How to capturing CO2 from industrial emissions and storing it underground for recycle

 

Background

Carbon dioxide (CO2) is a greenhouse gas that is released into the atmosphere when fossil fuels are burned. CO2 is a major contributor to climate change, and it is important to find ways to reduce CO2 emissions.

One way to reduce CO2 emissions is to capture CO2 from industrial emissions and store it underground. This process is called carbon capture and storage (CCS). CCS has the potential to remove large amounts of CO2 from the atmosphere, and it is a promising technology for mitigating climate change.

Keywords

Carbon capture and storage (CCS)

Industrial emissions

Greenhouse gases

Climate change

Mitigation

Storage

Underground

Thesis

This thesis will explore the process of capturing CO2 from industrial emissions and storing it underground. The thesis will discuss the different technologies that are used for CCS, the challenges that need to be addressed in order to make CCS a viable option, and the potential benefits of CCS for mitigating climate change.

Outline

The thesis will be divided into the following sections:

Introduction

Background

Key concepts

Technologies

Challenges

Benefits

Conclusion

The thesis will conclude by discussing the future of CCS and the potential for this technology to play a role in mitigating climate change.

Significance

This thesis is significant because it provides a comprehensive overview of the process of capturing CO2 from industrial emissions and storing it underground. The thesis also discusses the challenges and benefits of CCS, and it provides an outlook for the future of this technology.

The thesis is expected to be of interest to a wide audience, including scientists, engineers, policymakers, and the general public. The thesis will provide an understanding of the potential of CCS to mitigate climate change, and it will help to inform the debate about the future of this technology.

 a list of public companies that are working to reduce or recycle CO2, sorted by year:

Year Company Initiative

2001 Air Products and Chemicals Begins capturing CO2 from industrial emissions and storing it underground.

2004 BASF Begins investing in renewable energy projects.

2007 Climeworks Founded to develop technology to capture CO2 from the air.

2009 Carbon Engineering Founded to develop technology to capture CO2 from the air.

2012 Newlight Technologies Founded to develop technology to convert CO2 into biopolymers.

2015 Coca-Cola Commits to reducing its greenhouse gas emissions by 25% by 2030.

2016 Google Commits to using 100% renewable energy by 2025.

2017 Apple Commits to becoming carbon neutral by 2030.

2018 Microsoft Commits to using 100% renewable energy by 2025.

2019 Amazon Commits to becoming carbon neutral by 2040.

2020 IKEA Commits to becoming climate positive by 2030.

2021 Nestlé Commits to becoming carbon neutral by 2050.

This is just a small sample of the many public companies that are working to reduce or recycle CO2. As the climate crisis becomes more urgent, we can expect to see even more companies taking action to address this challenge.

 Q&A about public companies that are profiting from using CO2:

Q: How do public companies profit from using CO2?

A: There are a few ways that public companies profit from using CO2. These companies can:

Sell carbon credits: Companies that capture CO2 can sell carbon credits to businesses and organizations that need to offset their emissions.

Use CO2 to produce products: Some companies use CO2 to produce products, such as synthetic fuels and building materials.

Store CO2 underground: Companies that store CO2 underground can charge a fee for the service.

Q: What are the challenges facing public companies that are profiting from using CO2?

A: There are a few challenges facing public companies that are profiting from using CO2. These challenges include:

The cost of capturing and storing CO2: The cost of capturing and storing CO2 is still relatively high. This is a barrier to the widespread adoption of CCUS technologies.

The regulatory environment: The regulatory environment for CCUS technologies is still evolving. This can make it difficult for companies to plan and invest in CCUS projects.

Public acceptance: There is some public opposition to CCUS technologies. This is due to concerns about the safety of storing CO2 underground and the potential for environmental impacts.

Q: What is the future of public companies that are profiting from using CO2?

A: The future of public companies that are profiting from using CO2 is uncertain. However, there is potential for these companies to grow significantly in the coming years. This is due to the increasing demand for CCUS technologies as governments and businesses around the world take steps to reduce their emissions.

 Q&A about capturing CO2 from industrial emissions and storing it underground for recycle:

Q: What are the different technologies that can be used to capture CO2 from industrial emissions?

A: There are a number of different technologies that can be used to capture CO2 from industrial emissions. The most common technology is called post-combustion capture, which involves capturing CO2 after it has been released from a power plant or other industrial facility. Other technologies include pre-combustion capture, which involves capturing CO2 before it is burned, and oxyfuel combustion, which involves burning fuel with pure oxygen instead of air.

Q: What are the challenges and benefits of capturing CO2 from industrial emissions?

A: The main challenge with capture is that it is energy-intensive. This means that it requires a lot of energy to capture CO2, which can offset some of the benefits of CCS. However, the benefits of capture include the ability to remove large amounts of CO2 from the atmosphere, which can help to mitigate climate change and reduce the effects of global warming.

Q: What are the challenges and benefits of storing CO2 underground?

A: The main challenge with storage is that it is important to ensure that the CO2 will remain trapped underground for a long period of time. This is because if the CO2 leaks out, it could have a negative impact on the environment. However, the benefits of storage include the ability to remove CO2 from the atmosphere and store it in a safe and secure manner.

Q: What are the challenges and benefits of recycling CO2?

A: The main challenge with recycle is that it is not yet a mature technology. This means that it is not yet clear how efficient and cost-effective it will be to recycle CO2 on a large scale. However, the benefits of recycle include the ability to use CO2 as a valuable resource. This could help to reduce the need for fossil fuels and contribute to a more sustainable future.

Q: What is the future of capturing CO2 from industrial emissions and storing it underground for recycle?

A: The future of CCS is uncertain. However, there is potential for this technology to play a role in mitigating climate change. The cost of CCS is likely to decrease as the technology matures, and the environmental impacts of CCS are likely to be better understood. As a result, CCS could become a more attractive option for reducing CO2 emissions in the future.

a quadrant about how to capture CO2 from industrial emissions and storing it underground for recycle:

Quadrant 1: Capture

Technology: There are a number of different technologies that can be used to capture CO2 from industrial emissions. The most common technology is called post-combustion capture, which involves capturing CO2 after it has been released from a power plant or other industrial facility.

Challenges: The main challenge with capture is that it is energy-intensive. This means that it requires a lot of energy to capture CO2, which can offset some of the benefits of CCS.

Benefits: The main benefit of capture is that it can remove large amounts of CO2 from the atmosphere. This can help to mitigate climate change and reduce the effects of global warming.

Quadrant 2: Transport

Technology: Once CO2 has been captured, it needs to be transported to a storage site. The most common way to transport CO2 is by pipeline.

Challenges: The main challenge with transport is that it can be expensive. This is because pipelines need to be built and maintained, and the cost of transporting CO2 can be high.

Benefits: The main benefit of transport is that it allows CO2 to be stored in remote locations where it will not have a negative impact on the environment.

Quadrant 3: Storage

Technology: There are a number of different technologies that can be used to store CO2 underground. The most common technology is called geological storage, which involves injecting CO2 into deep underground formations, such as depleted oil and gas reservoirs.

Challenges: The main challenge with storage is that it is important to ensure that the CO2 will remain trapped underground for a long period of time. This is because if the CO2 leaks out, it could have a negative impact on the environment.

Benefits: The main benefit of storage is that it allows CO2 to be removed from the atmosphere and stored in a safe and secure manner.

Quadrant 4: Recycle

Technology: There are a number of different technologies that can be used to recycle CO2. One example is using CO2 to produce synthetic fuels.

Challenges: The main challenge with recycle is that it is not yet a mature technology. This means that it is not yet clear how efficient and cost-effective it will be to recycle CO2 on a large scale.

Benefits: The main benefit of recycle is that it could provide a way to use CO2 as a valuable resource. This could help to reduce the need for fossil fuels and contribute to a more sustainable future.

This is just a brief overview of the process of capturing CO2 from industrial emissions and storing it underground for recycle. There are a number of other factors that need to be considered, such as the cost of CCS, the environmental impacts, and the regulatory framework. However, the quadrant above provides a good starting point for understanding this complex process.

Here are some countries that are capturing carbon dioxide from coal power plants and using it to produce synthetic fuels:

Australia: The Australian government is funding a project to capture carbon dioxide from coal power plants and use it to produce synthetic fuels. The project is called the Carbon Capture and Storage Hubs Program, and it is expected to capture up to 10 million tonnes of carbon dioxide per year.

Australia flagOpens in a new window

id.wikipedia.org

Australia flag

China: China is a major player in the coal industry, and it is also a major investor in carbon capture and storage technology. The Chinese government is funding a number of projects to capture carbon dioxide from coal power plants and use it to produce synthetic fuels.

China flagOpens in a new window

www.britannica.com

China flag

Germany: Germany is a leading country in renewable energy, but it still relies on coal for a significant portion of its electricity generation. The German government is funding a project to capture carbon dioxide from coal power plants and use it to produce synthetic fuels. The project is called the CUTEC project, and it is expected to capture up to 1 million tonnes of carbon dioxide per year.

Germany flagOpens in a new window

en.wikipedia.org

Germany flag

Japan: Japan is another country that is investing in carbon capture and storage technology. The Japanese government is funding a project to capture carbon dioxide from coal power plants and use it to produce synthetic fuels. The project is called the JERA CCS project, and it is expected to capture up to 2 million tonnes of carbon dioxide per year.

Japan flagOpens in a new window

en.wikipedia.org

Japan flag

Norway: Norway is a major producer of oil and gas, and it is also a leading country in carbon capture and storage technology. The Norwegian government is funding a project to capture carbon dioxide from coal power plants and use it to produce synthetic fuels. The project is called the Northern Lights project, and it is expected to capture up to 1.5 million tonnes of carbon dioxide per year.

Norway flagOpens in a new window

www.britannica.com

Norway flag

These are just a few examples of countries that are capturing carbon dioxide from coal power plants and using it to produce synthetic fuels. There are many other countries that are working on this issue, and it is an area of active research and development.

It is important to note that these technologies are still in development, and they are not yet widely used. However, they have the potential to play a significant role in reducing the emissions of carbon dioxide from coal power plants.

The use of carbon dioxide to produce synthetic fuels is a complex issue, and there are a number of challenges that need to be addressed. These challenges include the cost of the technology, the efficiency of the technology, and the environmental impact of the technology.

Despite the challenges, the use of carbon dioxide to produce synthetic fuels is a promising technology that has the potential to make a significant contribution in reducing greenhouse gas emissions.

There are a few public companies that are profiting from using CO2. These companies are involved in the capture, utilization, and storage (CCUS) of CO2, which is a process that removes CO2 from the atmosphere and stores it underground.

Some of the public companies that are profiting from using CO2 include:

Climeworks (SWX:CLIM) is a Swiss company that captures CO2 from the air and converts it into mineral carbonates.

Climeworks (SWX:CLIM) company logoOpens in a new window

climeworks.com

Climeworks (SWX:CLIM) company logo

Carbon Engineering is a Canadian company that captures CO2 from the air and uses it to produce synthetic fuels.

Carbon Engineering company logoOpens in a new window

carbonengineering.com

Carbon Engineering company logo

Global Thermostat is an American company that captures CO2 from power plants and industrial facilities.

Global Thermostat company logoOpens in a new window

www.prnewswire.com

Global Thermostat company logo

Quest for Carbon Capture and Storage is an American company that captures CO2 from power plants and stores it underground.

Quest for Carbon Capture and Storage company logoOpens in a new window

www.theguardian.com

Quest for Carbon Capture and Storage company logo

These companies are still in the early stages of development, but they have the potential to make a significant impact on the fight against climate change. As the demand for CCUS technologies grows, these companies are likely to see their profits increase.

It is important to note that there are also a number of private companies that are involved in the CCUS industry. These companies are not publicly traded, so it is difficult to track their profits. However, it is clear that the CCUS industry is growing, and it is likely to continue to grow in the coming years.

products that were made by recycled CO2:

AirCarbon is a carbon-negative plastic made by Newlight Technologies. The company uses a process called carbon capture and utilization (CCU) to convert captured CO2 into a biopolymer called PHB. PHB can be used to make a variety of products, including food packaging, textiles, and consumer goods.

AirCarbon product made with recycled CO2Opens in a new window

www.pbs.org

AirCarbon product made with recycled CO2

CarbonCure is a technology that uses CO2 to cure concrete. The process involves injecting CO2 into the concrete mix, which reacts with the cement to form calcium carbonate. This makes the concrete stronger and more durable.

CarbonCure product made with recycled CO2Opens in a new window

www.gasworld.com

CarbonCure product made with recycled CO2

CO2Crete is a cement substitute made from CO2 and water. The process involves combining CO2 with water in a reactor, which produces a solid material that can be used as a cement substitute. CO2Crete is still in the development stage, but it has the potential to be a more sustainable alternative to cement.

CO2Crete product made with recycled CO2Opens in a new window

www.carboncure.com

CO2Crete product made with recycled CO2

SodaStream is a home carbonation system that uses CO2 to carbonate water. The CO2 is captured from industrial emissions and then used to carbonate water at home. This helps to reduce the amount of CO2 that is released into the atmosphere.

SodaStream product made with recycled CO2Opens in a new window

www.tomra.com

SodaStream product made with recycled CO2

Renewable jet fuel is a type of jet fuel that is made from renewable sources, such as biomass or captured CO2. The CO2 is captured from industrial emissions or from the air, and then it is combined with hydrogen to create a fuel that can be used in jet engines. Renewable jet fuel is still in the development stage, but it has the potential to be a more sustainable alternative to traditional jet fuel.

Renewable jet fuel product made with recycled CO2Opens in a new window

www.challenge-zero.jp

Renewable jet fuel product made with recycled CO2

These are just a few examples of the many products that are being made from recycled CO2. As the technology continues to develop, we can expect to see even more products made from this sustainable material.

 public companies that are reducing or recycling CO2:

Air Products and Chemicals (NYSE: APD) is a global industrial gas company that is working to reduce its CO2 emissions. The company has a number of projects underway to capture and store CO2, and it is also investing in renewable energy projects.

Air Products and Chemicals (NYSE: APD) company logoOpens in a new window

www.pngwing.com

Air Products and Chemicals (NYSE: APD) company logo

BASF (ETR: BAS) is a German chemical company that is also working to reduce its CO2 emissions. The company has a number of projects underway to capture and store CO2, and it is also investing in renewable energy projects.

BASF (ETR: BAS) company logoOpens in a new window

www.basf.com

BASF (ETR: BAS) company logo

Climeworks (SWX: CLIM) is a Swiss company that is developing technology to capture CO2 from the air. The company has a number of projects underway, and it is also working to develop a commercial-scale CO2 removal plant.

Climeworks (SWX: CLIM) company logoOpens in a new window

climeworks.com

Climeworks (SWX: CLIM) company logo

Carbon Engineering is a Canadian company that is developing technology to capture CO2 from the air. The company has a pilot plant in operation, and it is working to develop a commercial-scale CO2 removal plant.

Carbon Engineering company logoOpens in a new window

carbonengineering.com

Carbon Engineering company logo

Newlight Technologies is an American company that is developing technology to convert CO2 into biopolymers. The company has a pilot plant in operation, and it is working to develop a commercial-scale biopolymer production facility.

Newlight Technologies company logoOpens in a new window

welldonefoundation.org

Newlight Technologies company logo

These are just a few examples of the many public companies that are working to reduce or recycle CO2. As the technology continues to develop, we can expect to see even more companies involved in this important work.

Here is a list of how to capturing CO2 from industrial emissions and storing it underground for recycle:

Capture: The first step is to capture the CO2 from industrial emissions. This can be done using a variety of technologies, such as post-combustion capture, pre-combustion capture, and oxyfuel combustion.

Transport: Once the CO2 has been captured, it needs to be transported to a storage site. The most common way to transport CO2 is by pipeline.

Storage: The CO2 is then stored underground in a geological formation, such as a depleted oil or gas reservoir.

Recycle: The CO2 can also be recycled to produce products, such as synthetic fuels or plastics.

Here are some of the challenges and benefits of each step:

Capture:

Challenges: The capture process can be energy-intensive, and the cost of capture can be high.

Benefits: The capture process can remove large amounts of CO2 from the atmosphere, which can help to mitigate climate change.

Transport:

Challenges: The transport of CO2 can be expensive, and there are risks of leaks during transportation.

Benefits: The transport of CO2 allows CO2 to be stored in remote locations where it will not have a negative impact on the environment.

Storage:

Challenges: The storage of CO2 underground can be a long-term commitment, and there is a risk of leaks from storage sites.

Benefits: The storage of CO2 underground removes CO2 from the atmosphere and stores it in a safe and secure manner.

Recycle:

Challenges: The recycling of CO2 is not yet a mature technology, and the cost of recycling can be high.

Benefits: The recycling of CO2 could provide a way to use CO2 as a valuable resource, and it could help to reduce the need for fossil fuels.

Overall, capturing CO2 from industrial emissions and storing it underground for recycle is a complex process with a number of challenges and benefits. However, this technology has the potential to play a role in mitigating climate change, and it is an area of active research and development.

Here are some ways to make people using APBN for capturing CO2 from industrial emissions and storing it underground for recycle:

Educate people about the benefits of CCS: People need to understand the benefits of CCS in order to be willing to use it. These benefits include the ability to remove large amounts of CO2 from the atmosphere, which can help to mitigate climate change.

Make CCS more affordable: The cost of CCS is still relatively high, which is a barrier to adoption. Governments and businesses can help to make CCS more affordable by providing subsidies or tax breaks.

Develop more efficient CCS technologies: The efficiency of CCS technologies is still improving, and this will make CCS more attractive to businesses. Governments and businesses can invest in research and development to improve the efficiency of CCS technologies.

Create a regulatory framework that supports CCS: A clear and predictable regulatory framework is needed to encourage the development and use of CCS. Governments can create this framework by setting clear standards for CO2 capture and storage, and by providing financial incentives for CCS projects.

Demonstrate the safety of CCS: There is some public concern about the safety of CCS, and this needs to be addressed. Governments and businesses can demonstrate the safety of CCS by conducting research and by building and operating demonstration projects.

By taking these steps, we can make CCS a more attractive option for reducing CO2 emissions and mitigating climate change.

Here are some additional tips:

Use clear and concise language: When talking about CCS, it is important to use clear and concise language that people can understand. Avoid using jargon or technical terms that people may not be familiar with.

Focus on the benefits: When talking about CCS, it is important to focus on the benefits of this technology. These benefits include the ability to remove large amounts of CO2 from the atmosphere, which can help to mitigate climate change.

Be patient: It takes time to change people's minds about new technologies. Be patient and persistent when talking about CCS, and eventually people will come to see the value of this technology.

untries with the most capturing CO2 from industrial emissions and storing it underground for recycle:

United States: The United States has the most CCS projects in operation, with over 10 projects. The majority of these projects are located in the oil and gas industry.

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www.britannica.com

United States country flag

Canada: Canada has the second-most CCS projects in operation, with over 5 projects. The majority of these projects are also located in the oil and gas industry.

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www.britannica.com

Canada country flag

Norway: Norway has the third-most CCS projects in operation, with over 4 projects. The majority of these projects are located in the oil and gas industry.

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www.britannica.com

Norway country flag

Australia: Australia has the fourth-most CCS projects in operation, with over 3 projects. The majority of these projects are located in the coal industry.

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www.britannica.com

Australia country flag

Germany: Germany has the fifth-most CCS projects in operation, with over 2 projects. The majority of these projects are located in the power sector.

Germany country flagOpens in a new window

en.wikipedia.org

Germany country flag

It is important to note that the number of CCS projects in operation is not the only measure of a country's commitment to CCS. Some countries, such as the United States, have a number of CCS projects in the planning or development stages. Other countries, such as China, have not yet built any CCS projects, but they are actively investing in CCS research and development.

Overall, the United States, Canada, Norway, Australia, and Germany are the leading countries in terms of capturing CO2 from industrial emissions and storing it underground for recycle. These countries are investing in CCS technology and projects, and they are working to make CCS a more affordable and attractive option for reducing CO2 emissions.

 cities that are leading the way in recycling CO2. Here are a few examples:

Oslo, Norway: Oslo is home to the world's first commercial-scale carbon capture and storage (CCS) plant. The plant, which is called the Sleipner project, captures CO2 from natural gas production and stores it underground.

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adventures.com

Oslo, Norway city

Zurich, Switzerland: Zurich is home to a number of CCS projects, including the Climeworks plant. The Climeworks plant captures CO2 from the air and converts it into a solid form that can be stored or used to produce fuels.

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switzerland-tour.com

Zurich, Switzerland city

Singapore: Singapore is planning to build a CCS plant that will capture CO2 from the emissions of power plants and industrial facilities. The plant is expected to be operational by 2025.

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www.webuildvalue.com

Singapore city

Melbourne, Australia: Melbourne is home to a number of CCS projects, including the Future Fuels CRC project. The Future Fuels CRC project is developing new technologies to capture CO2 from power plants and industrial facilities.

Melbourne, Australia cityOpens in a new window

en.wikipedia.org

Melbourne, Australia city

These are just a few examples of cities that are leading the way in recycling CO2. As the technology continues to develop, we can expect to see even more cities investing in CCS projects.

It is important to note that recycling CO2 is not yet a widespread practice. However, the cities listed above are demonstrating that it is possible to capture and store CO2 in a safe and effective manner. As the technology continues to develop, recycling CO2 is likely to become a more common practice.

companies that are buying CO2:

Climeworks: Climeworks is a Swiss company that develops and operates direct air capture plants. The company has sold CO2 to a number of companies, including Microsoft, Shopify, and Stripe.

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climeworks.com

Climeworks company logo

Carbon Engineering: Carbon Engineering is a Canadian company that is developing technology to capture CO2 from power plants and industrial facilities. The company has sold CO2 to a number of companies, including Delta Air Lines and Shell.

Carbon Engineering company logoOpens in a new window

carbonengineering.com

Carbon Engineering company logo

Global Thermostat: Global Thermostat is an American company that is developing technology to capture CO2 from the air. The company has sold CO2 to a number of companies, including Coca-Cola and Pepsi.

Global Thermostat company logoOpens in a new window

www.prnewswire.com

Global Thermostat company logo

Newlight Technologies: Newlight Technologies is an American company that uses CO2 to produce a biopolymer called AirCarbon. The company has sold AirCarbon to a number of companies, including Ford and Nike.

Newlight Technologies company logoOpens in a new window

welldonefoundation.org

Newlight Technologies company logo

Upcycled Materials: Upcycled Materials is an American company that uses CO2 to produce a material called AirCarbon Extreme. The company has sold AirCarbon Extreme to a number of companies, including Adidas and BMW.

Upcycled Materials company logoOpens in a new window

finance.yahoo.com

Upcycled Materials company logo

These are just a few of the many companies that are buying CO2. As the technology to capture and store CO2 continues to develop, we can expect to see even more companies investing in this market.

It is important to note that the price of CO2 varies depending on the source and the purity. However, the price is generally in the range of $100-200 per tonne.

games that I know of that specifically simulate the capture of carbon dioxide from coal power plants and the use of it to produce synthetic fuels. However, there are a few games that simulate the operation of coal power plants and the production of synthetic fuels.

One such game is SimCity. In SimCity, players can build and manage a city, including power plants and factories. Players can also choose to adopt policies that promote renewable energy or carbon capture and storage. 

SimCity gameOpens in a new window

play.google.com

SimCity game

Another game is Factorio. In Factorio, players must build a factory to produce goods. Players can choose to use coal as a power source, and they can also choose to adopt technologies to capture carbon dioxide and use it to produce synthetic fuels. 

Factorio gameOpens in a new window

www.nintendo.com

Factorio game

These are just a few examples of games that simulate the operation of coal power plants and the production of synthetic fuels. There are many other games that touch on these topics, but they may not do so explicitly.

It is important to note that these games are not a realistic representation of the operation of coal power plants or the production of synthetic fuels. They are designed to be fun and engaging, and they may not accurately reflect the challenges and risks involved in these industries.

 podcasts that discuss the capture of carbon dioxide from coal power plants and the use of it to produce synthetic fuels:

Climate Now Debates: Carbon Capture and Storage This podcast is a discussion of the pros and cons of carbon capture and storage technology. The guests include experts from the energy, environmental, and policy sectors.

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climatenow.com

Climate Now Debates: Carbon Capture and Storage podcast

The Energy Gang: Carbon Capture and Storage This podcast discusses the latest news and developments in carbon capture and storage technology. The hosts are energy experts who interview guests from industry, government, and academia.

Energy Gang: Carbon Capture and Storage podcastOpens in a new window

art19.com

Energy Gang: Carbon Capture and Storage podcast

Power Hungry: Carbon Capture and Storage This podcast discusses the challenges and opportunities of carbon capture and storage technology. The host is energy journalist Amy Harder, and she interviews guests from the energy industry.

Power Hungry: Carbon Capture and Storage podcastOpens in a new window

open.spotify.com

Power Hungry: Carbon Capture and Storage podcast

The Mined Minds Podcast: Carbon Capture and Storage This podcast is hosted by two coal miners who discuss the coal industry from a first-hand perspective. They have a recent episode on carbon capture and storage.

Mined Minds Podcast: Carbon Capture and Storage podcastOpens in a new window

www.oracle.com

Mined Minds Podcast: Carbon Capture and Storage podcast

The Burning Question: Carbon Capture and Storage This podcast is hosted by journalist Amy Westervelt and explores the environmental and social impacts of carbon capture and storage.

Burning Question: Carbon Capture and Storage podcastOpens in a new window

www.theguardian.com

Burning Question: Carbon Capture and Storage podcast

These are just a few examples of podcasts that discuss the capture of carbon dioxide from coal power plants and the use of it to produce synthetic fuels. There are many other podcasts available, both on audio and video streaming platforms.

If you are interested in learning more about this topic, I recommend listening to one of these podcasts. They can provide you with a more in-depth understanding of the technology and the challenges involved.

It is important to note that these podcasts may have different perspectives on the topic. Some may be more critical of carbon capture and storage technology, while others may be more supportive. It is important to listen to a variety of perspectives in order to form your own opinion.

 people who are leading the way in recycling CO2:

Klaus Lackner: Lackner is a professor of mechanical engineering at Arizona State University. He is the inventor of the CO2 air capture technology, which uses a process called "direct air capture" to remove CO2 from the atmosphere.

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news.asu.edu

Klaus Lackner, recycling CO2

Oskar Gisholt: Gisholt is the CEO of Climeworks, a company that develops and operates direct air capture plants. Climeworks' plants have captured over 1,000 tonnes of CO2 from the atmosphere.

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www.scribd.com

Oskar Gisholt, recycling CO2

Jesse Jenkins: Jenkins is a research scientist at Harvard University. He is the co-founder of the Carbon Engineering company, which is developing technology to capture CO2 from power plants and industrial facilities.

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climatenow.com

Jesse Jenkins, recycling CO2

Jennifer Wilcox: Wilcox is a professor of chemical engineering at the University of Pittsburgh. She is the co-founder of the Global CCS Institute, which is an organization that promotes the development and deployment of CCS technology.

Jennifer Wilcox, recycling CO2Opens in a new window

www.researchgate.net

Jennifer Wilcox, recycling CO2

These are just a few of the many people who are leading the way in recycling CO2. These individuals are working to develop new technologies to capture and store CO2, and they are helping to make CCS a more affordable and attractive option for reducing CO2 emissions.

 books about capturing CO2 from industrial emissions and storing it underground for recycle:

Carbon Capture and Storage: Technology, Economics, and Policy by David Archer and Klaus Lackner. This book provides a comprehensive overview of CCS technology, from the capture of CO2 to the storage of CO2 underground.

Carbon Capture and Storage: Technology, Economics, and Policy bookOpens in a new window

en.wikipedia.org

Carbon Capture and Storage: Technology, Economics, and Policy book

The Future of Carbon Capture and Storage by Jesse Jenkins. This book discusses the future of CCS technology, including the challenges and opportunities that lie ahead.

Future of Carbon Capture and Storage bookOpens in a new window

www.madrasshoppe.com

Future of Carbon Capture and Storage book

Carbon Engineering: The Startup That Could Reverse Climate Change by David Keith. This book tells the story of Carbon Engineering, a company that is developing technology to capture CO2 from the air.

Carbon Engineering: The Startup That Could Reverse Climate Change bookOpens in a new window

www.nytimes.com

Carbon Engineering: The Startup That Could Reverse Climate Change book

The Carbon Fix: The Global Race to Capture and Store CO2 by David J. C. MacKay. This book provides a global overview of CCS technology, including the progress that has been made and the challenges that remain.

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en.wikipedia.org

Carbon Fix: The Global Race to Capture and Store CO2 book

Storing Carbon Dioxide: Technology, Economics, and Policy by Mark Z. Jacobson and Mark A. Delucchi. This book provides a comprehensive overview of CO2 storage technology, from the geological storage of CO2 to the ocean storage of CO2.

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en.wikipedia.org

Storing Carbon Dioxide: Technology, Economics, and Policy book

These are just a few of the many books that have been written about CCS technology. As the technology continues to develop, we can expect to see more books published on this topic.