Evolving Stakeholder Engagement at the Caldas Uranium Mining Site, Minas Gerais, Brazil. Peter Booth (WSP) & Nivaldo Carlos da Silva (CNEN) 13/11/2012

Similar documents
Stakeholder Concerns An International Perspective

Environmental remediation of Brazilian Caldas uranium mining and milling: current status, knowledge gaps, challenges and future needs.

STATUS OF THE IMPLEMENTATION 0F BRAZILIAN NATIONAL REPOSITORY

Management of Uranium Mine Waste Rock and Mill Tailings. Support Document to DIS-10-01

BRAZILIAN EXPERIENCE IN. Dejanira da Costa Lauria Institute of Radiation Protection and Dosimetry Brazilian Nuclear Energy Commission (IRD/CNEN)

Dejanira da Costa Lauria

Networking as a tool to improve education and training in environmental remediation of uranium production sites the role of the ENVIRONET/CONNECT

LEGAL AND REGULATORY FRAMEWORK ON DECOMMISSIONING OF RESEARCH REACTORS NATIONAL REPORT BRAZIL. by Eduardo Figueira da Silva

BRAZILIAN NUCLEAR SECTOR Technical Meeting on Country Nuclear Power Profiles May 2016 IAEA Vienna

Uranium mining legal and regulatory framework

EVALUATION OF ELEVEN YEARS OF AREA MONITORING FOR EXTERNAL DOSE RATE IN A DEPOSIT OF RADIOACTIVE WASTE AT THE ORE TREATMENT UNIT

TRAINING WORKSHOP ON REVIEW OF REMEDIATION PLANS AND ACTIVITIES FOR URANIUM MINING AND MILLING SITES

A PROSPECTIVE RADIOLOGICAL RISK ASSESSMENT FOR A PHOSPHATE INDUSTRY PROJECT. Rócio Glória dos Reis Dejanira da Costa Lauria

Regional Trainning Course In Nuclear Facility Decommissioning and Environmental Remediation Skills

The Brazilian Nuclear Program. Marcos N. Martins Director of Research and Development Brazilian Nuclear Energy Commission

Yeelirrie Uranium Project. Environmental Management

Environmental remediation and radioactivity monitoring of uranium mining legacy in Portugal

Assessing the radiological impact of the Caetité uranium production center (Brazil) on local water resources

The International Forum for Regulatory Supervision of Legacy Sites Hungary

RADIOLOGICAL IMPACT OF THE APPLICATION OF PHOSPHOGYPSUM IN CIVIL CONSTRUCTION: AN OVERVIEW OF BRAZILIAN STUDIES

Pablo Andrade Grossi 1 Nerbe Ruperti 2

The legacy of the Cold War - Cleaning up Abandoned Uranium Mine Sites in North Saskatchewan

MANAGEMENT OF LARGE AMOUNTS OF WASTE ARISING FROM A NUCLEAR/RADIOLOGICAL EMERGENCY AND LEGACY SITES

IMPORTANCE OF PARTICIPATION OF NORM INDUSTRIES IN DEVELOPING NORM STRATEGIES

DECOMMISSIONING STRATEGIES AND PLANS. By: Elna Fourie Necsa South Africa Manager: Decommissioning Services

Uranium mining construction and operation

port and maritime radiological

STUDY OF WASTE ROCK PILES PRODUCING ACID DRAINAGE IN THE BRAZILIAN FIRST URANIUM MINE

Rehabilitation Management

Assuring the human resources for severe accident management and environmental remediation. Ian McKinley & Susie Hardie

address of main author:

Monitoring and Surveillance of Radioactive Waste Disposal Facilities

Social License and Environmental Protection: When Compliance with Regulations is not Enough

M.Sc. Evaldo L. C. Costa

Post Uranium Mining: The activities of the Groupe d Expertise Pluraliste in Limousin (France)

Management of Radioactive Residues & Wastes Generated During Remediation of Uranium Production Legacy Sites in Germany

Regulatory Challenges at Legacy Sites in Kazakhstan

How NORM activities are regulated in France and what are the opportunities of evolution?

Radioprotection and Dosimetry Institute - IRD -

International Conference on the Safety of Radioactive Waste Management. Closure Session. Friday, 25 November Vienna, Austria.

CONCEPT NOTE LARGE VOLUME WASTE

RESEARCH REACTOR DECOMMISSIONING ACTIVITIES BRAZIL

Base Metal and Iron Ore Mining

Report on Defense-Related Legacy Uranium Mines in the United States

Prospective Radiological Environmental Impact Assessment for Facilities and Activities

Moving Forward, Together

Dounreay. A Guide to Closure. Artist s rendition of the IES. Issue 1

International Workshop on Regulatory Control of Nuclear Legacy Sites and Waste Management

Interim Storage, Regulation and Practical Aspects (the case of Portugal)

An overview of the technical and social aspects for siting a new LILW repository in Romania

Annual Forum of the International Decommissioning Network (IDN) Vienna, Austria 5-7 December 2017

Clédola Cássia Oliveira de Tello. Pablo Andrade Grossi

Environmental characterisation and mine water monitoring

NRPA bi-lateral regulatory cooperation. Regulatory challenges for nuclear and uranium legacy experience from Russia, Central Asia and Ukraine

DAM MANAGEMENT AT SOUTH32. GEMCO s residue storage areas are low set, reducing risks around scale or velocity.

Capacity building supporting long-range sustainable nuclear energy system planning

to address the environmental and public health

UK National Nuclear Laboratory Environmental Remediation

ENVIRONMENTAL ASPECTS AND SAFETY CONSIDERATIONS - # AT URANIUM -MANAGEMENT FACILITIES IN ROMANIA

Managing Climate Change

Norwegian Regulatory Cooperation

IAEA Safety Standards

Environmental Protection. Waste Safety Section, Division of Radiation, Transport and Waste Safety Department of Nuclear Safety and Security

Lessons Learned from the On-Site Disposal Facility at Fernald Closure Project

The radiological impact of Uranium Mining activities of AREVA subsidiaries in NIGER

STFC Environmental Policy Statement

Development of a South African Guideline to Assess the Health Risk Associated with Naturally Occurring Radioactive Material in Water Resources

INTEGRATED MINE CLOSURE I

Applicability of EPRI Decommissioning Pre-Planning Manual to International Decommissioning Projects

The Concept of the. International Working Forum on. Regulatory Supervision of Legacy Sites RSLS

EVOLUTION OF RECLAMATION FOR WILDLIFE HABITAT AT SULPHIDE MINES IN BRITISH COLUMBIA, CANADA. Natalie Tashe November 9, 2012

Regulatory Approach on Decommissioning of Nuclear Installations in Argentina. Siraky, G.

Decommissioning in Slovenia

Valencia Uranium Project Public Meetings April 2007

COMMUNICATION ABOUT RADIOACTIVE WASTE MANAGEMENT

ITP: 308 Mine water and mine waste management

INVESTIGATIONS AND RADIOLOGICAL ASSESSMENT OF MINING RESIDUES AND SITES IN GERMANY. E. Ettenhuber Federal Office for Radiation Protection

UNSCEAR 60 years. 27 countries in countries in 1955 ARGENTINA AUSTRALIA BELARUS

Experience from the WISMUT Project with the Management of Large Volumes of Radioactive Residues

Implementation of the Visaginas Nuclear Power Plant Project

Uranium mining licensing A South Australian perspective

Safety principles of radioactive waste management activities and supportive IAEA documents

Human Resources and Staffing Copenhagen May, 2014

Presentation to NAS Workshop Oct 2016 M. Garamszeghy, NWMO, Canada

Application of Ecolego in assessments of risks from contaminated lands. Rodolfo Avila, Facilia

Closeout of uranium mines and mills: A review of current practices

Assessment of exposure to NORM. Rodolfo Avila

INPRO TM Towards Nuclear Energy System Sustainability Waste Management and Environmental Stressors

IAEA International Missions (2013) to Japan on Fukushima-D NPP decommissioning and on off-site remediation

Stakeholders involvement related to the siting of a new LILW repository

Decommissioning Activities at IPEN/CNEN-SP Brazil

Saxon State Agency of Environment, Agriculture and Geology (LfULG) Issues of the department 53 Radiation protection

2 MAIN ISSUES FROM THE PRACTICE OF RE-USE OF WASTE ROCK IN THE PUBLIC DOMAIN

AMS Through the Lens of the Nuclear Regulator A Retrospective and Prospective Look at the Regulatory Applications of AMS

GUIDE TO THE DEVELOPMENT OF A MINING AND RECLAMATION PLAN IN NEW BRUNSWICK

MAINE YANKEE PREFACE LICENSE TERMINATION PLAN REQUIREMENTS - A NON-TECHNICAL SUMMARY

Regulation of Uranium Mines and Mills

SEPA Guidance on Revoking Authorisations and Cancelling Registrations Granted under the Radioactive Substances Act 1993 Part I: Principles and

Remediation of environmental impact of acidic dam of mines through membrane process

WASTE ACCEPTANCE REQUIREMENTS FOR THE KONRAD REPOSITORY

Transcription:

Evolving Stakeholder Engagement at the Caldas Uranium Mining Site, Minas Gerais, Brazil. Peter Booth (WSP) & Nivaldo Carlos da Silva (CNEN) 13/11/2012

Presentation Structure Site Setting and Operations Decommissioning and site remediation Stakeholder Concerns IAEA Technical Cooperation Project Expert Mission Remit Advice provided Issues of interest Current Stakeholder Engagement Future Aspirations Concluding Remarks 2

The Mining Site 3

Site Setting and Operations Caldas site Located in the Federal State of Minas Gerais, Brazil. Situated about 25km from the city of Poços de Caldas. Poços de Caldas has 150,000 inhabitants but a population of around 0.5 million live in an area potentially influenced by the site. Site is owned and operated by INB (a state owned company). Uranium ore mined and milled between 1982 1995. Ore extracted from an open pit. Most of the extracted material (waste rock and overburden material) was disposed of onto two major rock piles. The site is now undergoing a phase of decommissioning and an environmental remediation strategy is being formulated. Uranium mining and milling sites are considered nuclear facilities in Brazil 4

Site Setting and Operations Mine area ~ 2 km 2 Max. depth ~150 m Acid water generation (treatment required) Central element on the closure plan 5 Caldas Pit

Site Setting and Operations Tailing from chemical processing of uranium ores Ra-226 is the most important radionuclide Mass ~2,04 x 10 6 ton Area ~23 hectares 6 Tailing dam

Site Setting and Operations 7 Water Neutralisation Plant

Site Setting and Operations WRP ~ 28,4 x 10 6 m 3 Overburden ~16,6 x 10 6 m 3 Area ~173 hectares Acid water generation Water treatment required 8 Waste Rock Pile 4 - Acid Drainage Collection

Site Setting and Operations 9 Industrial Area

Site Decommissioning and Environmental Remediation 10 Site was opened before the current (more restrictive) Brazilian Environmental Legislation In 2002 the site operator, environmental and nuclear regulators and Caldas City Hall signed an agreement committing to the development of an Environmental Remediation Plan PRAD PRAD was guided by a Reference Term written by the Environmental and Nuclear regulators, that ideally considered unrestricted reuse. It was expected that PRAD would produce specifics solutions, in an integrated approach, for the four main areas: mine pit, waste rock piles, tailing dam and industrial area. As it was an unusual procurement, it took a few years until contracting a consultant company that was technically and financially able to lead that project. The work was conducted from 2009 2012, based on the assumption of a dose public increment of 1 msv/year. It is now being assessed by the environmental and nuclear regulators.

Site Decommissioning and Environmental Remediation 11 PRAD is a conceptual project; the basic and executive projects are yet to be developed. Acid drainage was identified as the most relevant aspect for the mine decommissioning. Alternatives for eliminating or reducing water treatment were the ones considered. The dose scenarios were assessed for the land s future use as a natural park and restricted access area (brown field). Total mine backfilling was identified as the best option taking into consideration dose constraint, geotechnical stability, potential for acid drainage generation and recomposition of the original landscape. Both dry and wet in situ solution met the requirement for dose constraint for the tailings dam remediation. The best approach will be defined upon evaluation of the dam s long term mechanical stability.

Site Decommissioning and Environmental Remediation In respect to the industrial area, deconstruction and debris deposition into the mine pit were defined as the best strategy. The total cost is estimated on U$ 250 million. In order to move the project into the next steps of implementation, gaining the trust and approval of stakeholders is paramount according to PRAD. 12

IAEA Technical Cooperation Project (BRA3013) Expert Mission Mission took place in November 2011 Expert Mission Remit; To introduce the principles of stakeholder engagement. To highlight the benefits and detriments associated with stakeholder engagement. To ask the question what might we want to communicate? To highlight the likely stakeholder issues of interest. To discuss the potential mechanisms for engagement. To explain how stakeholder engagement fits into the decision making process. How to plan a stakeholder engagement programme. To explain the role of the regulator in the engagement process. 13

Further Background and Stakeholder Concerns Historically there had been insufficient liaison between the site operator, the nuclear regulator and the environmental regulator. There had been little engagement with local stakeholders about; The various activities on the site The potential impacts of such activities on human health and the environment. There are a number of potential historical and current environmental impacts to groundwater as a consequence of discharges into on-site streams which then flow off site. Local stakeholders had a number of concerns; A lack of understanding about what occurred on the site. Potential environmental impacts to both surface water and groundwater. How the site may evolve over time. A perceived lack of benefit to the local community as local labour was rarely utilised when work was being carried out. 14

IAEA Technical Cooperation Project Points of interest There was an admission that a lack of engagement between the site operators and the local population had caused some levels of distrust. There was also an admission that there was some slight distrust of the regulators because of their perceived close relationship with the site operators within the structure of the Brazilian nuclear industry. The site operators had some concerns about the ability of individuals to negatively influence an audience at a public meeting. The Environmental regulator explained that although they did not run stakeholder engagement programmes they were regularly asked to do so (not just for the regulation of nuclear and radiological matters but also in support of their wider environmental jurisdiction). There was some concern that stakeholder engagement could cause long delays to projects. 15

IAEA Technical Cooperation Project Key Questions Raised The site operators asked if the lead of a stakeholder engagement programme should be technical, the company CEO or an expert in communications. The environmental regulator asked if they themselves should be constructing and coordinating programmes for nuclear and radiological concerns. The site operators asked if informing local stakeholders could be seen as true stakeholder engagement. The representative from the local council asked if the UK provided good examples of how stakeholder engagement was conducted and if such examples would wok in Brazil. The nuclear regulator asked if stakeholder engagement was equally important during the creation of new mining areas and in relation to radioactive waste disposal. The site operator asked if the release of a technical report on the planned remediation would be useful. 16

Current Stakeholder Engagement Although there was always liaison between the nuclear and environmental regulators, this liaison has now increased and continues to include joint inspections. The two regulatory bodies have agreed to develop a written statement that will enable them to jointly assess and discuss issues on the site. The site operator has started to present the proposed environmental remediation plans to various towns and cities influenced by the Caldas site. A local stakeholder group under the auspices of the Water Commission is now starting to have more regular meetings with the site operators and the nuclear regulator. The Water Commission encompasses several stakeholder groups: local environmental department, nuclear regulator, local councilmen, water protection agency, water supply agency, NGO s and universities. 17

Current Stakeholder Engagement The Water Commission carried out an independent and comprehensive study on water quality. Its report was released to the public, helping to increase public trust on the group. Details on http://www.cnen.gov.br/lapoc 18

Current Stakeholder Engagement As there is no budget guaranteed for the ER project and with INB being a state owned company, the Water Commission can merely act politically in order to help to ensure enough resource for the project. The Water Commission is being considered as a potential site specific advisory board (based on similar lines to those at US DOE remediation sites). Details on http://www.em.doe.gov/pages/ssab.aspx 19

Future Aspirations The development of a broad stakeholder engagement programme based on the Water Commission experience, conducted by the operator. The US DOE EM Site Specific Advisory Board (SSAB) can be used as reference. Sustainable solution can be identified (by SSAB) and implemented, producing better environmental results and preserving the mineral technology developed in this first Brazilian uranium mine. The Water Commission, as a politically strong group, may help to ensure the budget needed for ER implementation. This experience can be shared with others countries with similar culture. 20

Conclusions Little if any stakeholder engagement was being conducted at the Caldas site. Local stakeholders had concerns about the impact of discharges from the site to local surface waters and groundwater. The IAEA mission was aimed at explaining the principles and benefits of stakeholder engagement and how a programme could start to be built up. Subsequent to the IAEA mission there has been an increase in stakeholder engagement by both the nuclear regulator and the site operator. While it is still in its early days, the improved engagement is due to; The encouragement from the nuclear regulator to all parties to engage more. The willingness of the site operator to engage more openly. The enthusiasm of the Water Commission and the Local Council to be interested and involved within the process. The advice and process established could be adopted in other countries. 21

Thanks The presenters would like to thank the following organisations for their cooperation and support with this important work; CNEN (Nuclear Regulator) INB (Site Operator) IBAMA (Environmental Regulator) CMPC (Poços de Caldas City Council) IAEA 22

The Presenters Peter Booth Senior Technical Director WSP Environment and Energy peter.booth@wspgroup.com Nivaldo Carlos da Silva Researcher Laboratório de Poços de Caldas LAPOC Comissão Nacional de Energia Nuclear - CNEN ncsilva@cnen.gov.br 23

24 THANK YOU FOR YOUR ATTENTION

2024 © businessdocbox.com Privacy Policy | Terms of Service | Feedback