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.
Niklas von der Assen (Aachen University) talking about Current, Best and Future Practice of LCA for CO2 Utilization at the LCA Workshop in Sheffield on the 4th March 2015
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.
Summit Power - Texas Clean Energy Project – Laura Miller - Global CCS Institu...Global CCS Institute
As a part of the Institute's strategic focus on assisting CCS projects through knowledge sharing, three North American roadshow events will help the industry share project experiences and knowledge about CCS. Taking place in the US and Canada, the three events include:
• Austin, Texas on November 8, 2011;
• Calgary, Canada on 10 November, 2011; and
• Washington, D.C. on 19 January, 2012.
The first roadshow focused on sharing project experiences and knowledge from the projects in North America but also brought in projects from Europe (Don valley) and Australia (Callide) so that regionally diverse experiences could be shared amongst a global audience.
Attendance at the event was around 30 to 35 which allowed open and frank discussions around technical, management, and regulatory issues and how these challenges can impact on a project’s advancement and decision making processes.
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.
Niklas von der Assen (Aachen University) talking about Current, Best and Future Practice of LCA for CO2 Utilization at the LCA Workshop in Sheffield on the 4th March 2015
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.
Summit Power - Texas Clean Energy Project – Laura Miller - Global CCS Institu...Global CCS Institute
As a part of the Institute's strategic focus on assisting CCS projects through knowledge sharing, three North American roadshow events will help the industry share project experiences and knowledge about CCS. Taking place in the US and Canada, the three events include:
• Austin, Texas on November 8, 2011;
• Calgary, Canada on 10 November, 2011; and
• Washington, D.C. on 19 January, 2012.
The first roadshow focused on sharing project experiences and knowledge from the projects in North America but also brought in projects from Europe (Don valley) and Australia (Callide) so that regionally diverse experiences could be shared amongst a global audience.
Attendance at the event was around 30 to 35 which allowed open and frank discussions around technical, management, and regulatory issues and how these challenges can impact on a project’s advancement and decision making processes.
TransAlta Corporation – Project Pioneer CCS in the Power Sector – Don Wharton...Global CCS Institute
As a part of the Institute's strategic focus on assisting CCS projects through knowledge sharing, three North American roadshow events will help the industry share project experiences and knowledge about CCS. Taking place in the US and Canada, the three events include:
• Austin, Texas on November 8, 2011;
• Calgary, Canada on 10 November, 2011; and
• Washington, D.C. on 19 January, 2012.
The first roadshow focused on sharing project experiences and knowledge from the projects in North America but also brought in projects from Europe (Don valley) and Australia (Callide) so that regionally diverse experiences could be shared amongst a global audience.
Attendance at the event was around 30 to 35 which allowed open and frank discussions around technical, management, and regulatory issues and how these challenges can impact on a project’s advancement and decision making processes.
This is a presentation delivered by Luke Warren of the CCSA at the Institute’s COP 17 side event, held on November 30. The presentation reviews the history of CCS discussions under the UNFCCC and proposes a path forward.
Webinar: Examining processes of social site characterisation and stakeholder ...Global CCS Institute
On 4 December 2013 a special Global CCS Institute webinar was held where Laurent Jammes from Actys-BEE and Philippe Vervier from Acceptables Avenirs presented “findings and insights” from the ULCOS Study: http://www.globalccsinstitute.com/publications/social-site-characterisation-stakeholder-management
Since the early work of Sarah Wade and Sally Greenberg, comprehensive social site characterisation and stakeholder identification and analysis have been recognised as fundamental components of any successful CCS stakeholder engagement strategy.
To bring these critical concepts to life for CCS project developers, the Institute supported two of France’s leading public engagement specialists to perform and record each of the key stages of a social site characterisation and prepare a stakeholder engagement process plan to an actual CCS project - the ULCOS Blast Furnace CCS project in Lorraine, France.
The final report comprised four detailed case studies capturing all the processes and tools used to manage the following key public engagement processes:
context analysis
stakeholder identification and mapping
issues identification and materiality analysis
design and evaluation of the project stakeholder engagement plan.
During this webinar, the report authors, Laurent Jammes, COO at Actys-BEE, and Philippe Vervier, CEO Acceptables Avenirs, introduced the key findings from the case study work and took questions on the processes and techniques used to achieve a comprehensive social site characterisation and create a successful stakeholder engagement strategy.
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.
Barry Jones, General Manager - Asia Pacific for the Global CCS Institute, provides an overview of carbon capture and storage technology including its rationale and a summary of current projects. The presentation also examines impediments to its deployment and recommendations for how to overcome them.
On 28 October UKCCSRC Director Jon Gibbins and ECR member Rudra Kapila spoke at a meeting with the University of Edinburgh 'Engineers Without Borders' group. This focused on CCS applications in developing countries, where Rudra's practical experience of CCS engagement in India and wider climate negotiations was particularly relevant. While CCS was a somewhat unusual topic for EWB the shared concerns about dangerous climate change made for a very interesting discussion.
This presentation was given as part of the CCS Ready workshop which was held in association with the 6th Asia Clean Energy Forum (20 – 24 June, Manila)
The workshop discussed the range of measures and best practices that can be implemented to prompt the design, permitting and construction of CCS projects when designing or building a new fossil fuelled energy or industrial plant.
Alice Gibson’s presentation provided a summary of CCS Ready and the proposed definition as well as an explanation of the necessary regulatory and economic drivers required to implement CCS ready.
Webinar: The Global Status of CCS: 2014 - Overcoming challenges in EuropeGlobal CCS Institute
The Global CCS Institute was pleased to announce the release of our annual Global Status of CCS: 2014 report, and invite you to join the Institute’s Europe, Middle East and Africa Team for a webinar summarising the main themes of the report.
The Institute’s General Manager for the region, Andrew Purvis, presented a summary of the report, and was then joined by a number of our subject matter experts to discuss issues raised during the presentation by our global and regional audience.
Chairman: John Scowcroft, Executive Adviser/ UNFCCC Specialist
Presentation: Andrew Purvis, General Manager
Expert Panel:
Kirsty Anderson: Public Engagement
Silvia Vaghi: Policy and Regulation
Guido Magneschi: Capture
Chris Consoli: Storage
The report provides a detailed overview of the current status of CCS projects worldwide and provides a comprehensive overview of global and regional developments in CCS technologies and the policies, laws and regulations that must drive the demonstration and deployment of technologies to support global climate mitigation efforts.
Providing a number of key recommendations for decision makers, The Global Status of CCS: 2014 report is an important reference guide for industry, government, research bodies and the broader community.
CCUS Roadmap for Mexico - presentation by M. Vita Peralta Martínez (IIE - Electric Research Institute, Mexico) for the UKCCSRC, Edinburgh, 13 November 2015
This third webinar in the series 'CCS in Developing Countries' was presented by the World Bank.
Deploying CCS in developing countries is critically important. The International Energy Agency estimates that to achieve global emissions reduction targets 70% of CCS projects will be in non-OECD countries by 2050.
CCS faces a number of challenges, in all countries, but particularly in developing countries. This webinar discussed some of these challenges and barriers using South Africa as a case study. South Africa is working towards a Test Injection Project and subsequently a Carbon Capture and Sequestration Project. The World Bank considered it important to understand a set of constraints, including regulatory, technical, economic, human capacity, etc. to realization of CCS demonstration and commercialization, and how the CCS development will look like in the South African context, out to 2050. A techno-economic assessment has been undertaken to gain this understanding.
The techno-economic assessment explored CCS deployment in six relevant industries in South Africa, and assessed projected scenarios associated with key issues of interest (such as cost, impact on electricity prices, timeframes etc). The key output from the techno-economic study was a techno-economic model, supported by the data sets, specifically for South Africa. The potential storage site capacity has been analysed to provide a strong indication of the likely storage capacity available within physical and economic constraints.
The Global CCS Institute’s Global Status of CCS: 2013 report was released on 10 October to an international audience. Based on the Institute's annual global survey, the report provides a comprehensive overview of CCS policy, legal and regulatory developments, technologies, large-scale demonstration projects. It also provides authoritative analysis, insights and recommendations for accelerating the technology. The report is an extensive reference guide for industry, government, research bodies and the broader community.
The Global CCS Institute webinar that was held on Thursday 31st October was delivered by Institute experts, and covered key findings and recommendations, while highlighting the need for action.
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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.
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.
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.
Global Status of CCS: 2016. Saline Aquifer Storage Performance at the Quest C...Global CCS Institute
The Global CCS Institute launched The Global Status of CCS: 2016 at a dedicated event at the 22nd conference of the parties (COP 22) in Marrakech on Tuesday, 15 November.
The Global Status of CCS: 2016 report is an essential reference for industry, government, research bodies, and the broader community, providing a comprehensive overview of global and regional CCS developments.
Following the report launch, we will run a number of webinars commencing in November 2016, through to early 2017.
A Summary of the Global Status of CCS: 2016 will be accessible on our website from 15 November, and includes updates on key CCS facilities, including two major facilities now in operation:
Shell’s Quest Project in Canada
Tomakomai CCS Demonstration Project in Japan
These projects are significant 2016 milestones and testament to the safety, reliability and cost-effectiveness of CCS as an integral technology to meeting Paris Agreement climate change targets.
Please join us for the first of the Global Status of CCS: 2016 webinar series.
Saline Aquifer Storage Performance at the Quest CCS Project
As one of a handful of large-scale CCS projects currently injecting CO2 into a dedicated saline aquifer storage site, Shell’s Quest project offers a unique case study into the performance of dedicated storage. The Quest project injects CO2 into the Basal Cambrian Sandstone located 2 km below the surface. After the first year of operations, the Quest reservoir has exceeded internal expectations. While the original premise called for eight wells, today only two of three constructed injection wells take 100 per cent of project volumes (~140 tonnes /hr).
In this webinar, Simon O’Brien, Shell Quest Subsurface Manager, discussed storage performance at Quest after one year of operations as well as early results from the measurement, monitoring, and verification (MMV) plan.
CarbonNet storage site characterisation and selection processGlobal CCS Institute
The CarbonNet Project has undertaken an extensive geoscience evaluation programme to identify, characterise and select prospective offshore storage sites in the nearshore Gippsland Basin, in south eastern Australia.
The process builds upon basin and regional assessments undertaken at the national level, and focuses upon leads and play fairs assessed using a vast amount of geological data available from 50 years of petroleum exploration and developments in the basin.
CarbonNet geoscience work has been subject to independent scientific peer reviews, and external assurance certification by Det Norske Veritas against the recommended practise for geological storage of carbon dioxide (CO2) J203.
CarbonNet now holds five greenhouse gas assessments permits providing exclusive rights to explore, appraisal and develop a portfolio of CO2 storage sites.
The project has identified a prioritised storage site capable of storing in excess of 125 Mt of CO2 for which a 'Declaration of Storage' has been prepared which demonstrates the 'fundamental determinants' and probability assessment of potential CO2 plume paths as required under Australian CCS legislation'.
This webinar will be presented by Dr Nick Hoffman, CarbonNet Geosequestration Advisor, and will provide an overview of CarbonNet geoscience evaluation programme, referencing the relevant knowledge share products available on the Global CCS Institute website.
Slack (or Teams) Automation for Bonterra Impact Management (fka Social Soluti...Jeffrey Haguewood
Sidekick Solutions uses Bonterra Impact Management (fka Social Solutions Apricot) and automation solutions to integrate data for business workflows.
We believe integration and automation are essential to user experience and the promise of efficient work through technology. Automation is the critical ingredient to realizing that full vision. We develop integration products and services for Bonterra Case Management software to support the deployment of automations for a variety of use cases.
This video focuses on the notifications, alerts, and approval requests using Slack for Bonterra Impact Management. The solutions covered in this webinar can also be deployed for Microsoft Teams.
Interested in deploying notification automations for Bonterra Impact Management? Contact us at sales@sidekicksolutionsllc.com to discuss next steps.
Elevating Tactical DDD Patterns Through Object CalisthenicsDorra BARTAGUIZ
After immersing yourself in the blue book and its red counterpart, attending DDD-focused conferences, and applying tactical patterns, you're left with a crucial question: How do I ensure my design is effective? Tactical patterns within Domain-Driven Design (DDD) serve as guiding principles for creating clear and manageable domain models. However, achieving success with these patterns requires additional guidance. Interestingly, we've observed that a set of constraints initially designed for training purposes remarkably aligns with effective pattern implementation, offering a more ‘mechanical’ approach. Let's explore together how Object Calisthenics can elevate the design of your tactical DDD patterns, offering concrete help for those venturing into DDD for the first time!
Kubernetes & AI - Beauty and the Beast !?! @KCD Istanbul 2024Tobias Schneck
As AI technology is pushing into IT I was wondering myself, as an “infrastructure container kubernetes guy”, how get this fancy AI technology get managed from an infrastructure operational view? Is it possible to apply our lovely cloud native principals as well? What benefit’s both technologies could bring to each other?
Let me take this questions and provide you a short journey through existing deployment models and use cases for AI software. On practical examples, we discuss what cloud/on-premise strategy we may need for applying it to our own infrastructure to get it to work from an enterprise perspective. I want to give an overview about infrastructure requirements and technologies, what could be beneficial or limiting your AI use cases in an enterprise environment. An interactive Demo will give you some insides, what approaches I got already working for real.
UiPath Test Automation using UiPath Test Suite series, part 4DianaGray10
Welcome to UiPath Test Automation using UiPath Test Suite series part 4. In this session, we will cover Test Manager overview along with SAP heatmap.
The UiPath Test Manager overview with SAP heatmap webinar offers a concise yet comprehensive exploration of the role of a Test Manager within SAP environments, coupled with the utilization of heatmaps for effective testing strategies.
Participants will gain insights into the responsibilities, challenges, and best practices associated with test management in SAP projects. Additionally, the webinar delves into the significance of heatmaps as a visual aid for identifying testing priorities, areas of risk, and resource allocation within SAP landscapes. Through this session, attendees can expect to enhance their understanding of test management principles while learning practical approaches to optimize testing processes in SAP environments using heatmap visualization techniques
What will you get from this session?
1. Insights into SAP testing best practices
2. Heatmap utilization for testing
3. Optimization of testing processes
4. Demo
Topics covered:
Execution from the test manager
Orchestrator execution result
Defect reporting
SAP heatmap example with demo
Speaker:
Deepak Rai, Automation Practice Lead, Boundaryless Group and UiPath MVP
Transcript: Selling digital books in 2024: Insights from industry leaders - T...BookNet Canada
The publishing industry has been selling digital audiobooks and ebooks for over a decade and has found its groove. What’s changed? What has stayed the same? Where do we go from here? Join a group of leading sales peers from across the industry for a conversation about the lessons learned since the popularization of digital books, best practices, digital book supply chain management, and more.
Link to video recording: https://bnctechforum.ca/sessions/selling-digital-books-in-2024-insights-from-industry-leaders/
Presented by BookNet Canada on May 28, 2024, with support from the Department of Canadian Heritage.
Smart TV Buyer Insights Survey 2024 by 91mobiles.pdf91mobiles
91mobiles recently conducted a Smart TV Buyer Insights Survey in which we asked over 3,000 respondents about the TV they own, aspects they look at on a new TV, and their TV buying preferences.
Key Trends Shaping the Future of Infrastructure.pdfCheryl Hung
Keynote at DIGIT West Expo, Glasgow on 29 May 2024.
Cheryl Hung, ochery.com
Sr Director, Infrastructure Ecosystem, Arm.
The key trends across hardware, cloud and open-source; exploring how these areas are likely to mature and develop over the short and long-term, and then considering how organisations can position themselves to adapt and thrive.
Software Delivery At the Speed of AI: Inflectra Invests In AI-Powered QualityInflectra
In this insightful webinar, Inflectra explores how artificial intelligence (AI) is transforming software development and testing. Discover how AI-powered tools are revolutionizing every stage of the software development lifecycle (SDLC), from design and prototyping to testing, deployment, and monitoring.
Learn about:
• The Future of Testing: How AI is shifting testing towards verification, analysis, and higher-level skills, while reducing repetitive tasks.
• Test Automation: How AI-powered test case generation, optimization, and self-healing tests are making testing more efficient and effective.
• Visual Testing: Explore the emerging capabilities of AI in visual testing and how it's set to revolutionize UI verification.
• Inflectra's AI Solutions: See demonstrations of Inflectra's cutting-edge AI tools like the ChatGPT plugin and Azure Open AI platform, designed to streamline your testing process.
Whether you're a developer, tester, or QA professional, this webinar will give you valuable insights into how AI is shaping the future of software delivery.
Essentials of Automations: Optimizing FME Workflows with ParametersSafe Software
Are you looking to streamline your workflows and boost your projects’ efficiency? Do you find yourself searching for ways to add flexibility and control over your FME workflows? If so, you’re in the right place.
Join us for an insightful dive into the world of FME parameters, a critical element in optimizing workflow efficiency. This webinar marks the beginning of our three-part “Essentials of Automation” series. This first webinar is designed to equip you with the knowledge and skills to utilize parameters effectively: enhancing the flexibility, maintainability, and user control of your FME projects.
Here’s what you’ll gain:
- Essentials of FME Parameters: Understand the pivotal role of parameters, including Reader/Writer, Transformer, User, and FME Flow categories. Discover how they are the key to unlocking automation and optimization within your workflows.
- Practical Applications in FME Form: Delve into key user parameter types including choice, connections, and file URLs. Allow users to control how a workflow runs, making your workflows more reusable. Learn to import values and deliver the best user experience for your workflows while enhancing accuracy.
- Optimization Strategies in FME Flow: Explore the creation and strategic deployment of parameters in FME Flow, including the use of deployment and geometry parameters, to maximize workflow efficiency.
- Pro Tips for Success: Gain insights on parameterizing connections and leveraging new features like Conditional Visibility for clarity and simplicity.
We’ll wrap up with a glimpse into future webinars, followed by a Q&A session to address your specific questions surrounding this topic.
Don’t miss this opportunity to elevate your FME expertise and drive your projects to new heights of efficiency.
Encryption in Microsoft 365 - ExpertsLive Netherlands 2024Albert Hoitingh
In this session I delve into the encryption technology used in Microsoft 365 and Microsoft Purview. Including the concepts of Customer Key and Double Key Encryption.
1. Minimum Requirements and Recommended Practices for Policymakers and Regulators Ian Havercroft, Senior Advisor - Law and Regulation Wednesday 22 June 2011 WWW.GLOBALCCSINSTITUTE.COM
2. OUTLINE OF PRESENTATION What is Carbon Capture and Storage Ready? - Concepts and definitions Implementation of policy commitments and regulation - Examples of implementation Observations - Divergent approaches Beyond the definition 1
4. CONCEPT AND DEFINITIONS ‘Spectrum of investments and design decisions’ ‘A CCSR facility is a large-scale industrial or power source of CO2 which could and is intended to be retrofitted with CCS technology when the necessary regulatory and economic drivers are in place. The aim of building new facilities or modifying existing facilities to be CCSR is to reduce the risk of carbon emission lock-in or being unable to fully utilise the facilities in the future without CCS (stranded assets). CCSR is not a mitigation option, but a way to facilitate CO2 mitigation in the future. CCSR ceases to be applicable in jurisdictions where the necessary drivers are already in place, or once they come in place’ Expanded definition to consider capture, transport and storage elements 3
5. CONCEPT AND DEFINITIONS (2) The essential requirements represent the minimum criteria that should be met before a facility can be considered CCR. The project developer should: Carry out a site‐specific study in sufficient engineering detail to ensure the facility is technically capable of being fully retrofitted for CO2 capture, using one or more choices of technology which are proven or whose performance can be reliably estimated as being suitable. Demonstrate that retrofitted capture equipment can be connected to the existing equipment effectively and without an excessive outage period and that there will be sufficient space available to construct and safely operate additional capture and compression facilities. Identify realistic pipeline or other route(s) to storage of CO2. Identify one or more potential storage areas which have been appropriately assessed and found likely to be suitable for safe geological storage of projected full lifetime volumes and rates of captured CO2. Identify other known factors, including any additional water requirements that could prevent installation and operation of CO2 capture, transport and storage, and identify credible ways in which they could be overcome. Estimate the likely costs of retrofitting capture, transport and storage Engage in appropriate public engagement and consideration of health, safety and environmental issues Review CCSR status and report on it periodically 4
7. EUROPEAN UNION The EU Storage Directive includes provisions relating to CCSR, although does not use the term ‘CCS Ready’ Article 33 of the Directive makes amendments to the Large Combustion Plants Directive Under the Directive an assessment is required of new combustion plants, with capacity in excess of 300MW, to determine whether: - Suitable storage sites are available - Transport facilities are technically and economically feasible; and - It is technically and economically feasible to retrofit for CO2 capture Where these conditions are met, the Competent Authority shall ensure that suitable space on the installation site is set-aside for capturing and compressing theCO2 6
8. SOUTH AFRICA The Record of Decision around the ESKOM coal-fired power station, Witbank (Kusile Plant) included a requirement around CCS ready Provisions relating to ‘air quality management’ require measures to be taken around CO2 and this must include carbon capture readiness Accordingly, as part of any application to undertake an activity under the decision, ESKOM will be required to submit ‘…a report detailing the preferred technology, for approval, before proceeding with construction’ 7
9. UNITED KINGDOM The UK has mandated Carbon Capture Readiness for all new combustion plants New coal-fired power plants in England and Wales – with a capacity over 300MW and subject to the LCP Directive – are required to demonstrate readiness as a part of their development consent application Operators will be required to demonstrate: - Sufficient space is available to accommodate capture equipment - Technically and economically feasible to retrofit the chosen technology - A suitable storage site for the captured CO2 exists - Technically feasible to transport the CO2 to the storage site 8
10. QUEENSLAND Queensland has defined CCS Ready as: ‘….generators must demonstrate that new plants have been designed with plans and milestones for incorporation of operational CCS, and that there are no known barriers to installation once the technology has been proven on a commercial scale. Furthermore, the government requires that new coal-fired power stations retrofit CCS within five years of CCS having been proven on a commercial scale’ The government has committed to further refine the term CCS-ready, with a view to providing ‘practical benchmarks’ that may be used nationally and internationally 9
11. CHINA ‘Feasibility Analysis of CCS-Readiness in Guangdong (GDCCSR)’ launched in March 2010 Project funded by UK Foreign and Commonwealth Office and the Global CCS Institute First report provided on 25 November 2010 Aim of the project is to raise political and commercial awareness of CCS technology Work plan indicative of the many issues to be reconciled 10
13. OBSERVATIONS Broad range of measures being pursued across a range of jurisdictions Implemented by governments and undertaken by industry Flexibility of the approach adopted No operational or international standardisation but identifiable themes and willingness to develop CCSR policies Likely range of stakeholder interests Limited focus on industrial application 12
15. BEYOND THE DEFINITION What are the essential components? - How are they to be addressed by policy, law and regulation? Development considerations - Involvement of multiple parties - Potential for embracing a range of activities - Various approaches to implementation Stringency of CCSR requirements - Least to most stringent - May be applied across individual components 14
16. BEYOND THE DEFINITION (2) Significant regulatory component to CCSR requirements - Note the earlier requirements from the IEA/CSLF/GCCSI definition Regulatory aspects to CCSR - Establishing regulatory oversight - Developing CCSR legislation and subsequent regulation - Verification of compliance CCS-specific legislation may be developed in tandem with CCSR policy - Harmonised approach to CCS policy 15