Current CCS Activities in Japan are outlined as follows:
1. Several large power companies and research institutes are conducting CCS pilot projects using various capture technologies including post-combustion, pre-combustion, and oxy-fuel combustion.
2. Japan CCS Co. Ltd. is surveying candidate sites for large-scale CCS demonstration projects including at Tomakomai and Nakoso-Iwaki oki.
3. Engineering companies like Nippon Steel and Chiyoda are participating in international CCS demonstration projects like the ECOPRO project in Australia to test coal gasification and CO2 storage technologies.
A Review on the State of the Energy Sector of Turkey from the Persective of O...SSA KPI
AACIMP 2010 Summer School lecture by Gerhard Wilhelm Weber. "Applied Mathematics" stream. "Modern Operational Research and Its Mathematical Methods with a Focus on Financial Mathematics" course. Part 9.
More info at http://summerschool.ssa.org.ua
Renewable energy models for rice residues - SNV VietnamTuong Do
Renewable energy models for rice residues - Potentials for Green Growth and Experience through SSC project by SNV
Presented at the Forum
Green growth in Agriculture:
Potentials, Experience and Recommendations
Hanoi, 31st October 2014
Jurnal Internasional – Dampak Energi Terbarukan Terhadap Ketenagakerjaan di I...Dani Gunawan
Sebuah permintaan global untuk energi telah memaksa banyak negara untuk mencari energi alternatif dan terbarukan . Efek diantisipasi pengembangan terbarukan adalah peningkatan lapangan kerja sebagai bagian dari penciptaan lapangan pekerjaan hijau baru , manfaat besar bagi Indonesia untuk mengatasi tingkat pengangguran yang tinggi . Makalah ini menjelaskan dampak pengembangan energi terbarukan pada penciptaan lapangan kerja di Indonesia .
A Review on the State of the Energy Sector of Turkey from the Persective of O...SSA KPI
AACIMP 2010 Summer School lecture by Gerhard Wilhelm Weber. "Applied Mathematics" stream. "Modern Operational Research and Its Mathematical Methods with a Focus on Financial Mathematics" course. Part 9.
More info at http://summerschool.ssa.org.ua
Renewable energy models for rice residues - SNV VietnamTuong Do
Renewable energy models for rice residues - Potentials for Green Growth and Experience through SSC project by SNV
Presented at the Forum
Green growth in Agriculture:
Potentials, Experience and Recommendations
Hanoi, 31st October 2014
Jurnal Internasional – Dampak Energi Terbarukan Terhadap Ketenagakerjaan di I...Dani Gunawan
Sebuah permintaan global untuk energi telah memaksa banyak negara untuk mencari energi alternatif dan terbarukan . Efek diantisipasi pengembangan terbarukan adalah peningkatan lapangan kerja sebagai bagian dari penciptaan lapangan pekerjaan hijau baru , manfaat besar bagi Indonesia untuk mengatasi tingkat pengangguran yang tinggi . Makalah ini menjelaskan dampak pengembangan energi terbarukan pada penciptaan lapangan kerja di Indonesia .
22PESGM3738 Policy Support in Power Sector - Added Role of Renewable Energy.pptxSUBRATAMUKHOPADHYAY9
This article details about the policy support requirement in aid of Renewable Energy Development for more utilization to bring down the cost and eventually lead the transition to replace Conventional Sources supplying electricity.
Presentation by Dr. Chris Skinner, Director Product Platforms, Owens Corning, at CAMX on October 16, 2014.
Future market options for alternative energy – wind, geothermal, solar, ocean/tidal, flywheel technology, battery technology, and biofuels – are a growing area of interest for composites and advanced materials businesses. Knowing how to determine which source provides the most promise for composites applications, navigating the regulatory issues, and determining what design, materials, and manufacturing issues should be kept top of mind are discussed during this session.
Powering the Future: Innovations and Challenges in the Fuel Industryarbazkh8596
The fuel industry is at a pivotal moment in history, facing unprecedented challenges and opportunities. With global energy demands rising, the industry must navigate the complexities of traditional fuel sources, while simultaneously embracing innovative technologies and sustainable practices.
TOO4TO Module 4 / Sustainable Energy Solutions: Part 2TOO4TO
This presentation is part of the Sustainable Management: Tools for Tomorrow (TOO4TO) learning materials. It covers the following topic: Sustainable Energy Solutions (Module 4). The material consists of 3 parts. This presentation covers Part 2.
You can find all TOO4TO Modules and their presentations here: https://too4to.eu/e-learning-course/
TOO4TO was a 35-month EU-funded Erasmus+ project, running until August 2023 in co-operation with European strategic partner institutions of the Gdańsk University of Technology (Poland), the Kaunas University of Technology (Lithuania), Turku University of Applied Sciences (Finland) and Global Impact Grid (Germany).
TOO4TO aims to increase the skills, competencies and awareness of future managers and employees with available tools and methods that can provide sustainable management and, as a result, support sustainable development in the EU and beyond.
Read more about the project here: https://too4to.eu/
This project has been funded with support from the European Commission. Its whole content reflects the views only of the author, and the Commission cannot be held responsible for any use which may be made of the information contained therein. PROJECT NUMBER 2020-1-PL01-KA203-082076
Sustainable energy in India: A Paradigm ShiftAdarsh Tripathi
This presentation briefly introduces with the current scenario of Sustainable & Renewable Energy in India. It also includes various government policies & various case studies from the very remote villages & locations of India.
Presentation of Semida Silveira for the "2nd Workshop on the Impact of New Technologies on the Sustainability of the Sugarcane/Bioethanol Production Cycle"
Apresentação de Semida Silveira 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
Energy and the Sustainable Development AgendaGlobal Utmaning
A presentation held by mr Måns Nilsson, head of research at Stockholm Environment Institute at the Post Rio+20 seminar at Rosenbad on September 3, 2012.
Northern Lights: A European CO2 transport and storage project Global CCS Institute
The Global CCS Institute hosted the final webinar of its "Telling the Norwegian CCS Story" series which presented Northern Lights. This project is part of the Norwegian full-scale CCS project which will include the capture of CO2 at two industrial facilities (cement and waste-to-energy plants), transport and permanent storage of CO2 in a geological reservoir on the Norwegian Continental Shelf.
Northern Lights aims to establish an open access CO2 transport and storage service for Europe. It is the first integrated commercial project of its kind able to receive CO2 from a variety of industrial sources. The project is led by Equinor with two partners Shell and Total. Northern Lights aims to drive the development of CCS in Europe and globally.
Webinar: Policy priorities to incentivise large scale deployment of CCSGlobal CCS Institute
The Global CCS Institute released a new report highlighting strategic policy priorities for the large-scale deployment of carbon capture and storage (CCS). The Institute’s report also reviews the progress achieved until now with existing policies and the reasons behind positive investment decisions for the current 23 large-scale CCS projects in operation and construction globally.
Telling the Norwegian CCS Story | PART II: CCS: the path to a sustainable and...Global CCS Institute
The Global CCS Institute in collaboration with Gassnova hosted the second webinar of its "Telling the Norwegian CCS Story" series.
The second webinar presented Norcem's CCS project at their cement production facility in Brevik, in the South-Eastern part of Norway.
Telling the Norwegian CCS Story | PART I: CCS: the path to sustainable and em...Global CCS Institute
In 2018, the Norwegian government announced its decision to continue the planning of a demonstration project for CO2 capture, transport and storage. This webinar focuses on the Fortum Oslo Varme CCS project. This is one of the two industrial CO2 sources in the Norwegian full-scale project.
At their waste-to-energy plant at Klemetsrud in Oslo, Fortum Oslo Varme produces electricity and district heating for the Oslo region by incinerating waste. Its waste-to-energy plant is one of the largest land-based sources of CO2 emissions in Norway, counting for about 20 % of the city of Oslo’s total emissions. The CCS project in Oslo is an important step towards a sustainable waste system and the creation of a circular economy. It will be the first energy recovery installation for waste disposal treatment with full-scale CCS.
Fortum Oslo Varme has understood the enormous potential for the development of a CCS industry in the waste-to-energy industry. The company is working to capture 90 % of its CO2 emissions, the equivalent of 400 000 tons of CO2 per year. This project will open new opportunities to reduce emissions from the waste sector in Norway and globally. Carbon capture from waste incineration can remove over 90 million tons of CO2 per year from existing plants in Europe. There is high global transfer value and high interest in the industry for the project in Oslo.
The waste treated consists of almost 60 % biological carbon. Carbon capture at waste-to-energy plants will therefore be so-called BIO-CCS (i.e. CCS from the incineration of organic waste, thereby removing the CO2 from the natural cycle).
Find out more about the project by listening to our webinar.
Decarbonizing Industry Using Carbon Capture: Norway Full Chain CCSGlobal CCS Institute
Industrial sectors such as steel, cement, iron, and chemicals production are responsible for over 20 percent of global carbon dioxide (CO2) emissions. To be on track to meet greenhouse gas emissions reduction targets established as part of the Paris Climate Accord, all sectors must find solutions to rapidly decarbonize, and carbon capture and storage (CCS) technology is the only path for energy-intensive industries.
This webinar will explore how one country, Norway, is working to realize a large-scale Full Chain CCS project, where it is planning to apply carbon capture technology to several industrial facilities. This unique project explores capturing CO2 from three different industrial facilities - an ammonia production plant, a waste-to-energy plant, and a cement production facility. Captured CO2 will be then transported by ship to a permanent off-shore storage site operated as part of a collaboration between Statoil, Total, and Shell. When operational, Norway Full Chain CCS will capture and permanently store up to 1.5 million tons of CO2 per year.
During this webinar, Michael Carpenter, Senior Adviser at Gassnova, will provide an overview of the Norway Full Chain CCS, and discuss the value that Norway aims to derive from it. The key stakeholders working on this exciting project, and how they cooperate, will be also discussed. Gassnova is a Norwegian state enterprise focusing on CCS technology, which manages the Norway Full Chain CCS project.
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.
The Global CCS Institute and USEA co-hosted a briefing on the importance of R&D in advancing energy technologies on June 29 2017. This is the presentation given by Ron Munson, Global Lead-Capture at the Global CCS Institute.
The Global CCS Institute and USEA co-hosted a briefing on the importance of R&D in advancing energy technologies on June 29 2017. This is the presentation given by Alfred “Buz” Brown, Founder, CEO and Chairman of ION Engineering.
The Global CCS Institute and USEA co-hosted a briefing on the importance of R&D in advancing energy technologies on June 29 2017. This is the presentation given by Tim Merkel, Director, Research and Development Group at Membrane Technology & Research (MTR)
Mission Innovation aims to reinvigorate and accelerate global clean energy innovation with the objective to make clean energy widely affordable. Through a series of Innovation Challenges, member countries have pledged to support actions aimed at accelerating research, development, and demonstration (RD&D) in technology areas where MI members believe increased international attention would make a significant impact in our shared fight against climate change. The Innovation Challenges cover the entire spectrum of RD&D; from early stage research needs assessments to technology demonstration projects.
The Carbon Capture Innovation challenge aims to explore early stage research opportunities in the areas of Carbon Capture, Carbon Utilization, and Carbon Storage. The goal of the Carbon Capture Innovation Challenge is twofold: first, to identify and prioritize breakthrough technologies; and second, to recommend research, development, and demonstration (RD&D) pathways and collaboration mechanisms.
During the webinar, Dr Tidjani Niass, Saudi Aramco, and Jordan Kislear, US Department of Energy, provided an overview of progress to date. They also highlighted detail opportunities for business and investor engagement, and discuss future plans for the Innovation Challenge.
Karl Hausker, PhD, Senior Fellow, Climate Program, World Resources Institute, is the leader of the analytic and writing team for the latest study by the Risky Business Project: From Risk to Return: Investing in a Clean Energy Economy. Co-Chairs Michael Bloomberg, Henry Paulson, Jr, and Thomas Steyer tasked the World Resources Institute with this independent assessment of technically and economically feasible pathways that the US could follow to achieve an 80% reduction in CO2 emissions by 2050. These pathways involve mixtures of: energy efficiency, renewable energy, nuclear power, carbon capture and storage, increased carbon sequestration in US lands, and reductions in non-CO2 emissions. These pathways rely on commercial or near-commercial technologies that American companies are adopting and developing.
Dr Hausker presented the results of the study and draw some comparisons to the US Mid Century Strategy report submitted to the UNFCCC. He has worked for 30 years in the fields of climate change, energy, and environment in a career that has spanned legislative and executive branches, research institutions, NGOs, and consulting.
This webinar offered a unique opportunity to learn more about various decarbonization scenarios and to address your questions directly to Dr Hausker.
Webinar Series: Carbon Sequestration Leadership Forum Part 1. CCUS in the Uni...Global CCS Institute
The Carbon Sequestration Leadership Forum (CSLF) is a Ministerial-level international climate change initiative that is focused on the development of improved cost-effective technologies for carbon capture and storage (CCS). As part of our commitment to raising awareness of CCS policies and technology, CSLF, with support from the Global CCS Institute, is running a series of webinars showcasing academics and researchers that are working on some of the most interesting CCS projects and developments from around the globe.
This first webinar comes to you from Abu Dhabi – the site of the Mid-Year CSLF Meeting and home of the Al Reyadah Carbon Capture, Utilization & Storage (CCUS) Project. The United Arab Emirates (UAE) is one of the world’s major oil exporters, with some of the highest levels of CO2 emissions per capita. These factors alone make this a very interesting region for the deployment of CCUS both as an option for reducing CO2 emissions, but also linking these operations for the purposes of enhanced oil recovery (EOR) operations.
In the UAE, CCUS has attracted leading academic institutes and technology developers to work on developing advanced technologies for reducing CO2 emissions. On Wednesday, 26th April, we had the opportunity to join the Masdar Institute’s Associate Professor of Chemical Engineering, Mohammad Abu Zahra to learn about the current status and potential for CCUS in the UAE.
Mohammad presented an overview of the current large scale CCUS demonstration project in the UAE, followed by a presentation and discussion of the ongoing research and development activities at the Masdar Institute.
This webinar offered a rare opportunity to put your questions directly to this experienced researcher and learn more about the fascinating advances being made at the Masdar Institute.
Energy Security and Prosperity in Australia: A roadmap for carbon capture and...Global CCS Institute
On 15 February, a Roadmap titled for Energy Security and Prosperity in Australia: A roadmap for carbon capture and storage was released. The ACCS Roadmap contains analysis and recommendations for policy makers and industry on much needed efforts to ensure CCS deployment in Australia.
This presentation focused on the critical role CCS can play in Australia’s economic prosperity and energy security. To remain within its carbon budget, Australia must accelerate the deployment of CCS. Couple with this, only CCS can ensure energy security for the power sector and high-emissions industries whilst maintain the the vital role the energy sector plays in the Australian economy.
The webinar also detailed what is required to get Australia ready for widespread commercial deployment of CCS through specific set of phases, known as horizons in strategic areas including storage characterisation, legal and regulatory frameworks and public engagement and awareness.
The Roadmap serves as an important focal point for stakeholders advocating for CCS in Australia, and will provide a platform for further work feeding into the Australian Government’s review of climate policy in 2017 and beyond.
It is authored by the University of Queensland and Gamma Energy Technology, and was overseen by a steering committee comprising the Commonwealth Government, NSW Government, CSIRO, CO2CRC Limited, ACALET - COAL21 Fund and ANLEC R&D.
This webinar was presented by Professor Chris Greig, from The University of Queensland.
Webinar Series: Public engagement, education and outreach for CCS. Part 5: So...Global CCS Institute
The fifth webinar in the public engagement, education and outreach for CCS Series will explore the critically important subject of social site characterisation with the very researchers who named the process.
We were delighted to be able to reunite CCS engagement experts Sarah Wade and Sallie Greenberg, Ph.D. to revisit their 2011 research and guidance: ‘Social Site Characterisation: From Concept to Application’. When published, this research and toolkit helped early CCS projects worldwide to raise the bar on their existing engagement practices. For this webinar, we tasked these early thought leaders with reminding us of the importance of this research and considering the past recommendations in today’s context. Sarah and Sallie tackled the following commonly asked questions:
What exactly is meant by social site characterisation?
Why it is important?
What would they consider best practice for getting to understand the social intricacies and impacts of a CCS project site?
This entire Webinar Series has been designed to share leading research and best practice and consider these learnings as applied to real project examples. So for this fifth Webinar, we were really pleased to be joined by Ruth Klinkhammer, Senior Manager, Communications and Engagement at CMC Research Institutes. Ruth agreed to share some of her experiences and challenges of putting social site characterisation into practice onsite at some of CMC’s larger research projects.
This Webinar combined elements of public engagement research with real world application and discussion, explore important learnings and conclude with links to further resources for those wishing to learn more. This a must for anyone working in or studying carbon capture and storage or other CO2 abatement technologies. If you have ever nodded along at a conference where the importance of understanding stakeholders is acknowledged, but then stopped to wonder – what might that look like in practice? This Webinar is for you.
Managing carbon geological storage and natural resources in sedimentary basinsGlobal CCS Institute
To highlight the research and achievements of Australian researchers, the Global CCS Institute, together with Australian National Low Emissions Coal Research and Development (ANLEC R&D), will hold a series of webinars throughout 2017. Each webinar will highlight a specific ANLEC R&D research project and the relevant report found on the Institute’s website.
This is the eighth webinar of the series and will present on basin resource management and carbon storage. With the ongoing deployment of CCS facilities globally, the pore space - the voids in the rock deep in sedimentary basins – are now a commercial resource. This is a relatively new concept with only a few industries utilising that pore space to date.
This webinar presented a framework for the management of basin resources including carbon storage. Prospective sites for geological storage of carbon dioxide target largely sedimentary basins since these provide the most suitable geological settings for safe, long-term storage of greenhouse gases. Sedimentary basins can host different natural resources that may occur in isolated pockets, across widely dispersed regions, in multiple locations, within a single layer of strata or at various depths.
In Australia, the primary basin resources are groundwater, oil and gas, unconventional gas, coal and geothermal energy. Understanding the nature of how these resources are distributed in the subsurface is fundamental to managing basin resource development and carbon dioxide storage. Natural resources can overlap laterally or with depth and have been developed successfully for decades. Geological storage of carbon dioxide is another basin resource that must be considered in developing a basin-scale resource management system to ensure that multiple uses of the subsurface can sustainably and pragmatically co-exist.
This webinar was presented by Karsten Michael, Research Team Leader, CSIRO Energy.
Mercury and other trace metals in the gas from an oxy-combustion demonstratio...Global CCS Institute
To highlight the research and achievements of Australian researchers, the Global CCS Institute together with ANLEC R&D will hold a series of webinars throughout 2017. Each webinar will highlight a specific ANLEC R&D research project and the relevant report found on the Institute’s website. This is the seventh webinar of the series and presented the results of a test program on the retrofitted Callide A power plant in Central Queensland.
The behaviour of trace metals and the related characteristics of the formation of fine particles may have important implications for process options, gas cleaning, environmental risk and resultant cost in oxy-fuel combustion. Environmental and operational risk will be determined by a range of inter-related factors including:
The concentrations of trace metals in the gas produced from the overall process;
Capture efficiencies of the trace species in the various air pollution control devices used in the process; including gas and particulate control devices, and specialised systems for the removal of specific species such as mercury;
Gas quality required to avoid operational issues such as corrosion, and to enable sequestration in a variety of storage media without creating unacceptable environmental risks; the required quality for CO2 transport will be defined by (future and awaited) regulation but may be at the standards currently required of food or beverage grade CO2; and
Speciation of some trace elements
Macquarie University was engaged by the Australian National Low Emissions Coal Research and Development Ltd (ANLEC R&D) to investigate the behaviour of trace elements during oxy-firing and CO2 capture and processing in a test program on the retrofitted Callide A power plant, with capability for both oxy and air-firing. Gaseous and particulate sampling was undertaken in the process exhaust gas stream after fabric filtration at the stack and at various stages of the CO2 compression and purification process. These measurements have provided detailed information on trace components of oxy-fired combustion gases and comparative measurements under air fired conditions. The field trials were supported by laboratory work where combustion took place in a drop tube furnace and modelling of mercury partitioning using the iPOG model.
The results obtained suggest that oxy-firing does not pose significantly higher environmental or operational risks than conventional air-firing. The levels of trace metals in the “purified” CO2 gas stream should not pose operational issues within the CO2 Processing Unit (CPU).
This webinar was presented by Peter Nelson, Professor of Environmental Studies, and Anthony Morrison, Senior Research Fellow, from the Department of Environmental Sciences, Macquarie University.
Webinar Series: Public engagement, education and outreach for CCS. Part 4: Is...Global CCS Institute
Teesside Collective has been developing a financial support mechanism to kickstart an Industrial Carbon Capture and Storage (CCS) network in the UK. This project would transform the Teesside economy, which could act as a pilot area in the UK as part of the Government’s Industrial Strategy.
The final report– produced by Pöyry Management Consulting in partnership with Teesside Collective – outlines how near-term investment in CCS can be a cost-effective, attractive proposition for both Government and energy-intensive industry.
The report was published on Teesside Collective’s website on 7 February. You will be able to view copies of the report in advance of the webinar.
We were delighted to welcome Sarah Tennison from Tees Valley Combined Authority back onto the webinar programme. Sarah was joined by Phil Hare and Stuart Murray from Pöyry Management Consulting, to take us through the detail of the model and business case for Industrial CCS.
This webinar offered a rare opportunity to speak directly with these project developers and understand more about their proposed financial support mechanism.
Laboratory-scale geochemical and geomechanical testing of near wellbore CO2 i...Global CCS Institute
To highlight the research and achievements of Australian researchers, the Global CCS Institute together with ANLEC R&D will hold a series of webinars throughout 2016 and 2017. Each webinar will highlight a specific ANLEC R&D research project and the relevant report found on the Institute’s website. This is the sixth webinar of the series and presented the results of chemical and mechanical changes that carbon dioxide (CO2) may have at a prospective storage complex in the Surat Basin, Queensland, Australia.
Earth Sciences and Chemical Engineering researchers at the University of Queensland have been investigating the effects of supercritical CO2 injection on reservoir properties in the near wellbore region as a result of geochemical reactions since 2011. The near wellbore area is critical for CO2 injection into deep geological formations as most of the resistance to flow occurs in this region. Any changes to the permeability can have significant economic impact in terms of well utilisation efficiency and compression costs. In the far field, away from the well, the affected reservoir is much larger and changes to permeability through blocking or enhancement have relatively low impact.
This webinar was presented by Prof Sue Golding and Dr Grant Dawson and will provide an overview of the findings of the research to assist understanding of the beneficial effects and commercial consequences of near wellbore injectivity enhancement as a result of geochemical reactions.
Webinar Series: Public engagement, education and outreach for CCS. Part 3: Ca...Global CCS Institute
The third webinar in the public engagement, education and outreach for CCS Series digged deeper, perhaps multiple kilometres deeper, to explore successful methods for engaging the public on the often misunderstood topic of carbon (CO2) storage.
Forget bad experiences of high school geology, we kick-started our 2017 webinar program with three ‘rock stars’ of CO2 storage communication – Dr Linda Stalker, Science Director of Australia’s National Geosequestration Laboratory, Lori Gauvreau, Communication and Engagement Specialist for Schlumberger Carbon Services, and Norm Sacuta, Communication Manager at the Petroleum Technology Research Centre who all joined Kirsty Anderson, the Institute’s Senior Advisor on Public Engagement, to discuss the challenges of communicating about CO2 storage. They shared tips, tools and some creative solutions for getting people engaged with this topic.
This entire Webinar Series has been designed to hear directly from the experts and project practitioners researching and delivering public engagement, education and outreach best practice for carbon capture and storage. This third webinar was less focused on research and more on the real project problems and best practice solutions. It is a must for anyone interested in science communication/education and keen to access resources and ideas to make their own communications more engaging.
Water use of thermal power plants equipped with CO2 capture systemsGlobal CCS Institute
The potential for increased water use has often been noted as a challenge to the widespread deployment of carbon capture and storage (CCS) to mitigate greenhouse gas emissions. Early studies, that are widely referenced and cited in discussions of CCS, indicated that installation of a capture system would nearly double water consumption for thermal power generation, while more recent studies show different results. The Global CCS Institute has conducted a comprehensive review of data available in order to clarify messages around water consumption associated with installation of a capture system. Changes in water use estimates over time have been evaluated in terms of capture technology, cooling systems, and how the data are reported.
Guido Magneschi, Institute’s Senior Advisor – Carbon Capture, and co-author of the study, presented the results of the review and illustrated the main conclusions.
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RMD24 | Debunking the non-endemic revenue myth Marvin Vacquier Droop | First ...BBPMedia1
Marvin neemt je in deze presentatie mee in de voordelen van non-endemic advertising op retail media netwerken. Hij brengt ook de uitdagingen in beeld die de markt op dit moment heeft op het gebied van retail media voor niet-leveranciers.
Retail media wordt gezien als het nieuwe advertising-medium en ook mediabureaus richten massaal retail media-afdelingen op. Merken die niet in de betreffende winkel liggen staan ook nog niet in de rij om op de retail media netwerken te adverteren. Marvin belicht de uitdagingen die er zijn om echt aansluiting te vinden op die markt van non-endemic advertising.
RMD24 | Retail media: hoe zet je dit in als je geen AH of Unilever bent? Heid...BBPMedia1
Grote partijen zijn al een tijdje onderweg met retail media. Ondertussen worden in dit domein ook de kansen zichtbaar voor andere spelers in de markt. Maar met die kansen ontstaan ook vragen: Zelf retail media worden of erop adverteren? In welke fase van de funnel past het en hoe integreer je het in een mediaplan? Wat is nu precies het verschil met marketplaces en Programmatic ads? In dit half uur beslechten we de dilemma's en krijg je antwoorden op wanneer het voor jou tijd is om de volgende stap te zetten.
[Note: This is a partial preview. To download this presentation, visit:
https://www.oeconsulting.com.sg/training-presentations]
Sustainability has become an increasingly critical topic as the world recognizes the need to protect our planet and its resources for future generations. Sustainability means meeting our current needs without compromising the ability of future generations to meet theirs. It involves long-term planning and consideration of the consequences of our actions. The goal is to create strategies that ensure the long-term viability of People, Planet, and Profit.
Leading companies such as Nike, Toyota, and Siemens are prioritizing sustainable innovation in their business models, setting an example for others to follow. In this Sustainability training presentation, you will learn key concepts, principles, and practices of sustainability applicable across industries. This training aims to create awareness and educate employees, senior executives, consultants, and other key stakeholders, including investors, policymakers, and supply chain partners, on the importance and implementation of sustainability.
LEARNING OBJECTIVES
1. Develop a comprehensive understanding of the fundamental principles and concepts that form the foundation of sustainability within corporate environments.
2. Explore the sustainability implementation model, focusing on effective measures and reporting strategies to track and communicate sustainability efforts.
3. Identify and define best practices and critical success factors essential for achieving sustainability goals within organizations.
CONTENTS
1. Introduction and Key Concepts of Sustainability
2. Principles and Practices of Sustainability
3. Measures and Reporting in Sustainability
4. Sustainability Implementation & Best Practices
To download the complete presentation, visit: https://www.oeconsulting.com.sg/training-presentations
Attending a job Interview for B1 and B2 Englsih learnersErika906060
It is a sample of an interview for a business english class for pre-intermediate and intermediate english students with emphasis on the speking ability.
Unveiling the Secrets How Does Generative AI Work.pdfSam H
At its core, generative artificial intelligence relies on the concept of generative models, which serve as engines that churn out entirely new data resembling their training data. It is like a sculptor who has studied so many forms found in nature and then uses this knowledge to create sculptures from his imagination that have never been seen before anywhere else. If taken to cyberspace, gans work almost the same way.
Memorandum Of Association Constitution of Company.pptseri bangash
www.seribangash.com
A Memorandum of Association (MOA) is a legal document that outlines the fundamental principles and objectives upon which a company operates. It serves as the company's charter or constitution and defines the scope of its activities. Here's a detailed note on the MOA:
Contents of Memorandum of Association:
Name Clause: This clause states the name of the company, which should end with words like "Limited" or "Ltd." for a public limited company and "Private Limited" or "Pvt. Ltd." for a private limited company.
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Registered Office Clause: It specifies the location where the company's registered office is situated. This office is where all official communications and notices are sent.
Objective Clause: This clause delineates the main objectives for which the company is formed. It's important to define these objectives clearly, as the company cannot undertake activities beyond those mentioned in this clause.
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Liability Clause: It outlines the extent of liability of the company's members. In the case of companies limited by shares, the liability of members is limited to the amount unpaid on their shares. For companies limited by guarantee, members' liability is limited to the amount they undertake to contribute if the company is wound up.
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Capital Clause: This clause specifies the authorized capital of the company, i.e., the maximum amount of share capital the company is authorized to issue. It also mentions the division of this capital into shares and their respective nominal value.
Association Clause: It simply states that the subscribers wish to form a company and agree to become members of it, in accordance with the terms of the MOA.
Importance of Memorandum of Association:
Legal Requirement: The MOA is a legal requirement for the formation of a company. It must be filed with the Registrar of Companies during the incorporation process.
Constitutional Document: It serves as the company's constitutional document, defining its scope, powers, and limitations.
Protection of Members: It protects the interests of the company's members by clearly defining the objectives and limiting their liability.
External Communication: It provides clarity to external parties, such as investors, creditors, and regulatory authorities, regarding the company's objectives and powers.
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Binding Authority: The company and its members are bound by the provisions of the MOA. Any action taken beyond its scope may be considered ultra vires (beyond the powers) of the company and therefore void.
Amendment of MOA:
While the MOA lays down the company's fundamental principles, it is not entirely immutable. It can be amended, but only under specific circumstances and in compliance with legal procedures. Amendments typically require shareholder
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Shigeki Sakurai – Status of CCS – Presentation at the Global CCS Institute Members’ Meeting: 2011
1. Current CCS Activities in Japan
October 4, 2011
Shigeki Sakurai
Senior Executive Director
Japan Coal Energy Center
1
2. Contents
1. CCS Policy in JAPAN
2. CCS Significance in Coal Resources
3. Current CCS Activities in Japan
4. Implementation by JCOAL
2
3. 1. CCS Policy in JAPAN
(1) Basic Energy Plan (Cabinet Decision on June 18, 2010)
(2) Fundamental Viewpoint for Future energy Policy in light on the
Earthquake Disaster
(Council on the Realization of the New Growth Strategy by METI on June 7, 2011)
(3) Future Agenda: “Four Pillars” and “Three Strategies” (on June 7, 2011)
(4) Future Directions of Coal Policy
(5) An Innovative Zero-emission Coal Fired Power Generation System
(6) CCS Technology Development Road Map
3
4. (1) Basic Energy Plan
(Cabinet Decision on June 18, 2010)
(Advanced thermal power generation)
While accelerating the technology development aimed at the practical
application of CCS by around 2020, consider the introduction of CCS Ready in new
construction and expansion of coal-fired plants in the future. Also, consider CCS
introduction to coal fueled power generation by 2030, which is planned for future
practical application.
Specific requirements of CCS ready will be studied using the EU Directive as
reference. As the requirement for CCS ready permit approval of a thermal power
plant of more than 300,000kW, the EU Directive (June 2009) demands a survey of
whether (1) an adequate geological storage site for CO2 exists, (2) CO2
transportation is possible technically and economically, and (3) future
construction of CO2 capture/injection facilities is technically and economically
possible. If CCS was found technically and economically feasible as a result of
such a survey, space shall be secured for facilities necessary for CO2 capture and
injection.
4
5. (2) Fundamental Viewpoint for Future energy Policy in light on
the Earthquake Disaster
From “3E” to “S+3E” Source: Council on the Realization of the New Growth Strategy by METI on June 7, 2011
The importance of energy policy's fundamental policy 3E (Energy Security, Economic Growth,
Environment Protection) remains, but in addition to this, we must reaffirm that S (Safety obtainment) is
a major premise. Especially for nuclear energy, it is imperative that all possible measures are taken to
obtain safety.
“Energy Security” requires not only a reduction in dependence on overseas resources, but also an
establishment of energy supply framework which is strong against domestic emergencies such as
natural disasters . To do so, we must take in consideration the potential risk where a reliance on large-
scale centralized power occurs, and must realize a double-track / multiple layered system with a
coexistence of decentralized power and non-electrical energy sources.
For "Demand side", added to the continued efforts for streamlining of energy consumption through
innovations in energy saving technologies, we must also rethink the way of society where limitless
increase in energy consumption is accepted, and transform to "energy/power saving model“.
Action based on time -line
Short term (1~3 years): Removing fears of electricity supply is the priority task. Deploy safety supply
oriented policy in order to support “recovery and restoration” of affected areas and the “recovery of
Japanese economy”.
Medium term (3~10 years):Obtain a balance between economic growth and environmental protection
to aim for “sustainable growth" while under the premise of stable supply.
Long term (10~20 years): Realization of world’s strongest energy supply/demand structure considering
the outcome of technological innovations.
5
6. (3) Future Agenda: “Four Pillars” and “Three Strategies”
(Source; METI on June 7, 2011)
On the foundation of "S+3E", have the "renewable energy" as a new pillar for the supply side alongside "fossil
fuels" and "nuclear power“, and strengthen the "energy saving" efforts on the demand side.
Accelerate energy demand structure reform and economic growth through energy system reforms, energy
technology innovations, and international strategies.
Realization of optimum supply structure Realization of energy/power saving demand structure
Nuclear Renewable Energy
Fossil fuel saving
power energy
- Improvement of economic - Innovation of energy
- Reduction of environmental - Obtainment of high level growth through technical saving technologies
impact safety innovation - Transfer to energy saving
- Ensuring of stable supply - Maximum utilization of structure for a more
potentials in natural resources economic society
Energy system reform
(Stable supply, competitiveness (participation by various entities)/ economic growth)
Energy technology innovation
(renewable energy, fossil fuel, energy saving / low carbon)
International strategies
Obtainment of resources Contribute to global warming issues International cooperation
6
7. (4) Future Directions of Coal Policy
(Source; METI on June 7, 2011)
<1>Stable coal supply
(Response to increase in coal demands in Asian
Strengthen
multi-layered countries) Packaging of
relationships system
through co- infrastructure
• Strengthening of strategic public-private undertakings in order to
development exports and
of coal
obtain resources resource
utilization obtainment
technologies
Japan to lead
the world's coal
usage
<2>Technological innovations <3>Worldwide development of
towards zero emissions CCT
• Promotion of high-efficiency thermal power • International contribution towards CO2
generation and CCS reduction
• Multipurpose usage of low grade coal • Utilization of bilateral credit mechanism
Further strengthening of ties with coal producing and coal consuming
countries 7
8. (5) An Innovative Zero-emission Coal Fired Power Generation System
As a response to global warming issue, coal fired power generation is strongly demanded
to reduce CO2 emissions.
Coordinating high-efficiency coal fired power generation and CCS (Carbon Capture and
Storage) in order to realize a complete system.
(Source; METI(March, 2008))
[Coal Gasification &
Combustion] [Separation & Capture] [ Transportation] [Geological Storage]
- Storage potential and
Off-gas cost investigation
(Returning to the smoke stack)
(several areas around
the country)
- Verified in the U.S.
Exhaust Gas Storage Tank Injection
CO2Concentration: Liquefaction Facilities Transportation by Ship
Facilities Well
7~40%
[Geological Storage]
CO2 Pump & Carburetor
CO2 Storage Tank Facilities
CO2Recovery
Device
Coal Gasification Power Plant Compressor
-Verification tests in order to Chemical separation and
expand absorption methods of CO2
the range of compatible coal types.
-Development and verification of
oxygen separation devices
8
9. (6) CCS Technology Development Road Map
(Source; “Cool Earth Innovative Energy Technology Program”, METI(March, 2008))
2000 2010 2020 2030 2040 2050
4,200sJPY 2,000sJPY 1,000sJPY/t-CO2 (Adoption of separation membrane)
/t-CO2 /t-CO2
Drastic reduction of capture cost
CO2
Capture
- Chemical Absorption, Physical absorption/adsorption,Membrane
separation,Utilization of unused low-grade exhaust heat to
regenerate absorbent etc.
- Size increase in separation membrane, Successive production
Geological
Storage of Leap in storage potential
CO2
Pilot study on
Large-scale demonstration
geological storage
Full-scale domestic implementation of underground storage
- Aquifer, Depleted oil and gas field, Coal seam
- Transportation technologies
9
10. 2. CCS Significance of Coal Resources
(1) Potential of CCS
(2) Significance of CCS
(3) Future Market of CCS
10
11. (1) Potential of CCS
The technical global potential of CCS is about 2 trillion tons (equivalent to 70 years CO2
emission at the current level) (IPCC Special Report on CCS)
It is estimated that 19% of the emission reduction in 2050 will be made by CCS
(IEA, “Energy Technology Perspectives 2010”)
Contribution of individual technologies in global warming countermeasures
11
12. (2) Significance of CCS
CO2 emission
Global CO2 emissions by Sector Share
(billion tons/year)
Total Global CO2 emissions 28.96 100.0%
From power generation 10.90 37.6%
From Coal-fired power generation 8.68 30.0%
(source)IEA CO2 Emissions from Fuel Combustion (2009)
30% of the world’s CO2 emission are from coal-fired plants
In addition to efficiency improvement of coal-fired plants, capture/storage of CO2
emitted from them is a very important agenda when considering global CO2 emission
reduction. Furthermore, the same technologies can be used for other large emission
sources (iron making, cement production, etc).
12
13. (3) Future Market of CCS
Mt CO2/yr (source)IEA Technology Roadmap 2009
10Gt CO2/yr
power
industry
Upstream
biomass. gas
Investment
Power sec.
Every 10 years
Indu.+ ups. sec.
(Billion $)
Total
13
14. 3. Current CCS Activities in Japan
(1) Implementation by J-POWER and others (Three major CO2
Capture technologies from thermal power plants)
(2) Implementation by Toshiba (PCF)
(3) Implementation by Hitachi
(4) Implementation by RITE
(5) Implementation by Japan CCS
(6) Implementation by Nippon Steel Eng. Co. and Chiyoda Co.
14
15. (1) Implementation by J-POWER and others (Three major CO2
Capture technologies from thermal power plants)
4 Partnership: J-POWER/MHI
PCF 4 Method: Chemical Adsorption (KS-1)
Post-combustion 4 Gas flow rate: 1,750Nm3/h
J-POWER
4 CO2 Capture rate: 10 t/day
Pilot Plant Matsuhima P/S
4 Test period: July ‘06 – October ‘08
4 Partnership: J-POWER,IHI, Mitsui corp.,
PCF CS Energy, ACA, Xstrata Coal, Shlumberger
4 Fund: Australian Gov. and Japanese Gov.
Oxyfuel 4 Plant Capacity: 30MWe
Combustion 4 CO2 Capture rate: Up to 75t/d Callide A P/S in QL,
Australia
4 Storage: Depleted gas field / Saline Aquifer
Demo. Plant
4 Test period: August ‘11 – Mid ‘14
4 Partnership: J-POWER/NEDO
Coal Gasification 4 Method: Chemical Adsorption (MDEA)
4 Gas flow rate: 1,000Nm3/h
Pre-Combustion J-POWER Wakamatsu
4 CO2 Capture rate: approx. 20 t/d
Research Institute,
Pilot Plant 4 Test period: Nov. ‘08 – March ‘10 EAGLE plant
15
16. (2) Implementation by Toshiba (PCF)
・CO2 Capture rate : 10 tons /day
・Capture Technology : Post –combustion, amine absorption
・Operating Hours to Date : 5,255 hours ( as of July 2011 )
16
20. (4) Implementation by RITE
(Research Institute of Innovative Technology for the Earth)
Technological development for preventing global warming
• Turning fossil energy into clean energy
• Fluid energy production from renewable resources
• CO2 fixation using plants
Support policymaking by Japan and other countries
• Proposal of modeling-based global warming strategies for the near to distant
future
Geological Storage Capacity Estimation
• Many aquifers and some depleted oil/gas reservoirs were investigated for a
CO2 storage reservoir.
• Detail site characterization of candidate sites for large scale demonstration are
being conducted (JCCS).
Nagaoka Project
• 10,000 tons of CO2 were injected into a deep saline aquifer and various kinds
of monitoring were applied to identify CO2 migration and distribution.
• Those monitoring is on going now.
20
21. (4) Implementation by RITE
Sedimentary Layers around Japan
Based on data of Government funded preliminary
seismic and drilling survey for exploring of natural
resources
Geophysical Prospecting line
(except depth
/lithofacies)
Boundary of sea area
(Natural gas field)
(more than 800m in
thickness)
Shallower than
200m in depth
Shallower than
1000m in depth
21
22. (4) Implementation by RITE
Nagaoka test site
• FY2000-2007 by METI, Japan
CO2 Storage in Nagaoka field
• Injected 10,400 ton CO2
Active oil and gas field (2003.7-2005.1)
at Minami Nagaoka • Reservoir; Pleistocene sandstone
(Teikoku Oil) • permeability ave. 7mD
• porosity ca.23%
• 48oC, 11MPa
Reservoir
Niigata
1,100m
Tokyo
5000m Gas production RITE (Kyoto) 22
23. (5) Implementation by Japan CCS Co. Ltd.(Shareholders are 36
companies, Electric power, Petroleum, Engineering, Ian and Steel and other companies)
Outline of Japan CCS Co. Ltd.
Established through investment by power, steel, oil, oil development, chemical
and other companies in May 2008 with the aim of conducting research &
development and surveys for practical application of the technologies for the
separation, collection, transportation and geological storage of carbon dioxide
(CCS) in Japan.
Survey Status of Candidate Sites for CCS Demonstration Project
Tomakomai (Hokkaido)
Elastic wave exploration was carried out from October 2009 to September 2010.
Test wells were drilled from November 2010 to June 2011. Now date obtained from the drilling
are under analysis.
Nakoso-Iwaki oki (Fukushima)
Pipeline survey was conducted in July-August 2009.
Tomakomai
Negotiation for survey well drilling have been made with the local fishery
cooperatives.
In light of the Great East Japan Earthquake of March 11, 2011, survey at the site
and negotiations for them are suspended at the moment.
Nakoso-Iwaki oki
Kitakusyu (Fukuoka)
Test boring was conducted from May to October 2010.
Currently the data obtained through the test are under analysis to Kitakyushu
assess the storage performance 23
24. (6) Implementation by Nippon Steel Eng. Co. and Chiyoda Co.
ECOPRO Project (Highly Efficient Pyrolysis Integrated Coal Gasification Project)
The Australia/Japan joint demonstration project to do a gasification of low rank coal (Brown Coal) which the utilization at the
state of Victoria in Australia is expected in the future, to produce substituted natural gas (SNG) and to implement CO2 capture
and storage (CCS)
The implementation for demonstration research of highly efficient pyrolysis technology which is developed by national project
in Japan
Gas (H2 , CO, CH4) Fuel, Chemicals
SNG, FT-oil
Entrained Flow gasifier NH3, CH3OH
Power Generation
【
【
【
【Pyrolysis 】
】
】
】 IGCC, Gas Engine,
Brown Coal Coal + Heat CO,H2,CH4,+ α Fuel Cell
Light Oil
Drying & Oil Chemicals
Pulverizing BTX, Naphthalene
Char
Steel making
Carbon material
O2 【 Partial oxidation】
Coal + O2,steam CO,H2,+ Heat + α
Slag
Inorganic materials Energy Efficiency : 85%(at commercial plant)
Cement, etc. Process Stability : Continuous operation of 900hrs
Schedule Organization
2010~
~ Preliminary Feasibility Study Australia Federal Government (DRET)
2012~2015
~ Plant Construction Victoria state Government (DPI)
2015~2016
~ Operation for Demonstration Brown Coal Business Research Australia (BCBRA)
Nippon Steel Engineering/Chiyoda/JCOAL
A Role of JCOAL
Coal Gasification Technology Assessment & Market Study Austra ia
l
l
l
l
Victoria
Investigation for Trend of Low Rank Coal Gasification Technology 20t/d Pilot Plant
Investigation for Drying Technology of Brown Coal at NSC Yawata works
Coordination of the Working Group Activities Demonstration Plant 24
25. 4. Implementation by JCOAL
(1) Medium Term Business Plan of JCOAL
(2) CCS Group in JCOAL
(3) Callide Oxyfuel Project
(4) Outline of the Work for Structuring Information of
CO2 Storage in Southeast Asia
(5) Eco Coal Town Project (ECT)
25
26. (1) Medium Term Business Plan of JCOAL
Fundamental Mission・Objective - Realization of Clean Coal Frontier -
・
JCOAL is achieving a sustainable economic growth and overcoming global warming issues through
active utilization of coal based on the securing of stable coal as our fundamental objective as the
unique body having expert knowledge and experience of coal related fields in the world , namely
“ onestop organization of coal” just “ global JCOAL”.
<6 Core Activities and 5 Business Principles >
Clean Coal Policy
6 Core Activities
• Securing Stable Coal Supply
Exchanging Information , • Highly Efficient Coal Utilization
Policy Proposal
Promotion of Transfer Promotion of Clean Comprehensive Promotion Strategic Business
of Development Coal
of Coal Technology Coal Technology Resources Promotion
•ECT Group
Enhancement of Public ・LRC Group
Relations & Human ・CCS Group
Resources Development
5 Business Principles
Comprehensive & Selective Business Business Business Development by further
Flexible and
Overlooked Business Development collaboration with member
Development by Up & Development followed by Country companies and expected
Maneuverable
Business Opportunity
Down Stream Integration Theme by Theme Strategy Business Opportunity
26
27. (2) CCS Group in JCOAL
CCS Group has been formed since April 2011(upgrade from CCS Team, started
from July 2010)
Main Mission
i. Collection and provision of CCS-related information
ii. Planning and Proposal of CCS-related business
iii. Participation in investigation and research business on CCS
iv. Participation in research and development , demonstration business on CCS
v. Contribution to CCS-related business as a host of GCCSI Japanese members
meeting
Main Activities
i. Promotion of Oxyfuel-CCS demonstration Callide project with Australia.
(2006 - 2015)
ii. Implementation of Joint Research and Development on Oxy-Combustion
Technology with Dept. of Energy(DOE)/National Energy Technology
Laboratory(NEL).(2010-)
iii. Yubari CO2-ECBM Pilot Test was conducted in Hokkaido.(2003 - 2007)
27
28. (3) Callide Oxyfuel Project
Project positioning
World’s first “Series system of Coal utilization, Power generation, CO2 capture and
CO2 storage in the application to existing power plant system”
Oxy-fuel combustion system Power Plant
Coal C,H,O,N,S,Ash Boiler Flue gas
(
(
(
( )
)
)
) N2 O2
, Callide-A #4 unit (30 MWe)
treatment
N2
Air
(
(
(
(N2 O2
、
、
、
、 )
)
)
) CO2 storage CO2 storage site
O2
Compress/Cooling ・Store 10-20 x103 tonCO2
ASU
H2O SO2
・Surat Basin Saline Aquifer
Flue gas recycle CO2
( ) ・・・, ,
Schedule
・LETDF Announcement: 30 Oct 2006
・APP Flagship Project: 15 Oct 2007
・Signing JV Agreement: 20 March 2008
・Launch Ceremony: 14 Nov 2008
・Oxy-firing: 2011 - 2014
・CO2 storage & monitoring: 2012 - 2016
・CO2 storage feasibility study is
supported by GCCSI.
QLD
Callide A P/S
Australia
CO2
storage Brisbane
area
28
29. (4) Outline of the Work for Structuring Information of
CO2 Storage in Southeast Asia
Dissemination of CCS and aiming to build up a commercial CCS project in
Southeast Asia by taking the opportunity of the GCCSI Japan office opening in
September 2011.
The purpose of this work, Structuring Information of “CO2 Storage Potential and
incremental Oil and Gas Volumes” for CO2-EOR and CO2-ECBM in Southeast Asia,
is to accelerate and build up CCS projects in Southeast Asian countries.
Work Items
No. Work Items
1 Prepare Comprehensive Work Plan
2 Data Acquisition and Quality Check
3 Screening of Oil Fields on CO2-EOR Application
4 Screening of CBM Fields on CO2-ECBM Application
5 Estimation of CO2 Storage Potential and Incremental Oil Volumes for Oil Fields
6 Estimation of CO2 Storage Potential and Incremental Gas Volumes for CBM Fields
7 Summarization of Estimation Results
29
30. (4) Outline of the Work for Structuring Information of
CO2 Storage in Southeast Asia
Work Organization
GCCSI, etc.
GCCSI
PM
JCOAL, and JAPANESE LEGAL MEMBERS
(JCOAL JAPANESE LEGAL MEMBERS)
Estimation Works for CO2-ECBM Estimation Works for CO2-EOR
(JCOAL and/or JAPANESE LEGAL MEMBERS) (JAPANESE LEGAL MEMBERS)
Sub-contractor
< Data Acquisition >
30
31. (5) Eco Coal Town Project (ECT)
To propose the master plan to realize the production of highly value added products from brown coal and
bituminous coal in ECT.
To propose the master plan and to conduct basic feasibility study based on optimum integration of Japanese
Clean Coal Technologies (CCT) including engineering and operation system.
To show the procedure to realize ECT in conjunction with needs from enterprises and the construction plan for
infrastructures in coal producing countries.
Long distance Coal AMM
transmission mines VAM
VAM
N2 Goaf sealing (E)CMM
CMM
(E)CBM VAM
Preparation turbine
CO2
Gasifier Waste heat
recovery boiler
Waste heat
O2 Ash CMM Gas
recovery boiler
Gas Concentration Turbine
Turbine CFB refuse power plant
Steam system
Air IGCC Turbine
Coal-fired Power Cogeneration of
separator Plant CH4 power and heat
Sludge Steam Turbine
Air CMM gas
Wet type Fermentation engine
Dry type deSOx methane
deNOx & deSOx Gypsum Waste water
Coke, tar, BTX treatment Gas Holder
Fly ash SNG, LNG, GTL, DME, etc.
& slug Gas supply
Activated
control
Carbon Automobile
Waste water fuel
treatment CH4
Lime Cement manufacturing
Town
Fly ash & slug processing Regional gas/heat
technologies for roadbed material supply center Heat
and concrete mixture, etc. pump
Gas cogeneration system 31
32. Thank you very much for your kind attention
Major Activities of JCOAL
~ Coal One-stop Organization ~
32