EcoSequest

South-east Asia's Carbon Capture Gamble: Promise & Peril of Seabed CO₂ Storage

Synopsis: Governments and major polluters in South-east Asia are increasingly looking to carbon capture and storage technology, particularly seabed storage, as a solution to reduce greenhouse gas emissions. However, this approach is not without controversy and potential risks.
Thursday, July 4, 2024
CCS
Source : ContentFactory

As the urgency to address climate change intensifies, South-east Asian nations are turning to an ambitious and contentious solution: storing millions of tons of carbon dioxide deep beneath the seabed. By 2030, or potentially even earlier, CO₂ captured from industrial sources across East Asia could be transported via specialized tanker ships to storage sites in Indonesia, Malaysia, and possibly Thailand, Brunei, and Australia. This initiative represents a significant bet on carbon capture and storage technology as a key strategy in the fight against global warming.

The concept behind this large-scale CCS plan is straightforward in principle. CO₂ emissions from major polluters such as refineries, power stations, and cement plants would be captured at the source, liquefied, and then transported by ship to offshore storage sites. These sites, typically depleted oil and gas wells or saline aquifers, would serve as permanent repositories for the greenhouse gas, effectively removing it from the atmosphere. Countries and companies providing this storage service would receive a fee for each ton of CO₂ sequestered, creating a potential new revenue stream while contributing to emissions reduction efforts.

This push for seabed CO₂ storage in South-east Asia is driven by several factors. The region has abundant geological formations suitable for CO₂ storage, particularly in its numerous depleted oil and gas fields. Additionally, many South-east Asian countries are seeking ways to transition their economies away from fossil fuel dependence while still leveraging their existing energy infrastructure and expertise. CCS offers a potential bridge technology, allowing for continued use of fossil fuels in the short to medium term while working towards longer-term decarbonization goals.

However, the enthusiasm for CCS in South-east Asia is not universally shared. Critics argue that the technology is unproven at the scale required to make a significant impact on global emissions. There are concerns about the long-term stability of underwater CO₂ storage and the potential for leaks that could harm marine ecosystems. Furthermore, some environmentalists contend that CCS serves as a distraction from the more urgent need to transition away from fossil fuels entirely, potentially prolonging the life of polluting industries.

The economic viability of large-scale CCS projects in South-east Asia also remains a subject of debate. While the technology has shown promise in smaller, pilot projects, scaling up to the level needed to make a meaningful dent in regional emissions will require substantial investment in infrastructure, including specialized ships, pipelines, and storage facilities. The cost of capturing, transporting, and storing CO₂ remains high, and it's unclear whether the fees generated from storage will be sufficient to offset these expenses without significant government subsidies or carbon pricing mechanisms.

Despite these challenges, several South-east Asian countries are moving forward with CCS plans. Indonesia, which has some of the region's largest potential storage sites, is actively developing regulatory frameworks to facilitate CO₂ storage projects. Malaysia has also expressed interest in becoming a regional hub for CO₂ storage, leveraging its extensive experience in offshore oil and gas operations. These initiatives are attracting interest from major international oil and gas companies, who see CCS as a way to extend the lifespan of their assets while addressing growing pressure to reduce emissions.

The development of a regional CCS network in South-east Asia could have significant implications for global climate efforts. If successful, it could provide a model for other regions with similar geological characteristics and industrial profiles. However, the success of these initiatives will depend on overcoming numerous technical, economic, and regulatory hurdles. Ensuring the safety and long-term stability of underwater CO₂ storage will be crucial, as will developing transparent monitoring and verification systems to track stored emissions.

As South-east Asia embarks on this carbon capture gamble, the region finds itself at the forefront of a global debate about the role of CCS in climate mitigation strategies. While proponents see it as a necessary tool in the fight against climate change, critics warn of the risks of relying too heavily on an unproven technology. The coming years will be critical in determining whether seabed CO₂ storage can live up to its promise or whether it will join the list of climate solutions that failed to deliver on their initial hype. As the world watches, South-east Asia's experience with CCS could shape the future of global climate policy and the energy transition for decades to come.