per vehicle manufactured. The reduction of greenhouse gases is also a relevant factor. The tripod is complete with indicators of waste and re-cycled waste. The brazilian automotive industry’s efforts towards this direction can be seen in the graphs below.
Chart 17. Brazilian automotive industry – use oF input
Águam³/veículo
Energia (elétrica, GN, GLP, óleo)
kWh/veículo5,50 1.550
4,45
1.450
4,10
1.404
3,92
1.379
2008 20082009 20092010 20102011 2011
Waterm³/vehicle
Energy (electrical, NG, LPG, oil)
kWh/vehicle
5,50 1.550
4,45
1.450
4,10
1.404
3,92
1.379
2008 20082009 20092010 20102011 2011
34 INDUsTRy MEETINg FoR sUsTaINabIlITy
Chart 18. automotive industry – greenhouse gases (ghg) emissionsGreenhouse gases (GHG) emissions
GHGton/vehicle
0,15 0,140,11 0,11
0,180,16 0,15 0,14
0,330,30
0,26 0,25
2008 2009 2010 2011
Direct CO2 Indirect CO2 Total CO2
Emissões de gases de efeito estufa (GEE)
GEEtonelada/veículo
0,15 0,140,11 0,11
0,180,16 0,15 0,14
0,330,30
0,26 0,25
2008 2009 2010 2011
CO2 Direto CO2 Indireto CO2 Total
Chart 19. indústria automoBilístiCa | waste material management
Gerenciamento de resíduosTonelada/veículo
0,40
0,330,31
0,280,270,24
0,260,24
0,130,09
0,05 0,04
2008 2009 2010 2011
Total Reciclados Não reciclados
Waste material managementTon/vehicle
0,40
0,330,31
0,280,270,24
0,260,24
0,130,09
0,05 0,04
2008 2009 2010 2011
Total Recycled Non-recycled
Chart 20. main waste materials in the automotive industry
material general process
Scrap metal Separation, mischaracterization, recycling
Oils and paints Storage, recycling, co-processing
Hazardous residues Storage, co-processing, incineration
Inert residues Recycling, industrial landfill
aUToMoTIVE INDUsTRy aND sUsTaINabIlITy 35
6 FlEET aND sUsTaINabIlITy
Vehicle fleet in brazil is estimated at about 32 million vehicles (2010): 28 million cars and nearly 4 million light commercial vehicles, trucks and buses.
Estimates assign one vehicle for every 6.5 inhabitants in the country, still modest num-bers considering the relationship of one vehicle per capita in the United states, one per 1.8 inhabitants in Europe and one per 4.0 inhabitants in argentina.
Projections indicate that in the medium and long term, the market may add more than 6.3 million vehicles a year, and the stabilization of the brazilian fleet, with approximately 70 million units in a proportion of one vehicle for every three inhabitants, may occur after 2020. Estimates consider population and the automotive market growth, and also the scrapping of vehicles at the end of its life cycle.
In recent years, there has been a renewal of the brazilian fleet and a reduction of its average age. Currently, the brazilian fleet of cars and light commercial vehicles is con-sidered to be an average age of about 8 years.
Fleet renewal and adoption of vehicle maintenance inspection programs nationally, combined with future fleet stability, will compete for environmental quality, of urban mobility and traffic safety improvement, all relevant factors in sustainability.
36 INDUsTRy MEETINg FoR sUsTaINabIlITy
Chart 21. Brazil – vehiCle Fleet | 2010
Brasil - frota de veículos| 2010
Milhões de unidadesAutomóveis
25,5480%
Caminhões
1,775%
Ônibus
0,502%
Total da frota de veículos:
32,50 milhões de unidades
Comerciais leves
4,2613%
Idade média da frota
Automóveis 8 anosComerciais leves 7 anosCaminhões 17 anosÔnibus 9 anos
Fonte: Sindipeças.
million of unitsCars
25.5480%
Trucks
1.775%
Buses
0.502%
Total vehicle
32.50 million units
Light commercial vehicles
4.2613%
Idade média da frota
Cars 8 years
Light commercial vehicles 7 years
Trucks 17 years
Buses 9 yearsSource: Sindipeças.
6.1 Vehicles of the future
Conceptually, vehicles evolve towards innovations and technologies that benefit the environment, urban mobility and traffic safety.
With technology’s dynamic process, these vehicles become sustainable, whether they are cars, trucks or buses. There is a real technological revolution in the worldwide cen-ters for vehicle research and development, increasingly focusing in integrating vehicle safety, environmental quality and urban mobility into the DNa of future vehicles. These are projects that emphasize compact cars, higher efficiency engines, lower consump-tion and lower emissions and alternative fuels to petroleum.
Electronics, computing and connectivity are the most varied forms and will be growing presence in vehicles, driving them and moving them, defining routes and directing op-erations for greater driveability for the driver, saving time and resources, with appropri-ate traffic safety and environmental quality standards. New materials and nanotechnol-ogy make lighter vehicles and also more recyclable at the life cycle end.
Pollutant emissions from vehicles will be increasingly lower and in some cases, prob-ably eliminated or drastically reduced. biofuels, hybrid and electrical vehicles are already realities and are increasingly gaining more space. other vehicular energies, such as hydrogen cell and others not yet thought of, will be tested in new ways to move vehicles in future years. Vehicles tend to become even more global products in their overall design. This means that these new concepts, developed or brought from abroad, will also eventually be incorporated in the country, observing its characteris-tics, particularities and vocations.
37aUToMoTIVE INDUsTRy aND sUsTaINabIlITy
Figure 10. new natural materials
There has been an increase in the use of new, natural
naturais na fabricação dos veículos.
Figure 11. dynamiC evolution oF vehiClesEvolução Dinâmica dos Veículos
A dinâmica tecnológica torna
permanente o avanço
dos veículos, seguindo
padrões de sustentabilidade.
PerformanceDesignDirigibilidadeFuncionalidade
Emissões Reduzidas
SegurançaAcessibilidadeManutençãoReciclabilidade
Technological dynamics makes
the vehicle progress permanent, following
sustainability standards.
PerformanceDesignDriveability
Reduced Emissions
Safety
AccessibilityMaintenanceRecyclability
aUToMoTIVE INDUsTRy aND sUsTaINabIlITy 39
7 MobIlITy aND sUsTaINabIlITy
THE RolE oF THE aUToMoTIVE INDUsTRy oN THE URbaN
MobIlITy IssUE Is aND WIll CoNTINUE To bE RElEVaNT,
WITH aDVaNCED aND aDEQUaTE PRoDUCTs.
The theme of urban mobility in metropolitan areas becomes a constant and increasing presence in the lives of citizens, governments and enterprises, because of their effects on the quality of life of inhabitants, on the environment and even on competitiveness and attractiveness of metropolitan economies.
That is, urban mobility goes beyond everyday problems of traffic jams. It is a social, environmental and economical issue for both the round-trip commute of the citizen, and for the quality of life and the sustainability of metropolitan areas economies.
The role of the automotive industry in this context is and must be relevant. It is respon-sible for the development and manufacturing of vehicles technologically capable of promoting reduction of fuel consumption, lower levels of emissions and noise, en-gines powered by alternative fuels, and vehicles able to run within the required safety standards. and in their field, there must be a relentless pursuit of technology which translates into mobility and environmental sustainability for metropolitan areas, both regardings vehicles for transporting people and for public transportation. In addition to these areas of activity areas, there are compact cars in brazil – a specialty of the local automotive industry – of smaller engine sizes, ranging from 1.0 to 2.0 l, which helps in occupying less space on public roads and in improving environmental quality.
The issue of urban mobility should be seen by considering not just one or the other as-pect by itself, such as the number of vehicles on roads. Urban mobility should be seen from a series of factors: quantity of vehicles, individual transportation, public transpor-tation, residential and population density, road infrastructure, traffic engineering, traffic laws and road safety, and urban planning for large cities. Metropolitan areas growth implies adequate, organized and parallel growth of the surrounding area of residential
40 INDUsTRy MEETINg FoR sUsTaINabIlITy
concentrations, of the road grid and planning of traffic engineering and public transport as an essential condition for urban mobility.
The issue of mobility in metropolitan areas is challenging. alongside specific palliative solutions, structural and long-term public policy solutions should be sought, because only these will be able to make life in metropolitan areas easier in the future. The equa-tion automobile, traffic safety, environment and urban mobility will be built with ad-equate and advanced products by the industry, with legislation and public policy and education and discipline of citizens, pedestrians, drivers and passengers.
aUToMoTIVE INDUsTRy aND sUsTaINabIlITy 41
8 aUToMoTIVE INDUsTRy aND sUsTaINabIlITy | CoNClUsIoNs
Economically and socially, automotive products – here we summarize all these syn-onyms of mobility that are cars, trucks and buses – are much more than means of mobility, transportation or realization of a dream. They are powerful creations, that project backwards and forwards, resulting in a long and complex economic chain, before, during and after its manufacturing.
The automotive industry is an industry with reflexes in major chains such as iron and steel, electronics, computers, fuels and agribusiness, plus a multitude of services. For its extensive reach, the automotive industry is a strong economic chain with mul-tiple effects on the economic and social aspects. Its products, the vehicles, keep generating new revenues and taxes for years, moving new businesses, employment and investment.
In this context, and considering the negative and positive impacts of their activities and products on sustainability, the automotive industry works according to socio-economic and environmental principles that cover a broad range of policies to make production and administration processes leaner and cleaner; to make their products more economical and environmental friendly; and to promote improvements in com-munities and regions where it operates, through investments and social, economic and environmental actions.
42 INDUsTRy MEETINg FoR sUsTaINabIlITy
8.1 Automotive Iindustry | Sustainability principles
• Products
◊ Engine and vehicle performance
◊ atmospheric emissions reduction
◊ Product development with alternative energy
◊ Noise reduction
◊ New technologies and green materials
◊ Recyclability
◊ Nanotechnology and embedded electronics
• Factories
◊ sustainable purchases
◊ Monitoring the supply chain
◊ saving energy and resources
◊ Emissions reduction and industrial wastewater treatment
◊ Waste management, reducing, reusing and recycling
◊ logistics improvement
◊ Employees qualification
◊ adequate working conditions
◊ appreciating people
• offices
◊ saving energy and resources
◊ Functionality
◊ Waste reduction
◊ Materials and supplies reuse
◊ Improved recycling rates
◊ Maximum use of solar energy
43aUToMoTIVE INDUsTRy aND sUsTaINabIlITy
• dealers
◊ Improving the energy efficiency of installations
◊ Resources economy and reduction (water, electricity, air conditioning)
◊ adequate waste and wastewater allocation
• Communities
◊ Investments
◊ Employment and labor
◊ Professional qualification
◊ Income
◊ Quality of life
◊ social inclusion
◊ strengthening communities/regions
• socioenvironmental Actions
◊ Education and awareness
◊ Environmental mitigations and compensations
◊ support and social projects
Cni– nAtionAl ConFederAtion oF industry – brAZil
direCtory oF institutionAl relAtions – dri
Mônica Messenberg GuimarãesDirector of Institutional Relations
environment And sustAinAbility unit – GemAs
Shelley de Souza CarneiroExecutive Manager – Environment and sustainability Unit
Paula Bennati (Environment and sustainability Unit – CNI)Percy Soares Neto (Environment and sustainability Unit – CNI)Marcelo Fernandes (Fundação Dom Cabral)Technical support
Priscila Maria Wanderley Pereira (Environment and sustainability Unit – CNI)Editorial support
CommuniCAtion boArd – dirCom
Carlos Alberto BarreirosDirector of Communication
PubliCity & AdvertisinG eXeCutive mAnAGement – GeXPP
Carla Cristine Gonçalves de SouzaExecutive Manager
Armando UemaEditorial Production
Directory of Institutional Relations – Brazilian Association of Vehicle Manufacturers (ANFAVEA)Development
Aline Santos Jacobstandardization
grifo DesignEditorial Project
Top Related