The document discusses the transformation of the Ignalina Nuclear Power Plant (INPP) from an operating nuclear power plant to an organization focused on decommissioning. It provides details on the plant's history of safe and successful operation from 1974 to 2009. It then outlines INPP's vision, mission, strategy, and tasks for carrying out decommissioning in a safe, cost-effective manner while applying international best practices and utilizing internal resources and expertise. Key projects and their delays are also summarized.
Pip Squires presentation regarding the delivery of Low Carbon Data Centres, without compromising on sustainability, recently presented at Government ICT Goes Green at the QEII Conference Centre, London
Presentation of Joaquim Seabra
for the "2nd Workshop on the Impact of New Technologies on the Sustainability of the Sugarcane/Bioethanol Production Cycle"
Apresentação de Joaquim Bento Ferreira realizada no "2nd Workshop on the Impact of New Technologies on the Sustainability of the Sugarcane/Bioethanol Production Cycle "
Date / Data : Novr 11th - 12th 2009/
11 e 12 de novembro de 2009
Place / Local: CTBE, Campinas, Brazil
Event Website / Website do evento: http://www.bioetanol.org.br/workshop5
Webinar: The cost effectiveness of natural gas combined cycle power plants wi...Global CCS Institute
This webinar will presented the findings of a study to assess the economic viability of natural gas combined-cycle power plants with CO2 capture and storage (NGCC-CCS) in climate change mitigation strategies, emphasising the use of renewable energy and natural gas for electric power generation. In this study, the cost of NGCC-CCS was compared on a level playing field to those of intermittent renewable energy systems (IRES) and energy storage technologies as a means of reducing power sector greenhouse gas emissions. Specifically, the levelised cost of electricity (LCOE) of NGCC-CCS was compared to that of offshore wind, photovoltaic systems, and concentrated solar power (CSP) together with pumped hydro storage (PHS), compressed air energy storage (CAES), and Li-ion, ZEBRA and Zn-Br battery storage systems. The cost of NGCC-CCS as a backup technology in conjunction with IRES also was assessed.
At this webinar, Machteld van den Broek, senior researcher at the Utrecht University, presented the findings of the study. Her expertise is energy systems modelling and CCS. Among others, she is involved in the CATO-2 programme, the second Dutch national research programme on CCS. During the webinar Niels Berghout, junior researcher at the Utrecht University and co-author of this study, assisted during the Q&A session. Professor Edward Rubin from Carnegie Mellon University also contributed to this study.
Pip Squires presentation regarding the delivery of Low Carbon Data Centres, without compromising on sustainability, recently presented at Government ICT Goes Green at the QEII Conference Centre, London
Presentation of Joaquim Seabra
for the "2nd Workshop on the Impact of New Technologies on the Sustainability of the Sugarcane/Bioethanol Production Cycle"
Apresentação de Joaquim Bento Ferreira realizada no "2nd Workshop on the Impact of New Technologies on the Sustainability of the Sugarcane/Bioethanol Production Cycle "
Date / Data : Novr 11th - 12th 2009/
11 e 12 de novembro de 2009
Place / Local: CTBE, Campinas, Brazil
Event Website / Website do evento: http://www.bioetanol.org.br/workshop5
Webinar: The cost effectiveness of natural gas combined cycle power plants wi...Global CCS Institute
This webinar will presented the findings of a study to assess the economic viability of natural gas combined-cycle power plants with CO2 capture and storage (NGCC-CCS) in climate change mitigation strategies, emphasising the use of renewable energy and natural gas for electric power generation. In this study, the cost of NGCC-CCS was compared on a level playing field to those of intermittent renewable energy systems (IRES) and energy storage technologies as a means of reducing power sector greenhouse gas emissions. Specifically, the levelised cost of electricity (LCOE) of NGCC-CCS was compared to that of offshore wind, photovoltaic systems, and concentrated solar power (CSP) together with pumped hydro storage (PHS), compressed air energy storage (CAES), and Li-ion, ZEBRA and Zn-Br battery storage systems. The cost of NGCC-CCS as a backup technology in conjunction with IRES also was assessed.
At this webinar, Machteld van den Broek, senior researcher at the Utrecht University, presented the findings of the study. Her expertise is energy systems modelling and CCS. Among others, she is involved in the CATO-2 programme, the second Dutch national research programme on CCS. During the webinar Niels Berghout, junior researcher at the Utrecht University and co-author of this study, assisted during the Q&A session. Professor Edward Rubin from Carnegie Mellon University also contributed to this study.
Webinar: The cost effectiveness of natural gas combined cycle power plants wi...Global CCS Institute
This second webinar was held on Friday 25th April, for anyone who wasn't able to join us for the previous webinar held on Thursday 20th March.
This webinar presented the findings of a study to assess the economic viability of natural gas combined-cycle power plants with CO2 capture and storage (NGCC-CCS) in climate change mitigation strategies, emphasising the use of renewable energy and natural gas for electric power generation. In this study, the cost of NGCC-CCS was compared on a level playing field to those of intermittent renewable energy systems (IRES) and energy storage technologies as a means of reducing power sector greenhouse gas emissions. Specifically, the levelised cost of electricity (LCOE) of NGCC-CCS was compared to that of offshore wind, photovoltaic systems, and concentrated solar power (CSP) together with pumped hydro storage (PHS), compressed air energy storage (CAES), and Li-ion, ZEBRA and Zn-Br battery storage systems. The cost of NGCC-CCS as a backup technology in conjunction with IRES also was assessed.
At this webinar, Machteld van den Broek, senior researcher at the Utrecht University, presented the findings of the study. Her expertise is energy systems modelling and CCS. Among others, she is involved in the CATO-2 programme, the second Dutch national research programme on CCS. During the webinar Professor Edward Rubin from Carnegie Mellon University and co-author of this study, will assist during the Q&A session. Niels Berghout, from Utrecht University also contributed to this study.
Lessons Learned on CO2 Storage from the Midwest Regional Carbon Sequestration...Global CCS Institute
Completing field tests that demonstrate that geologic storage of carbon dioxide (CO2) can be conducted safely and commercially is one step towards developing robust strategies for mitigating large point source CO2 emissions.
The Midwest Regional Carbon Sequestration Partnership Program (MRCSP) large volume CO2 injection test is providing data for improving capacity estimates and demonstrating storage capacity within a regionally significant resource. MRCSP is also evaluating CO2 storage potential in Ohio and other areas of the Midwest and the East Coast through regional mapping and exploratory site characterization. Lessons learned from pressure data analysis, modeling, monitoring technologies assessment, accounting, regional mapping and exploration enable technology advancements needed to help carbon capture and storage reach a commercial stage.
This webinar presented an update of the progress made to date and key findings from the MRCSP large volume CO2 injection test and regional exploration work. The topics that were covered include:
Background
- About the MRCSP
- Research objectives
Large Volume CO2 Injection Test, Approaches and Results:
- Description/Overview
- Data Uses
- Pressure Data Analysis and Modelling
- Monitoring Technology Assessment
- Accounting
Regional Mapping and Characterization of Storage Resources
- Known Sources and Sinks
- Studies of Reservoirs and Seals Underway
Carbon capture for coal to chemical industry in North West ChinaGlobal CCS Institute
Commercial coal-to-chemicals processes are being rapidly deployed as a clean coal technology, particularly in China. The process generally has a large carbon foot print. While CCS has been successfully applied to capture and store carbon emissions from coal-fired power stations, it is also one of the only technology options for reducing emissions from industrial coal-to-chemicals processes.
Among others, Yanchang Petroleum Group has developed/planned several coal to chemical projects. Yanchang Petroleum Group is located in Shaanxi Province, in North West China. Yanchang Petroleum owns large reserves of oil, gas, coal and salts. To optimise the utilisation of its resources, Yanchang Petroleum developed technologies to convert coal, natural gas, and residue heavy oil to chemical products at its Jingbian Industry Park, in conjunction with a whole chain CCS project. Yanchang Petroleum will produce four knowledge sharing reports on critical aspects of carbon capture and storage (CCS) based on its practice in CCS.
In this webinar, Yanchang Petroleum reported on the capture aspects of the project, covering:
- Background of the project
- Technical details of capture process
- Project timeline
- Commercial drivers
- Lessons learned
Progetti Europei Horizon 2020 legati alle tecnologie CCU - Alessandra Monero ...Sardegna Ricerche
L'intervento di Alessandra Monero (RINA Consulting) in occasione dell'evento "La cattura dell’anidride carbonica ed il suo utilizzo: tecnologie ed economia per una transizione energetica sostenibile" che si è tenuto a Cagliari il 15 aprile 2019.
Ciaran Callan, Maintenance & Services Manager of Dublin Port Company, presents the energy measures taken at the Dublin Port Centre during Codema's Information Seminar on Energy Performance Contracting (EPC) on 13 October 2015 at The Morgan Hotel in Dublin.
Cutting Cost of CO2 Capture in Process Industry (CO2stCap) Project overview &...Global CCS Institute
The CO2StCap project is a four year initiative carried out by industry and academic partners with the aim of reducing capture costs from CO2 intensive industries (more info here). The project, led by Tel-Tek, is based on the idea that cost reduction is possible by capturing only a share of the CO2emissions from a given facility, instead of striving for maximized capture rates. This can be done in multiple ways, for instance by capturing only from the largest CO2 sources at individual multi-stack sites utilising cheap waste heat or adapting the capture volumes to seasonal changes in operations.
The main focus of this research is to perform techno-economic analyses for multiple partial CO2 capture concepts in order to identify economic optimums between cost and volumes captured. In total for four different case studies are developed for cement, iron & steel, pulp & paper and ferroalloys industries.
The first part of the webinar gave an overview of the project with insights into the cost estimation method used. The second part presented the iron & steel industry case study based on the Lulea site in Sweden, for which waste-heat mapping methodology has been used to assess the potential for partial capture via MEA-absorption. Capture costs for different CO2 sources were compared and discussed, demonstrating the viability of partial capture in an integrated steelworks.
Webinar presenters included Ragnhild Skagestad, senior researcher at Tel-Tek; Maximilian Biermann, PhD student at Division of Energy Technology, Chalmers University of Technology and Maria Sundqvist, research engineer at the department of process integration at Swerea MEFOS.
Cost development of renewable energy technologiesLeonardo ENERGY
This course covers the cost development of renewable energy technologies, which includes the analysis of technological change, in particular with regard to technological learning, the assessment of learning rates of renewable energy technologies available in literature and forecasting studies. For many (energy) technologies, a log-linear relation was found between the accumulated experience and the technical (e.g. efficiency) and economic performance (e.g. investment costs). The rate at which cost decline for each doubling of cumulative production is expressed by the progress ratio (PR). A progress ratio of 90% results in a learning Rate (LR) of 10% and similar cost reduction per doubling of cumulative production (IEA 2000; Junginger, Sark et al. 2010). Learning curves for the renewable energy technologies as well as levelised cost of electricity will be presented. The latter also include the impact of resource conditions (e.g. wind and solar yield) at different locations as well as operation and maintenance costs and fuel expenditures in the case of biomass technologies.
The Asia CCUS Network has been successfully launched on 22-23 June 2021 with initially 13 countries (all ASEAN member countries, the United States, Australia, and Japan) and more than 100 international organisations, companies, financial and research institutions that share the vision of CCUS development throughout the Asian region.
The Network members have expressed their intention to participate to share the vision of the Asia CCUS Network that aims to contribute to the decarbonisation of emissions in Asia through collaboration and cooperation on development and deployment of CCUS.
The Asia CCUS Network provides opportunities for countries in the region to work and collaborate on the low emission technology partnership that will eventually help to build countries’ capability to lower the cost of CCUS technology and its deployment through the collaboration of research and innovation.
At the 2nd Asia CCUS Network (ACN) Knowledge Sharing Conference, the Asia CCUS Network is very pleased to invite experts from the Department of Energy, United States of America (USDOE) to share their insights and experiences about CCUS development and policy to support the deployment of CCUS technology.
The ACN will be an active forum to bridge the knowledge gap on CCUS technologies, policy development to support the development and deployment of CCUS in Asia. Thus, this conference hosted in collaboration with IEA will help to bring in update knowledge, opportunity for investment in CCUS in Asia.
Yanchang Petroleum CCS Project - Enhanced oil recovery using CO2 in North Wes...Global CCS Institute
The Global CCS Institute has recently published a report on the Yanchang Petroleum Group’s CCUS Project in the Shaanxi Province in China. This report focusing on the utilisation and storage of the CCUS Project is the topic of this webinar. It is the second report and webinar in a series on the Yanchang CCUS Project; the first detailed the capture technology.
Yanchang Petroleum Group is planning a carbon capture, utilisation and storage (CCUS) project in China. Yanchang are currently operating several coal to chemicals (CTC) projects in Shaanxi Province in North West China, which inherently have high CO2 emissions. Those projects will enable enhanced oil recovery (EOR) using the CO2 in a series of mature oil fields in the Ordos Basin. The benefits of this CCUS Project is twofold enabling the reduction in CO2 emissions whilst increasing oil production in an arid environment.
In this webinar, Dr Gao Ruimin of the Research Institute of Shaanxi Yanchang Petroleum Group provided a project update and discuss the local geology, as well as the technical aspects of utilisation and storage of the Project, covering:
- Background of the project and project update
- Ordos Basin geology
- Technical details of CO2-EOR operation
- Commercial drivers
- Project timeline
Webinar: The cost effectiveness of natural gas combined cycle power plants wi...Global CCS Institute
This second webinar was held on Friday 25th April, for anyone who wasn't able to join us for the previous webinar held on Thursday 20th March.
This webinar presented the findings of a study to assess the economic viability of natural gas combined-cycle power plants with CO2 capture and storage (NGCC-CCS) in climate change mitigation strategies, emphasising the use of renewable energy and natural gas for electric power generation. In this study, the cost of NGCC-CCS was compared on a level playing field to those of intermittent renewable energy systems (IRES) and energy storage technologies as a means of reducing power sector greenhouse gas emissions. Specifically, the levelised cost of electricity (LCOE) of NGCC-CCS was compared to that of offshore wind, photovoltaic systems, and concentrated solar power (CSP) together with pumped hydro storage (PHS), compressed air energy storage (CAES), and Li-ion, ZEBRA and Zn-Br battery storage systems. The cost of NGCC-CCS as a backup technology in conjunction with IRES also was assessed.
At this webinar, Machteld van den Broek, senior researcher at the Utrecht University, presented the findings of the study. Her expertise is energy systems modelling and CCS. Among others, she is involved in the CATO-2 programme, the second Dutch national research programme on CCS. During the webinar Professor Edward Rubin from Carnegie Mellon University and co-author of this study, will assist during the Q&A session. Niels Berghout, from Utrecht University also contributed to this study.
Lessons Learned on CO2 Storage from the Midwest Regional Carbon Sequestration...Global CCS Institute
Completing field tests that demonstrate that geologic storage of carbon dioxide (CO2) can be conducted safely and commercially is one step towards developing robust strategies for mitigating large point source CO2 emissions.
The Midwest Regional Carbon Sequestration Partnership Program (MRCSP) large volume CO2 injection test is providing data for improving capacity estimates and demonstrating storage capacity within a regionally significant resource. MRCSP is also evaluating CO2 storage potential in Ohio and other areas of the Midwest and the East Coast through regional mapping and exploratory site characterization. Lessons learned from pressure data analysis, modeling, monitoring technologies assessment, accounting, regional mapping and exploration enable technology advancements needed to help carbon capture and storage reach a commercial stage.
This webinar presented an update of the progress made to date and key findings from the MRCSP large volume CO2 injection test and regional exploration work. The topics that were covered include:
Background
- About the MRCSP
- Research objectives
Large Volume CO2 Injection Test, Approaches and Results:
- Description/Overview
- Data Uses
- Pressure Data Analysis and Modelling
- Monitoring Technology Assessment
- Accounting
Regional Mapping and Characterization of Storage Resources
- Known Sources and Sinks
- Studies of Reservoirs and Seals Underway
Carbon capture for coal to chemical industry in North West ChinaGlobal CCS Institute
Commercial coal-to-chemicals processes are being rapidly deployed as a clean coal technology, particularly in China. The process generally has a large carbon foot print. While CCS has been successfully applied to capture and store carbon emissions from coal-fired power stations, it is also one of the only technology options for reducing emissions from industrial coal-to-chemicals processes.
Among others, Yanchang Petroleum Group has developed/planned several coal to chemical projects. Yanchang Petroleum Group is located in Shaanxi Province, in North West China. Yanchang Petroleum owns large reserves of oil, gas, coal and salts. To optimise the utilisation of its resources, Yanchang Petroleum developed technologies to convert coal, natural gas, and residue heavy oil to chemical products at its Jingbian Industry Park, in conjunction with a whole chain CCS project. Yanchang Petroleum will produce four knowledge sharing reports on critical aspects of carbon capture and storage (CCS) based on its practice in CCS.
In this webinar, Yanchang Petroleum reported on the capture aspects of the project, covering:
- Background of the project
- Technical details of capture process
- Project timeline
- Commercial drivers
- Lessons learned
Progetti Europei Horizon 2020 legati alle tecnologie CCU - Alessandra Monero ...Sardegna Ricerche
L'intervento di Alessandra Monero (RINA Consulting) in occasione dell'evento "La cattura dell’anidride carbonica ed il suo utilizzo: tecnologie ed economia per una transizione energetica sostenibile" che si è tenuto a Cagliari il 15 aprile 2019.
Ciaran Callan, Maintenance & Services Manager of Dublin Port Company, presents the energy measures taken at the Dublin Port Centre during Codema's Information Seminar on Energy Performance Contracting (EPC) on 13 October 2015 at The Morgan Hotel in Dublin.
Cutting Cost of CO2 Capture in Process Industry (CO2stCap) Project overview &...Global CCS Institute
The CO2StCap project is a four year initiative carried out by industry and academic partners with the aim of reducing capture costs from CO2 intensive industries (more info here). The project, led by Tel-Tek, is based on the idea that cost reduction is possible by capturing only a share of the CO2emissions from a given facility, instead of striving for maximized capture rates. This can be done in multiple ways, for instance by capturing only from the largest CO2 sources at individual multi-stack sites utilising cheap waste heat or adapting the capture volumes to seasonal changes in operations.
The main focus of this research is to perform techno-economic analyses for multiple partial CO2 capture concepts in order to identify economic optimums between cost and volumes captured. In total for four different case studies are developed for cement, iron & steel, pulp & paper and ferroalloys industries.
The first part of the webinar gave an overview of the project with insights into the cost estimation method used. The second part presented the iron & steel industry case study based on the Lulea site in Sweden, for which waste-heat mapping methodology has been used to assess the potential for partial capture via MEA-absorption. Capture costs for different CO2 sources were compared and discussed, demonstrating the viability of partial capture in an integrated steelworks.
Webinar presenters included Ragnhild Skagestad, senior researcher at Tel-Tek; Maximilian Biermann, PhD student at Division of Energy Technology, Chalmers University of Technology and Maria Sundqvist, research engineer at the department of process integration at Swerea MEFOS.
Cost development of renewable energy technologiesLeonardo ENERGY
This course covers the cost development of renewable energy technologies, which includes the analysis of technological change, in particular with regard to technological learning, the assessment of learning rates of renewable energy technologies available in literature and forecasting studies. For many (energy) technologies, a log-linear relation was found between the accumulated experience and the technical (e.g. efficiency) and economic performance (e.g. investment costs). The rate at which cost decline for each doubling of cumulative production is expressed by the progress ratio (PR). A progress ratio of 90% results in a learning Rate (LR) of 10% and similar cost reduction per doubling of cumulative production (IEA 2000; Junginger, Sark et al. 2010). Learning curves for the renewable energy technologies as well as levelised cost of electricity will be presented. The latter also include the impact of resource conditions (e.g. wind and solar yield) at different locations as well as operation and maintenance costs and fuel expenditures in the case of biomass technologies.
The Asia CCUS Network has been successfully launched on 22-23 June 2021 with initially 13 countries (all ASEAN member countries, the United States, Australia, and Japan) and more than 100 international organisations, companies, financial and research institutions that share the vision of CCUS development throughout the Asian region.
The Network members have expressed their intention to participate to share the vision of the Asia CCUS Network that aims to contribute to the decarbonisation of emissions in Asia through collaboration and cooperation on development and deployment of CCUS.
The Asia CCUS Network provides opportunities for countries in the region to work and collaborate on the low emission technology partnership that will eventually help to build countries’ capability to lower the cost of CCUS technology and its deployment through the collaboration of research and innovation.
At the 2nd Asia CCUS Network (ACN) Knowledge Sharing Conference, the Asia CCUS Network is very pleased to invite experts from the Department of Energy, United States of America (USDOE) to share their insights and experiences about CCUS development and policy to support the deployment of CCUS technology.
The ACN will be an active forum to bridge the knowledge gap on CCUS technologies, policy development to support the development and deployment of CCUS in Asia. Thus, this conference hosted in collaboration with IEA will help to bring in update knowledge, opportunity for investment in CCUS in Asia.
Yanchang Petroleum CCS Project - Enhanced oil recovery using CO2 in North Wes...Global CCS Institute
The Global CCS Institute has recently published a report on the Yanchang Petroleum Group’s CCUS Project in the Shaanxi Province in China. This report focusing on the utilisation and storage of the CCUS Project is the topic of this webinar. It is the second report and webinar in a series on the Yanchang CCUS Project; the first detailed the capture technology.
Yanchang Petroleum Group is planning a carbon capture, utilisation and storage (CCUS) project in China. Yanchang are currently operating several coal to chemicals (CTC) projects in Shaanxi Province in North West China, which inherently have high CO2 emissions. Those projects will enable enhanced oil recovery (EOR) using the CO2 in a series of mature oil fields in the Ordos Basin. The benefits of this CCUS Project is twofold enabling the reduction in CO2 emissions whilst increasing oil production in an arid environment.
In this webinar, Dr Gao Ruimin of the Research Institute of Shaanxi Yanchang Petroleum Group provided a project update and discuss the local geology, as well as the technical aspects of utilisation and storage of the Project, covering:
- Background of the project and project update
- Ordos Basin geology
- Technical details of CO2-EOR operation
- Commercial drivers
- Project timeline
The energy model on which the majority of cities in developed countries are based upon is characterized by centralization and unsustainability. Barcelona, being a Mediterranean city, faces the challenge to increase its solar energy supply, moving towards a more sustainable energy model, while strengthening the network's business sector.
ASCAME is committed to this initiative, in the framework of the European project FOSTEr in MED gathering together in the auditorium of the Chamber of Commerce, Industry and Navigation of Barcelona, several experts in the field of renewable energy, as well as companies, public authorities, universities and organizations that will analyse the state of sector, its’ trends and the business development scenario emerged.
This ppt is my introduction,SWOT & my exp on various Projects we accomplished together as a team. Also challenges we faced and overcome during projects execution. I have captured two case studies that represent how Leadership was exercised in different business case scenarios. Case1 is about the "Transforming Organization’s Strategic Site to Project Management culture" and the initiatives exercised. case2 is about "Project Management during divestment of Organization’s non-Strategic Site".
Bunaken Island | Nov-15 | Bitung low carbon model townSmart Villages
By Ratna Nawang Sari
Off-grid electrification for development of small islands represents a number of unique challenges under the broad category of rural electrification. Small, off-grid island communities are particularly vulnerable to diesel price fluctuations and natural disasters, and thus, enhancing resilience through more sustainable and cheaper energy technologies should be a key priority. Financing the transition to these technologies – usually photovoltaic, micro-hydro or sometimes wind – is an essential hurdle to overcome. Once electricity systems are in place it is equally important that they are sustained in the longer term with effective arrangements for operation and maintenance, cost recovery etc. Related to this, is the productive use of the energy provided to increase islander incomes.
The workshop on Bunaken Island, Sulawesi, Indonesia from 3 to 5 November 2015, organised by the Smart Villages Initiative in collaboration with Kopernik, will explore these issues and develop recommendations for policy makers, development agencies and other stakeholders in energy provision to island communities.
More info: http://e4sv.org/events/off-grid-islands-electricity-workshop/
Ignalina Nuclear Power Plant Presentation to the Assembly of Contributors
1. Transformation of INPP for decommissioning and Current Status of IIDSF Projects Osvaldas Čiukšys General Director Ignalina Nuclear Power Plant
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3. Successful operation of INPP: accumulated expertise and know-how of RBMK technology – key prequalification for successful RBMK type plant decommissioning - 1974 Preparations started for construction of INPP - 1983 Unit 1, 1987 Unit 2 commissioned - It took 11 years to build the worlds most powerful nuclear plant - Originally 4 RBMK-1500 reactors planned - ~ 6000 staff employed (1989) - In 2 7 years 308 bln k Wh of electricity - INPP specialists were the first to start using the enriched fuel with burnable absorber – erbium - Unique project of Unit 1 nuclear fuel reuse in Unit 2 reactor implemented 1st time in operation history of nuclear reactors - Other unique technology improvements & modifications
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5. Vision INPP - the company , safely and efficiently terminating its operation as a nuclear power facility, gaining and sharing its experience in decommissioning as well as turning its activities and ( infra ) structure to commercially effective and business oriented opportunities.
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10. ? Main periods for the whole decommissioning planning Revision of FDP / other key documents and amendments of legislation
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24. Thank you / A č i ū Ignalina International Decommissioning Support Fund Republic of Lithuania
Editor's Notes
The first part of the presentation is essentially that given at the NDAP in Luxembourg. If there has been progress on the topics mentioned in the first part, it would be good to include it. The second part of the presentation focuses specifically on the IIDSF projects. It is presented in the order proposed: B1 B2/3/4 B9 series B9-4 Tools (B14/15)
Unchanged
The data here refers only to the contract and does not mention that the contract was substantially over the original budget. Likewise it refers only to delays in the contract schedule rather than the originally planned project schedule. Does INPP have any idea what the scale of future claims under B1 may be?
The first part of the presentation is essentially that given at the NDAP in Luxembourg. If there has been progress on the topics mentioned in the first part, it would be good to include it. The second part of the presentation focuses specifically on the IIDSF projects. It is presented in the order proposed: B1 B2/3/4 B9 series B9-4 Tools (B14/15)
As with B1, would you wish to include the forecast budget for this facility? And the original planned implementation dates?