Apec workshop 2 presentation 3 c burton global status of ccs-ccusGlobal CCS Institute
This document discusses carbon capture, utilization, and storage (CCUS) technologies. It provides an overview of CCUS, the current global status, and why CCUS is seen as vital for meeting greenhouse gas reduction goals. It also summarizes the technology assessment, policy and market assessment, and understanding and acceptance assessment sections regarding CCUS deployment opportunities and challenges.
The document provides an overview of sustainability concepts and frameworks for businesses. It defines key terms like sustainability, the triple bottom line, ESG, CSR, and SDGs. It discusses how sustainability can provide business opportunities through increased revenue, reduced expenses, and improved stock performance. The takeaways are that organizational culture must truly embrace sustainability, and that NAPA resources like awards, commendations, EPDs, and guidance documents support members' sustainability efforts.
KINETIC EMERGY OVERVIEW AND RESUME DR STEVE WITTRIG SEP17Steve Wittrig
Kinetic Emergy, LLC is a company founded in 2015 by T. Stephen Wittrig to develop new energy, manufacturing, agricultural and urban infrastructure systems using emerging technologies. The company aims to model and integrate technologies like ammonia production, liquid air energy storage, gas reservoirs with CO2 storage and sequestration, digital camless engines, ammonia-powered microgrids, plasma arc gasification and sCO2 power cycles. The goal is to create robust systems models that can demonstrate the technical and economic viability of regional-scale low-carbon infrastructure.
GreenFire Energy Presentation for CEC Clean Energy Workshop Feb 18 2016Andy Van Horn
This document discusses GreenFire Energy's ECO2GTM geothermal power technology, which uses supercritical carbon dioxide in closed loops to generate electricity from underground heat sources. This technology could significantly expand viable geothermal resources by not requiring natural fractures or permeability. The document notes California's need for flexible power sources to integrate rising renewable generation. It argues ECO2GTM could help meet this need by providing both baseload and flexible power with zero carbon emissions and no water use. The technology faces technical, economic, regulatory and contractual barriers, and the document requests support overcoming these barriers to develop ECO2GTM in California.
TCM is the world's largest facility for testing and improving CO2 capture technologies. It was established in 2005 with the goal of demonstrating and developing capture technologies to help combat climate change. The facility includes an amine plant and chilled ammonia plant that are used to test different carbon capture processes. TCM has established a network with other carbon capture test centers around the world to share knowledge and accelerate the commercialization of carbon capture technologies.
At the Asia Clean Energy Forum 2016 Ricardo Energy & Environment’s waste management and resource efficiency experts discussed a range of critical issues, including financial, institutional, policy, regulatory, engineering, environmental and social issues around the planning for and delivery of appropriate and effective waste to energy infrastructure in developing economies.
In this presentation Phil White discusses the environmental impacts of waste treatment.
This document discusses hydroelectric power potential in Europe. It summarizes that a study by the European Environment Agency (EEA) found the technical potential for hydroelectric power is restricted, but the environmental potential is even more limited after accounting for environmental factors. The study used a database called ECRINS to analyze hydrological data and potential dam sites in catchments. It made assumptions about factors like water flow rates, plant efficiencies, costs, and environmental impacts to estimate potential. While the technical potential is limited, the document suggests focusing on innovating business models to adapt. It also notes that environmental protections like Article 4.7 must be maintained.
Apec workshop 2 presentation 3 c burton global status of ccs-ccusGlobal CCS Institute
This document discusses carbon capture, utilization, and storage (CCUS) technologies. It provides an overview of CCUS, the current global status, and why CCUS is seen as vital for meeting greenhouse gas reduction goals. It also summarizes the technology assessment, policy and market assessment, and understanding and acceptance assessment sections regarding CCUS deployment opportunities and challenges.
The document provides an overview of sustainability concepts and frameworks for businesses. It defines key terms like sustainability, the triple bottom line, ESG, CSR, and SDGs. It discusses how sustainability can provide business opportunities through increased revenue, reduced expenses, and improved stock performance. The takeaways are that organizational culture must truly embrace sustainability, and that NAPA resources like awards, commendations, EPDs, and guidance documents support members' sustainability efforts.
KINETIC EMERGY OVERVIEW AND RESUME DR STEVE WITTRIG SEP17Steve Wittrig
Kinetic Emergy, LLC is a company founded in 2015 by T. Stephen Wittrig to develop new energy, manufacturing, agricultural and urban infrastructure systems using emerging technologies. The company aims to model and integrate technologies like ammonia production, liquid air energy storage, gas reservoirs with CO2 storage and sequestration, digital camless engines, ammonia-powered microgrids, plasma arc gasification and sCO2 power cycles. The goal is to create robust systems models that can demonstrate the technical and economic viability of regional-scale low-carbon infrastructure.
GreenFire Energy Presentation for CEC Clean Energy Workshop Feb 18 2016Andy Van Horn
This document discusses GreenFire Energy's ECO2GTM geothermal power technology, which uses supercritical carbon dioxide in closed loops to generate electricity from underground heat sources. This technology could significantly expand viable geothermal resources by not requiring natural fractures or permeability. The document notes California's need for flexible power sources to integrate rising renewable generation. It argues ECO2GTM could help meet this need by providing both baseload and flexible power with zero carbon emissions and no water use. The technology faces technical, economic, regulatory and contractual barriers, and the document requests support overcoming these barriers to develop ECO2GTM in California.
TCM is the world's largest facility for testing and improving CO2 capture technologies. It was established in 2005 with the goal of demonstrating and developing capture technologies to help combat climate change. The facility includes an amine plant and chilled ammonia plant that are used to test different carbon capture processes. TCM has established a network with other carbon capture test centers around the world to share knowledge and accelerate the commercialization of carbon capture technologies.
At the Asia Clean Energy Forum 2016 Ricardo Energy & Environment’s waste management and resource efficiency experts discussed a range of critical issues, including financial, institutional, policy, regulatory, engineering, environmental and social issues around the planning for and delivery of appropriate and effective waste to energy infrastructure in developing economies.
In this presentation Phil White discusses the environmental impacts of waste treatment.
This document discusses hydroelectric power potential in Europe. It summarizes that a study by the European Environment Agency (EEA) found the technical potential for hydroelectric power is restricted, but the environmental potential is even more limited after accounting for environmental factors. The study used a database called ECRINS to analyze hydrological data and potential dam sites in catchments. It made assumptions about factors like water flow rates, plant efficiencies, costs, and environmental impacts to estimate potential. While the technical potential is limited, the document suggests focusing on innovating business models to adapt. It also notes that environmental protections like Article 4.7 must be maintained.
1) The document discusses a proposed CCS project called the Don Valley Power Project (DVPP) in the UK. It analyzes the business case for DVPP and identifies key factors for making CCS projects commercially viable such as government support mechanisms, carbon pricing, and using CO2 for enhanced oil recovery.
2) DVPP's plan was to use CO2 from a proposed coal power plant for EOR in the North Sea, with the revenue from EOR covering storage costs. However, DVPP was unsuccessful in obtaining a UK capital grant and the high capital costs remain a challenge.
3) For CCS to succeed, the document emphasizes that future projects must reduce costs, secure diverse sources
How to assess PV technical risks and ensure your project is bankableSolarbabaGlobal
The document discusses key risks in photovoltaic projects and how to ensure bankability and performance. It identifies top risks such as inaccurate energy assessments, module underperformance, equipment failures, improper structural design, and incomplete commissioning. It provides recommendations to mitigate these risks, including on-site measurements, statistical batch testing, stringent qualification testing, thorough structural analysis accounting for dynamic wind loads, and exhaustive commissioning procedures. The overall aim is to capture performance issues early and provide investors confidence through robust planning, execution, and oversight.
The Sustainable Development Technology Canada (SDTC) aims to build a sustainable development technology infrastructure in Canada. It provides funding to clean technology projects in the development and demonstration phases to help de-risk technologies for private sector investment. SDTC has approved 75 projects totaling $169 million in funding that is expected to leverage $446 million from project partners and reduce emissions by 12.5 million tonnes annually by 2010.
George Booras, EPRI - Power plant capture case studies - IntroductionGlobal CCS Institute
This document summarizes a presentation on cost estimates for carbon capture and storage (CCS) applications in power plants. It discusses challenges in estimating costs for retrofitting CCS to existing power plants. It also emphasizes that research and development are critical to driving down costs and enabling the learning-by-doing necessary for CCS technologies to be deployed at large scale. Sharing lessons learned from early CCS projects is important for the long-term success of carbon capture.
This document outlines a roadmap for gas research developed by DVGW Innovation Research Gas. It identifies key areas of focus for research including renewable gases produced from biogas and power-to-gas technologies. The roadmap was created based on an assessment of political, social and technology trends and aims to position gas as a partner in the energy transition. It establishes strategic objectives and identifies 19 technology areas for further research and development to advance solutions that increase efficiency, expand renewable gas production, and open new markets for gas.
Offshore Wind Energy: Improving Project Development and Supply Chain Processe...Stavros Thomas
This project scopes to investigate, analyze and implement lean technologies and methods to improve project
development efficiency and provide cost reductions in offshore wind energy investments. Logically all products
and services in the wind power industry involve a supply chain structure. Some of these upstream entities
and activities located inside this multi-directional framework are completely independent-autonomous of one
another while some are interrelated. This process through manufacturing, distribution, installation and operation
creates waste in terms of process time, cost and quality of service. Lean principles-when implemented-work
together to identify, mitigate or even eliminate the waste produced during the life-cycle of a wind power project
and simplify the processes with the highest value and quality. Through a complete lifecycle analysis and under
the plethora of the integrated supply chain processes, this project focuses on developing innovative solutions
and procedures to optimise offshore wind plants installation, operation and maintenance (O&M) as well as
decommissioning-repowering. Finally a set of tools and methodologies to remove supply chain bottlenecks,
address the associated transport, logistics and equipment challenges and improve project management are also
presented. It has been shown that the wastes such as inventory costs and defects have been reduced which
improves the overall project feasibility.
Keywords
offshore wind — supply chain — lean management — portfolio management — project development
This document outlines funding opportunities for energy research and innovation under the Horizon 2020 program. It discusses 14 specific calls related to competitive low-carbon energy, smart cities and communities, energy storage, sustainable biofuels, enabling decarbonization of fossil fuels, and modernizing the European electricity grid. Each call is described in 1-2 paragraphs covering its goals, challenges, funding amount, and technology readiness levels targeted.
At the Asia Clean Energy Forum 2016 Ricardo Energy & Environment’s waste management and resource efficiency experts discussed a range of critical issues, including financial, institutional, policy, regulatory, engineering, environmental and social issues around the planning for and delivery of appropriate and effective waste to energy infrastructure in developing economies.
In this presentation Tim Fill discusses infrastructure and service delivery and power purchase agreements.
The document discusses Deimos' involvement in the co-design of Earth observation (EO) exploitation platforms. It highlights several EU-funded projects including SenSyF, Co-ReSyF, NextGEOSS, and BETTER that involve the development of EO pilot services and applications. Deimos works closely with users and communities to integrate pilot activities within interoperable exploitation platforms, providing access to EO data and tools.
The Wilton E. Scott Institute for Energy Innovation at Carnegie Mellon Univer...Amanda Finkenbinder, MPM
The Wilton E. Scott Institute for Energy Innovation works through the academic units of Carnegie Mellon University to find solutions for the nation's and the world's energy challenges including pathways to a low carbon future, smart grid, new materials for energy, shale gas, and building energy efficiency through research, strategic partnerships, public policy outreach and education
The Wilton E. Scott Institute for Energy Innovation at Carnegie Mellon Univer...Amanda Finkenbinder, MPM
The Wilton E. Scott Institute for Energy Innovation works through the academic units of Carnegie Mellon University to find solutions for the nation's and the world's energy challenges including pathways to a low carbon future, smart grid, new materials for energy, shale gas, and building energy efficiency through research, strategic partnerships, public policy outreach and education.
At the Asia Clean Energy Forum 2016 Ricardo Energy & Environment’s waste management and resource efficiency experts discussed a range of critical issues, including financial, institutional, policy, regulatory, engineering, environmental and social issues around the planning for and delivery of appropriate and effective waste to energy infrastructure in developing economies.
In this presentation Phil White discusses the revenues and costs of waste to energy.
Energy Show 2022 - Opportunities and Challenges to Upgrades in the Commercial...SustainableEnergyAut
The Government's plan to address Climate change includes ambitious targets. This session will focus particularly on the targets relating to the retrofit non-domestic buildings. It will discuss some of the challenges and opportunities to meet these goals.
Discussions will be around a holistic approach to retrofitting of buildings, bringing the reduction in energy requirements to the fore.
Speakers will cover some of the main pressing questions faced by those designing and managing non-domestic buildings in today’s current climate. All speakers have extensive experience in their particular topic and have worked for many years within the construction industry.
The sub-topics included within this session are outlined below:
Challenges to Commercial Retrofit Ventilation Energy efficiency & Covid
Façade Upgrades and Carbon Reduction in Commercial Retrofit
Benefits of Building Digitalisation & Optimisation.
This session will be both practical and relevant for anyone designing, constructing and supplying these projects.
This document outlines the Green Up project, which aims to develop an online pavement rehabilitation strategy selection tool. The tool will allow designers to visually compare rehabilitation alternatives and assess them based on criteria like material use, environmental impact, surface properties, and life extension. It will provide an educational component with information and links to additional resources. A project team led by Dragos Andrei will finalize the framework with industry input and develop an online app to launch in May 2019. The app will help designers select more sustainable rehabilitation strategies.
The Wilton E. Scott Institute for Energy Innovation works through the academic units of Carnegie Mellon University to find solutions for the nation’s and world’s energy challenges through research, strategic partnerships, public policy outreach and education.
Conferencia de Ignacio Martí, Director Técnico de ORE CATAPULT y Chairman del...Leire Agüero Suárez
Conferencia: “Energías Renovables Marinas: Retos y oportunidades”, a cargo de Ignacio Martí, Director Técnico de ORE CATAPULT y Chairman del capítulo de Energía Eólica de la Agencia Internacional de la Energía.
TECNALIA #Perspectives2016 “Industria y Tecnología: Las oportunidades de la energía en el mar” es el título del evento que contó con la participación de Ignacio Martí, Director Técnico de ORE CATAPULT y Chairman del capítulo de Energía Eólica de la Agencia Internacional de la Energía.
También contamos con una mesa redonda de lujo de la mano de expertos de ORE CATAPULT, ADWEN, BIMEP, IBERDROLA, NAUTILUS, SINTEF, VICINAY, e investigadores de TECNALIA. Con ellos pudimos adentrarnos en las oportunidades de negocio que se derivan de la Energía en el Mar y las claves del impacto que esta tendrá en nuestro tejido empresarial.
Más información en http://www.tecnalia.com
Dr Callum Rae - A New Approach to Energy Centre Design
http://www.ktpscotland.org.uk/ViewArticle/tabid/4421/articleType/ArticleView/articleId/10338/Callum-Rae--Hurley-Palmer-Flatt.aspx
The document describes a 10 year research program in the Netherlands called CATO and CATO-2 that investigated carbon capture and storage (CCS) technologies across the full CCS chain. The programs included applied and fundamental research, involved over 40 partners from industry, academia, and government, and had a budget of around 65 million Euros. Some key areas of research included developing lower-cost CO2 capture technologies, chemical looping combustion, post-combustion capture, CO2 transportation and storage, and monitoring technologies. The research programs helped advance CCS technologies and build expertise in the Netherlands toward the goal of implementing large-scale CCS demonstration projects.
Apec workshop 2 presentation 8 3 vegar apec workshop 8 presentation v4 3.ppt...Global CCS Institute
- Technology Centre Mongstad is the world's largest test centre for carbon capture and storage (CCS) located in Norway.
- It has gained extensive operational experience from testing two post-combustion carbon capture technologies, amine scrubbing and chilled ammonia, capturing CO2 from flue gases of a gas-fired power plant and refinery.
- The centre aims to demonstrate technologies, reduce costs and risks of full-scale CCS projects through testing, and has welcomed over 5,000 visitors to share knowledge on carbon capture.
1) The document discusses a proposed CCS project called the Don Valley Power Project (DVPP) in the UK. It analyzes the business case for DVPP and identifies key factors for making CCS projects commercially viable such as government support mechanisms, carbon pricing, and using CO2 for enhanced oil recovery.
2) DVPP's plan was to use CO2 from a proposed coal power plant for EOR in the North Sea, with the revenue from EOR covering storage costs. However, DVPP was unsuccessful in obtaining a UK capital grant and the high capital costs remain a challenge.
3) For CCS to succeed, the document emphasizes that future projects must reduce costs, secure diverse sources
How to assess PV technical risks and ensure your project is bankableSolarbabaGlobal
The document discusses key risks in photovoltaic projects and how to ensure bankability and performance. It identifies top risks such as inaccurate energy assessments, module underperformance, equipment failures, improper structural design, and incomplete commissioning. It provides recommendations to mitigate these risks, including on-site measurements, statistical batch testing, stringent qualification testing, thorough structural analysis accounting for dynamic wind loads, and exhaustive commissioning procedures. The overall aim is to capture performance issues early and provide investors confidence through robust planning, execution, and oversight.
The Sustainable Development Technology Canada (SDTC) aims to build a sustainable development technology infrastructure in Canada. It provides funding to clean technology projects in the development and demonstration phases to help de-risk technologies for private sector investment. SDTC has approved 75 projects totaling $169 million in funding that is expected to leverage $446 million from project partners and reduce emissions by 12.5 million tonnes annually by 2010.
George Booras, EPRI - Power plant capture case studies - IntroductionGlobal CCS Institute
This document summarizes a presentation on cost estimates for carbon capture and storage (CCS) applications in power plants. It discusses challenges in estimating costs for retrofitting CCS to existing power plants. It also emphasizes that research and development are critical to driving down costs and enabling the learning-by-doing necessary for CCS technologies to be deployed at large scale. Sharing lessons learned from early CCS projects is important for the long-term success of carbon capture.
This document outlines a roadmap for gas research developed by DVGW Innovation Research Gas. It identifies key areas of focus for research including renewable gases produced from biogas and power-to-gas technologies. The roadmap was created based on an assessment of political, social and technology trends and aims to position gas as a partner in the energy transition. It establishes strategic objectives and identifies 19 technology areas for further research and development to advance solutions that increase efficiency, expand renewable gas production, and open new markets for gas.
Offshore Wind Energy: Improving Project Development and Supply Chain Processe...Stavros Thomas
This project scopes to investigate, analyze and implement lean technologies and methods to improve project
development efficiency and provide cost reductions in offshore wind energy investments. Logically all products
and services in the wind power industry involve a supply chain structure. Some of these upstream entities
and activities located inside this multi-directional framework are completely independent-autonomous of one
another while some are interrelated. This process through manufacturing, distribution, installation and operation
creates waste in terms of process time, cost and quality of service. Lean principles-when implemented-work
together to identify, mitigate or even eliminate the waste produced during the life-cycle of a wind power project
and simplify the processes with the highest value and quality. Through a complete lifecycle analysis and under
the plethora of the integrated supply chain processes, this project focuses on developing innovative solutions
and procedures to optimise offshore wind plants installation, operation and maintenance (O&M) as well as
decommissioning-repowering. Finally a set of tools and methodologies to remove supply chain bottlenecks,
address the associated transport, logistics and equipment challenges and improve project management are also
presented. It has been shown that the wastes such as inventory costs and defects have been reduced which
improves the overall project feasibility.
Keywords
offshore wind — supply chain — lean management — portfolio management — project development
This document outlines funding opportunities for energy research and innovation under the Horizon 2020 program. It discusses 14 specific calls related to competitive low-carbon energy, smart cities and communities, energy storage, sustainable biofuels, enabling decarbonization of fossil fuels, and modernizing the European electricity grid. Each call is described in 1-2 paragraphs covering its goals, challenges, funding amount, and technology readiness levels targeted.
At the Asia Clean Energy Forum 2016 Ricardo Energy & Environment’s waste management and resource efficiency experts discussed a range of critical issues, including financial, institutional, policy, regulatory, engineering, environmental and social issues around the planning for and delivery of appropriate and effective waste to energy infrastructure in developing economies.
In this presentation Tim Fill discusses infrastructure and service delivery and power purchase agreements.
The document discusses Deimos' involvement in the co-design of Earth observation (EO) exploitation platforms. It highlights several EU-funded projects including SenSyF, Co-ReSyF, NextGEOSS, and BETTER that involve the development of EO pilot services and applications. Deimos works closely with users and communities to integrate pilot activities within interoperable exploitation platforms, providing access to EO data and tools.
The Wilton E. Scott Institute for Energy Innovation at Carnegie Mellon Univer...Amanda Finkenbinder, MPM
The Wilton E. Scott Institute for Energy Innovation works through the academic units of Carnegie Mellon University to find solutions for the nation's and the world's energy challenges including pathways to a low carbon future, smart grid, new materials for energy, shale gas, and building energy efficiency through research, strategic partnerships, public policy outreach and education
The Wilton E. Scott Institute for Energy Innovation at Carnegie Mellon Univer...Amanda Finkenbinder, MPM
The Wilton E. Scott Institute for Energy Innovation works through the academic units of Carnegie Mellon University to find solutions for the nation's and the world's energy challenges including pathways to a low carbon future, smart grid, new materials for energy, shale gas, and building energy efficiency through research, strategic partnerships, public policy outreach and education.
At the Asia Clean Energy Forum 2016 Ricardo Energy & Environment’s waste management and resource efficiency experts discussed a range of critical issues, including financial, institutional, policy, regulatory, engineering, environmental and social issues around the planning for and delivery of appropriate and effective waste to energy infrastructure in developing economies.
In this presentation Phil White discusses the revenues and costs of waste to energy.
Energy Show 2022 - Opportunities and Challenges to Upgrades in the Commercial...SustainableEnergyAut
The Government's plan to address Climate change includes ambitious targets. This session will focus particularly on the targets relating to the retrofit non-domestic buildings. It will discuss some of the challenges and opportunities to meet these goals.
Discussions will be around a holistic approach to retrofitting of buildings, bringing the reduction in energy requirements to the fore.
Speakers will cover some of the main pressing questions faced by those designing and managing non-domestic buildings in today’s current climate. All speakers have extensive experience in their particular topic and have worked for many years within the construction industry.
The sub-topics included within this session are outlined below:
Challenges to Commercial Retrofit Ventilation Energy efficiency & Covid
Façade Upgrades and Carbon Reduction in Commercial Retrofit
Benefits of Building Digitalisation & Optimisation.
This session will be both practical and relevant for anyone designing, constructing and supplying these projects.
This document outlines the Green Up project, which aims to develop an online pavement rehabilitation strategy selection tool. The tool will allow designers to visually compare rehabilitation alternatives and assess them based on criteria like material use, environmental impact, surface properties, and life extension. It will provide an educational component with information and links to additional resources. A project team led by Dragos Andrei will finalize the framework with industry input and develop an online app to launch in May 2019. The app will help designers select more sustainable rehabilitation strategies.
The Wilton E. Scott Institute for Energy Innovation works through the academic units of Carnegie Mellon University to find solutions for the nation’s and world’s energy challenges through research, strategic partnerships, public policy outreach and education.
Conferencia de Ignacio Martí, Director Técnico de ORE CATAPULT y Chairman del...Leire Agüero Suárez
Conferencia: “Energías Renovables Marinas: Retos y oportunidades”, a cargo de Ignacio Martí, Director Técnico de ORE CATAPULT y Chairman del capítulo de Energía Eólica de la Agencia Internacional de la Energía.
TECNALIA #Perspectives2016 “Industria y Tecnología: Las oportunidades de la energía en el mar” es el título del evento que contó con la participación de Ignacio Martí, Director Técnico de ORE CATAPULT y Chairman del capítulo de Energía Eólica de la Agencia Internacional de la Energía.
También contamos con una mesa redonda de lujo de la mano de expertos de ORE CATAPULT, ADWEN, BIMEP, IBERDROLA, NAUTILUS, SINTEF, VICINAY, e investigadores de TECNALIA. Con ellos pudimos adentrarnos en las oportunidades de negocio que se derivan de la Energía en el Mar y las claves del impacto que esta tendrá en nuestro tejido empresarial.
Más información en http://www.tecnalia.com
Dr Callum Rae - A New Approach to Energy Centre Design
http://www.ktpscotland.org.uk/ViewArticle/tabid/4421/articleType/ArticleView/articleId/10338/Callum-Rae--Hurley-Palmer-Flatt.aspx
Dr Callum Rae - A New Approach to Energy Centre Design
Similar to CMS’s Impact – Driven Collaboration Model Addressing Industrial GHGs, Richard Adamson (Managing Director, Carbon Management Canada) UK/Norway/Canada Meeting 18/19 March 2015
The document describes a 10 year research program in the Netherlands called CATO and CATO-2 that investigated carbon capture and storage (CCS) technologies across the full CCS chain. The programs included applied and fundamental research, involved over 40 partners from industry, academia, and government, and had a budget of around 65 million Euros. Some key areas of research included developing lower-cost CO2 capture technologies, chemical looping combustion, post-combustion capture, CO2 transportation and storage, and monitoring technologies. The research programs helped advance CCS technologies and build expertise in the Netherlands toward the goal of implementing large-scale CCS demonstration projects.
Apec workshop 2 presentation 8 3 vegar apec workshop 8 presentation v4 3.ppt...Global CCS Institute
- Technology Centre Mongstad is the world's largest test centre for carbon capture and storage (CCS) located in Norway.
- It has gained extensive operational experience from testing two post-combustion carbon capture technologies, amine scrubbing and chilled ammonia, capturing CO2 from flue gases of a gas-fired power plant and refinery.
- The centre aims to demonstrate technologies, reduce costs and risks of full-scale CCS projects through testing, and has welcomed over 5,000 visitors to share knowledge on carbon capture.
SEAI Energy Show 2022 - Leveraging research to decarbonise the industrial and...SustainableEnergyAut
Ireland's energy system is transforming. At the heart of this, innovative solutions are being developed. These solutions will deliver cleaner energy for our homes, businesses and communities.
Research has a critical role to play in overcoming emerging energy markets. And this session will focus on researchers in industry and academia. Their projects will foster knowledge and innovation in the Irish Marketplace.
Speakers will cover their competitive energy-related products, processes, and systems. They will discuss real-world examples of research informing solutions. And show how businesses can keep their competitiveness on their journey to decarbonisation.
Webinar: Global Status of CCS: 2014 - Powering ahead in The AmericasGlobal CCS Institute
Dr Elizabeth Burton, the Global CCS Institute’s General Manager – The Americas, provided an overview of the status of CCS projects worldwide with a focus on developments in the Americas, including the launch of Boundary Dam, the world’s first large-scale power plant with CCS. The global and regional policy landscape, developments in CCS/CCUS technologies, and recommendations for decision makers to advance the development and deployment of CCS/CCUS were also discussed.
The webinar was based on the findings in the Institute’s Global Status of CCS: 2014 report. It was designed for individuals interested and involved in the development and deployment of CCS/CCUS in the Americas, including technology, policy and regulation, and capacity development.
Norway – a leading role in CCS developmentGassnova SF
GASSNOVA HAS A MAJOR AND
VERY DEMANDING MANDATE,
given to us by the nation of Norway: We are to help provide solutions
for CO2 capture and storage (CCS), so that humanity does not make
this world uninhabitable for coming generations.
The National Transport Authority is taking actions to decarbonize public transport in Ireland through strategies, funding, and infrastructure projects. This includes electrifying rail services, investing in light rail and bus projects, and transitioning bus fleets to lower emission vehicles like electric and hybrid buses. The goal is to support a 51% reduction in transport emissions by 2030 while enabling more sustainable travel options. Challenges remain in fully closing the emissions gap, and demand management may be needed through policies like congestion charges.
The Scott Institute for Energy Innovation works through the academic units of Carnegie Mellon University to find solutions for the nation's and the world's energy challenges including pathways to a low carbon future, smart grid, new materials for energy, shale gas, and building energy efficiency through research, strategic partnerships, public policy outreach and education.
The document provides information on Sinclair Knight Merz (SKM), a global engineering consultancy firm that provides strategic consulting, engineering, and project delivery services. SKM has over 7,000 employees working across various industry sectors from over 40 offices worldwide. The document highlights some of SKM's capabilities and services they provide for higher education clients, including strategic master planning, transport planning, engineering design, sustainability consulting, and project delivery. It provides examples of projects SKM has worked on for universities focusing on areas like engineering design of buildings, developing renewable energy and transport strategies, and helping institutions optimize their real estate portfolios.
Scott Meakin, Manager, Corporate Responsibility, Canadian Association of Petroleum Producers, spoke at the CEC Joint Public Advisory Committee's Greening North America's Energy Economy public forum in Calgary on April 25, 2013. More at: http://cec.org/jpacenergy
Decarbonisation Futures: Innovation Pathways to Net Zero EmissionsIEA-ETSAP
The document summarizes a presentation by ClimateWorks Australia on innovation scenarios for achieving net zero emissions. It discusses ClimateWorks' mission to advise on accelerating the transition to net zero emissions through research and action. Three key drivers for decarbonization are identified: technology improvements, policy shifts, and societal changes. The presentation outlines ClimateWorks' scenario analysis approach, which models pathways to meet temperature goals based on varying levels of influence from the three drivers. Disruptive technologies across sectors that could significantly impact decarbonization pathways are also assessed.
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.
CCS technology development Norway - key activities - learnings – way forwardGassnova SF
GASSNOVA HAS A MAJOR AND
VERY DEMANDING MANDATE,
given to us by the nation of Norway: We are to help provide solutions
for CO2 capture and storage (CCS), so that humanity does not make
this world uninhabitable for coming generations.
Update on CCS Activities in Canada and Possible Topics for European Collaboration, Kathryn Gagnon (Policy Advisor, Natural Resources Canada) UK/Norway/Canada Meeting 18/19 March 2015
Webinar: CCS major project development lessons from the ZeroGen experienceGlobal CCS Institute
The ZeroGen Integrated Gasification Combined Cycle (IGCC) with CCS project, was a first-of-a-kind, commercial-scale CCS project proposal in Australia. Lessons learnt from this project include real-life project management experience integrating the key elements of a large-scale CCS project, from the technical to the commercial to stakeholder management.
This webinar was presented by Professor Andrew Garnett, Director, Centre for Coal Seam Gas, The University of Queensland. The Q&A session also included Martin Oettinger, Deputy Director, Low Emissions Technology for ACALET. Martin's career includes 6 years in a senior technical leadership role with ZeroGen.
Presentation about Climate-KIC and its regional dimension at the Best4VarioUse Final Conference during the Green Week 2012. 23 May 2012 Brussels.
Similar to CMS’s Impact – Driven Collaboration Model Addressing Industrial GHGs, Richard Adamson (Managing Director, Carbon Management Canada) UK/Norway/Canada Meeting 18/19 March 2015 (20)
CCUS Roadmap for Mexico - presentation by M. Vita Peralta Martínez (IIE - Electric Research Institute, Mexico) for the UKCCSRC, Edinburgh, 13 November 2015
Advances in Rock Physics Modelling and Improved Estimation of CO2 Saturation, Giorgos Papageorgiou - Geophysical Modelling for CO2 Storage, Leeds, 3 November 2015
Numerical Modelling of Fracture Growth and Caprock Integrity During CO2 Injection, Adriana Paluszny - Geophysical Modelling for CO2 Storage, Leeds, 3 November 2015
1) The document discusses assessing uncertainty in time-lapse seismic response due to geomechanical deformation.
2) It presents a multi-physics solution that couples fluid flow and geomechanics modeling to better understand stress changes over time.
3) An example application to the Valhall oil field models pore pressure changes and resulting geomechanical effects, partitioning the domain for parallel modeling of the overburden, reservoir, and underburden.
Modelling Fault Reactivation, Induced Seismicity, and Leakage During Underground CO2 Injection, Jonny Rutquvist - Geophysical Modelling for CO2 Storage, Leeds, 3 November 2015
Pore scale dynamics and the interpretation of flow processes - Martin Blunt, Imperial College London, at UKCCSRC specialist meeting Flow and Transport for CO2 Storage, 29-30 October 2015
Passive seismic monitoring for CO2 storage sites - Anna Stork, University of Bristol at UKCCSRC specialist meeting Geophysical modelling for CO2 storage, monitoring and appraisal, 3 November 2015
Multiphase flow modelling of calcite dissolution patterns from core scale to reservoir scale - Jeroen Snippe, Shell, at UKCCSRC specialist meeting Flow and Transport for CO2 Storage, 29-30 October 2015
Long term safety of geological co2 storage: lessons from Bravo Dome Natural CO2 reservoir - Marc Hesse, University of Texas at Austin, at UKCCSRC specialist meeting Flow and Transport for CO2 Storage, 29-30 October 2015
This document discusses an industrial CCS project on Teesside involving BOC Teesside Hydrogen, ICCS Teesside, and the Teesside Collective 2030. It notes an 8-year relationship with Progressive Energy and leadership from the Teesside Collective. Research challenges include determining the appropriate technology, whether to use a pilot plant or full scale, linking with key industries, supporting cost-effective solutions, and driving down costs over time.
This document summarizes a presentation on the Teesside Collective Industrial CCS Project in the UK. It discusses:
1) The project objectives to capture, transport, and store 2.8 million tonnes of CO2 per year from multiple industrial sources.
2) The required infrastructure including capture facilities, gathering pipelines, boosting stations, offshore transportation, and storage.
3) Insights on the challenges of estimating costs and developing a business case for a project with variable CO2 sources across different industries.
4) Key research challenges around reducing costs, appraising storage options, acceptable financial support mechanisms, and gaining public acceptance of CCS.
The document summarizes funding opportunities for carbon capture and storage (CCS) projects under the Horizon 2020 Energy program. It outlines two CCS-related topics for 2016 with a total budget of €27M: international cooperation with South Korea on improved capture processes, and utilizing captured CO2 as feedstock. It also mentions an expected CCS funding call in 2016 under the ERANET Cofund mechanism. Additional details are provided on Horizon 2020, Research and Innovation Actions, and contact information for assistance.
Research Coordination Network on Carbon Capture, Utilization and Storage Funded by National Science Foundation in USA - A.-H. Alissa Park, Columbia University - UKCCSRC Strathclyde Biannual 8-9 September 2015
Computational Modelling and Optimisation of Carbon Capture Reactors, Daniel Sebastiá Sáez, Cranfield University - UKCCSRC Strathclyde Biannual 8-9 September 2015
Effective Adsorbents for Establishing Solids Looping as a Next Generation NG PCC Technology, Hao Liu, University of Nottingham - UKCCSRC Strathclyde Biannual 8-9 September 2015
More from UK Carbon Capture and Storage Research Centre (20)
Electric vehicle and photovoltaic advanced roles in enhancing the financial p...IJECEIAES
Climate change's impact on the planet forced the United Nations and governments to promote green energies and electric transportation. The deployments of photovoltaic (PV) and electric vehicle (EV) systems gained stronger momentum due to their numerous advantages over fossil fuel types. The advantages go beyond sustainability to reach financial support and stability. The work in this paper introduces the hybrid system between PV and EV to support industrial and commercial plants. This paper covers the theoretical framework of the proposed hybrid system including the required equation to complete the cost analysis when PV and EV are present. In addition, the proposed design diagram which sets the priorities and requirements of the system is presented. The proposed approach allows setup to advance their power stability, especially during power outages. The presented information supports researchers and plant owners to complete the necessary analysis while promoting the deployment of clean energy. The result of a case study that represents a dairy milk farmer supports the theoretical works and highlights its advanced benefits to existing plants. The short return on investment of the proposed approach supports the paper's novelty approach for the sustainable electrical system. In addition, the proposed system allows for an isolated power setup without the need for a transmission line which enhances the safety of the electrical network
Use PyCharm for remote debugging of WSL on a Windo cf5c162d672e4e58b4dde5d797...shadow0702a
This document serves as a comprehensive step-by-step guide on how to effectively use PyCharm for remote debugging of the Windows Subsystem for Linux (WSL) on a local Windows machine. It meticulously outlines several critical steps in the process, starting with the crucial task of enabling permissions, followed by the installation and configuration of WSL.
The guide then proceeds to explain how to set up the SSH service within the WSL environment, an integral part of the process. Alongside this, it also provides detailed instructions on how to modify the inbound rules of the Windows firewall to facilitate the process, ensuring that there are no connectivity issues that could potentially hinder the debugging process.
The document further emphasizes on the importance of checking the connection between the Windows and WSL environments, providing instructions on how to ensure that the connection is optimal and ready for remote debugging.
It also offers an in-depth guide on how to configure the WSL interpreter and files within the PyCharm environment. This is essential for ensuring that the debugging process is set up correctly and that the program can be run effectively within the WSL terminal.
Additionally, the document provides guidance on how to set up breakpoints for debugging, a fundamental aspect of the debugging process which allows the developer to stop the execution of their code at certain points and inspect their program at those stages.
Finally, the document concludes by providing a link to a reference blog. This blog offers additional information and guidance on configuring the remote Python interpreter in PyCharm, providing the reader with a well-rounded understanding of the process.
Optimizing Gradle Builds - Gradle DPE Tour Berlin 2024Sinan KOZAK
Sinan from the Delivery Hero mobile infrastructure engineering team shares a deep dive into performance acceleration with Gradle build cache optimizations. Sinan shares their journey into solving complex build-cache problems that affect Gradle builds. By understanding the challenges and solutions found in our journey, we aim to demonstrate the possibilities for faster builds. The case study reveals how overlapping outputs and cache misconfigurations led to significant increases in build times, especially as the project scaled up with numerous modules using Paparazzi tests. The journey from diagnosing to defeating cache issues offers invaluable lessons on maintaining cache integrity without sacrificing functionality.
Prediction of Electrical Energy Efficiency Using Information on Consumer's Ac...PriyankaKilaniya
Energy efficiency has been important since the latter part of the last century. The main object of this survey is to determine the energy efficiency knowledge among consumers. Two separate districts in Bangladesh are selected to conduct the survey on households and showrooms about the energy and seller also. The survey uses the data to find some regression equations from which it is easy to predict energy efficiency knowledge. The data is analyzed and calculated based on five important criteria. The initial target was to find some factors that help predict a person's energy efficiency knowledge. From the survey, it is found that the energy efficiency awareness among the people of our country is very low. Relationships between household energy use behaviors are estimated using a unique dataset of about 40 households and 20 showrooms in Bangladesh's Chapainawabganj and Bagerhat districts. Knowledge of energy consumption and energy efficiency technology options is found to be associated with household use of energy conservation practices. Household characteristics also influence household energy use behavior. Younger household cohorts are more likely to adopt energy-efficient technologies and energy conservation practices and place primary importance on energy saving for environmental reasons. Education also influences attitudes toward energy conservation in Bangladesh. Low-education households indicate they primarily save electricity for the environment while high-education households indicate they are motivated by environmental concerns.
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Introduction- e - waste – definition - sources of e-waste– hazardous substances in e-waste - effects of e-waste on environment and human health- need for e-waste management– e-waste handling rules - waste minimization techniques for managing e-waste – recycling of e-waste - disposal treatment methods of e- waste – mechanism of extraction of precious metal from leaching solution-global Scenario of E-waste – E-waste in India- case studies.
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https://www.leewayhertz.com/generative-ai-use-cases-and-applications/
3. WE’RE ALL IN THIS TOGETHER
Atmospheric carbon is a global challenge.
Climate consequences will affect everyone.
As priority escalates world-wide, reducing industrial emissions intensity will be
decisive for access and competitiveness in the market.
3
5. WHO IS CMC?
• Neutral, independent, Canadian, federally incorporated not-for-profit
– Not government - no policy conflicts
– Not industry - no commercial/IP interest
• Single mission: elimination of industrial greenhouse gas emissions
– Accelerate innovation through integration, adaptation, application development, pilot
testing, performance verification …
– Leverage point: rapid & cost-effective reduction of uncertainty
to enable earlier decision making
• Not an advocate – provide science-based options,
let others (“society”) decide
5
7. CMC takes technology from insights and concepts
to pilot-scale projects and field verification.
Adaptation, integration, translation, validation,
application development …
It’s R&D, with a heavy focus on the ‘D’.
Our adaptable, agile, “semi-virtual” business model allows us to activate
quickly and cast a wide net for available resources.
7
TAKE ME TO THE PILOT
9. IF YOU WANT TO GO FAST, GO ALONE.
IF YOU WANT TO GO FAR, GO TOGETHER.
Working together, CMC will bring global
capacity to help our clients go fast AND far.
9
10. INNOVATIVE
ELEMENTS
+
PROVEN
SYSTEMS
INDUSTRIAL
SOLUTIONS
CMC has built a network of the best
and brightest Canadian and
international researchers and partners.
This growing network is drawn from
engineering, geoscience,
nanotechnology, genetics, biology,
chemistry, business, policy and
economics.
10
15. 15
• Develop and validate performance of measurement, monitoring and
detection technologies for location & movement of subsurface fluids
• Develop geological CO2 & energy storage technologies
CONTAINMENT & MONITORING
INSTITUTE (CMC.CaMI)
16. 16
RESEARCH
• Don Lawton, Inst. Director
– ID has overall responsibility
– U of Calgary is Academic Host
Institution
– Collaborative research team is
CREWES & others (G360 etc.)
– Develop & validate:
• Instrumentation & methods
• Energy & CO2 storage
technologies
• Risk assessment, evaluation
& mitigation methods
DEVELOPMENT
• Kirk Osadetz, Technical Programs
Director
– Development of field scale
projects
– Scale-up & field testing programs
– Collaborations w. equipment
developers & service co’s
– Links to global development sites
& collaborators
CMC.CaMI ROLES
18. 18
• First well “spudded” 2015-02-26
• ¾ section of land
– Surface
– Subsurface to 750m+
• Injection zones
– 300m, 550m
• Monitoring
– Shallow aquifer
– Surface
– Injection zones
FIELD RESEARCH STATION
NEWELL COUNTRY
19. 19
CARBON CAPTURE/CONVERSION
INSTITUTE (CMC.CCCI)
• Develop, integrate, adapt, pilot and scale-up industrial process technologies
for GHG emissions mitigation
• Reduce cost of CO2 capture and convert to beneficial products
• Work with domestic & global researchers to convert bench/batch to
continuous processes
20. 20
CMC.CCCI ROLES
RESEARCH
• Sr. Research Director & Chair
in CCCI @ UBC
– Dr. Naoko Ellis (Acting)
– UBC is Academic Host
institution
– Develop & integrate early
stage technologies
– Prove at bench-scale
continuous
DEVELOPMENT
• Technology Commercialization &
Innovation Centre (TCIC)
– Inst. Director TBD
– Collaborative test & development
centre
– Linked to other test centres
(Canada/global)
23. 23
LOW CARBON PATHWAYS
GROUP (CMC.LCPG)
• Techno-economic modelling & scenarios development for policy,
regulatory & pathways development
• Targeting “deep decarbonization” pathways in Canada in globally
decarbonizing context
• Identification of potential trends and economic opportunities
associated with a climate-change-responsive world
24. 24
CMC.LCPG ROLES
RESEARCH
• Sr. Research Director (Acting)
– Dr. James Meadowcroft
– Carleton U is Academic
Host institution
(provisional)
DEVELOPMENT
• Development Director
– Dave Sawyer
• Deep Decarbonization Pathways
Project
– 16 countries
– UN-SDSN led
– Reporting to COP21
• Lead contractor
– Navius Research
25. REGIONAL ENERGY MAPPING
PROGRAM
• Regional
value
for
redeploying
waste
heat
• Mapping
quality
&
quanBty
• Building
trust
amongst
industrial
partners
to
anonymize
&
share
data
• Alberta’s
Industrial
Heartland
– 16
key
companies
– 300
MW
sensible
heat
– 1/3
economically
recoverable
– Est.
151,000
tonnes
CO2/
year
reducBon
25
hTp://cmcghg.com/media-‐release/
26. EXTERNAL PROGRAMS
26
• Low Carbon Innovation Alliance (LCIA)
– AI-EES, AI-TF, CCEMC, CMC, COSIA, NRCan, SDTC
• COSIA
– Associate Member
• International outreach
– US: NETL (LBNL), Gulf Coast Carbon Center, Stanford Center for
Carbon Storage, U Kentucky Center for Applied Energy Research, etc.
– UK: UK CCSRC, SCCS, BGS
– Australia: CO2CRC
– Korea: KCRC
27. WHAT CAN CMC DO FOR
INTERNATIONAL PARTNERS?
• Connect promising research programs to Canadian industrial users &
commercial interests
• Connect promising Canadian industry needs or research programs to
international initiatives
• Coordinate collaborative research programs between academic &
government
• Convene & manage consortium-based projects/ proposals up to &
including pilot projects
27
28. ONGOING ACTIVITIES
• Canada/UK/Norway meetings
• Deep Decarbonization Pathways Project
• Shallow CO2 storage (Northern Alberta)
• Compressed air geological energy storage (“Katabasis”)
• Net-zero emissions power for Northern development
• Field testing at CMC.CaMI FRS#1
28
29. THE
LOW CARBON FUTURE
STARTS NOW.
We envision a leading global collaborative
network developing solutions to industrial GHG
emissions.
We anticipate industries known
for innovative low-carbon technologies.
We foresee low net carbon footprint products
welcomed in a carbon constrained world.
29