Mining activities emit particulate matter (PM), sulfur oxides (SOx), and nitrogen oxides (NOx), affecting air quality and the ecosystems surrounding our operations. These air pollutants are released from the stacks of pelletizing,briquetting plants and base metals, as well as fuel combustion in equipment.

Aware of the negative impacts of our business, Vale has made public commitments to minimize them by adopting more efficient and sustainable processes and new control technologies. We aim to go beyond the obligations set forth in legislation, in line with our global strategy of leading the transition to low-carbon mining. We pay special attention to reducing the impacts caused by atmospheric emissions on communities surrounding our operations.

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Performance Indicators

SOx Emissions (thousand metric tons)

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NOx Emissions (thousand metric tons)

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Particulate Emissions (thousand metric tons)

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Performance Progress

The observed reductions in atmospheric emissions from 2023 to 2024 are directly related to the divestment of the PTVI unit in Indonesia.

Operational efficiency regarding particulate matter emissions has remained stable. Investments in existing control improvements are planned for the Tubarão pelletizing plants in the coming years, and emissions are expected to decrease in spite of the increase in production.

For SOx, a reduction is expected for the pelletizing business due to the energy transition at the São Luis plant and the gradual replacement of S500 diesel with S10 diesel in Brazil.

It is important to note that that the particulate matter results consider measurements from stationary sources (stacks) in the operations. For technical monitoring and measurement reasons, diffuse emissions or air quality results are not considered. SOx and NOx results consider measurements from stationary sources and calculations based on fuel consumption across all Vale businesses.

Imagem placeholder Imagem placeholder São Luis Pelletizing Plant, Maranhão Photo: Marcelo Rosa
Onda

These are our goals until 2030, compared to the 2018 baseline:

•    Reduce particulate matter (PM) emissions by 16%;
•    Reduce nitrogen oxide (NOx) emissions by 10%; and
•    Reduce sulfur oxide (SOx) emissions by 16%.

Vargem Grande Complex, Minas Gerais Photo: Marcelo Rosa

2030 targets (thousands of metric tons)

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Note: Emissions results from the Fertilizers, New Caledonia, Manganese, Factory Pelletizing, Coal, and PTVI units were removed from the target baseline due to divestment and operational shutdowns. In 2024, emissions related to leasing vessels, under our operational control, were incorporated from the 2018 baseline onwards.

The goals are absolute, and although the 2024 results are below the target, emissions are projected to rise in the coming years due to the increase in production. Initiatives to reduce emissions in the coming years include:

(i) synergy of the PM, NOx, and SOx reduction projects with strategic low-carbon planning;
(ii) fostering the development of specific technologies that contribute to reducing these emissions;
(iii) use of biofuels; and
(iv) increasing operational efficiency.

See the complete performance indicators in the ESG Databook

Our Management

To ensure the responsible management of atmospheric emissions, our management is based on our VPS management model and the UN Sustainable Development Goals 9 and 12.

To this purpose, four strategic pillars of action were established:

1.

Atmospheric Emissions Governance

2.

Atmospheric Emissions Monitoring

3.

Atmospheric Emissions Control

4.

Risk and Impact Management

In addition to these pillars, Vale’s principles include adopting a mitigation hierarchy to predict and avoid impacts resulting from changes in air quality or, when avoidance is not possible, minimize them; and, in cases where residual impacts remain, offset/neutralize the risks and impacts for workers, affected communities, and the environment.

We seek to reduce our emissions through a series of measures, such as improving control systems, testing dust suppression products, and improving management processes, among others. The equipment used to monitor emissions and air quality allows for rapid action in the event of deviations.

Types of Atmospheric Emission Sources

• Stationary: these come from stationary sources that are easily identifiable and controllable, such as industrial chimneys and production facilities.

• Mobile: these come from mobile sources, such as motor vehicles and vessels. They are released during the operation of internal combustion engines.

• Point: these occur locally and are concentrated in a single location, such as an industrial exhaust fan.

• Diffuse (non-point):  these come from multiple, dispersed, and less easily identifiable sources, such as the evaporation of chemical solvents.
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Vale's Archive
Vale’s emissions are calculated using four technical methods:

• Continuous monitoring: consists of the almost instantaneous analysis of the qualitative and quantitative characteristics of the gaseous effluent, using devices installed on the side of the chimneys.

• Discontinuous monitoring: also called isokinetic sampling, is performed by extracting a sample of the gaseous effluent, followed by laboratory analysis.

• Fuel emission factor and sulfur content: calculation of emissions based on equipment characteristics and fuel content, using technical references and scientific literature.

• Mass balance: quantifies the input, output, accumulation, generation, or destruction of the analyzed substance, using the difference in emissions to the environment as the basis for calculation.

Moreover, to meet environmental requirements, we also maintain and operate air quality monitoring networks in some operations and nearby communities. These initiatives support the adoption of control systems, monitoring, and emissions management plans.

Emissions reduction initiatives

See other projects Vale has developed to reduce atmospheric emissions in its operations:
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Vale's Archive

Sustainable Dust Suppressor

Une erreur inattendue s'est produite

Research project with Federal University of Pará tests different types of dust suppressants for tailings piles

This research project, developed through a partnership between the Federal University of Pará and Vale, aims to define the most effective controls for application at Vale. Tests were conducted to evaluate the performance of different dust suppressants used by Vale. The procedure consisted of preparing and compacting samples, applying different suppressants according to the established dosage and placing the materials in a wind tunnel for testing. During the trial variables related to particle emissions were monitored. The results obtained to date demonstrate the effectiveness of the suppressants used by Vale, in particular a sustainable dust suppressant made from polyethylene terephthalate (PET) packaging, which was developed in partnership with the Federal University of Espírito Santo.
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Foto: Walfried Amaral Weissmann
Mina Brucutu, Barão de Cocais, Minas Gerai

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