CCS technologies gaining ground, but policy and cost barriers remain
Taher noted that several CCS technologies are currently being deployed, including post-combustion capture, pre-combustion capture suited for gasification, and emerging approaches like Direct Air Capture (DAC) and Bioenergy with Carbon Capture and Storage (BECCS).
'Post-combustion capture uses amine-based solvents to strip CO2 from flue gases - ideal for retrofitting existing facilities,' explained Taher. 'Pre-combustion capture technology is also promising, converting fuel into hydrogen and CO2 before combustion, making it particularly effective in gasification plants.
DAC, which captures CO2 directly from the atmosphere, presents significant opportunities for negative emissions, while BECCS) combines biomass energy production with CO2 capture, offering a dual benefit of clean energy generation and carbon sequestration.
'These technologies are not just theoretical but are already laying the groundwork for a lower-carbon future,' Taher said.
According to the BCG executive, several large-scale CCS projects demonstrate the feasibility and impact of carbon capture technologies on a global scale. The Sleipner project in Norway, which has been operational since 1996, is a pioneer, storing approximately 1 million tonnes of CO2 annually beneath the North Sea.
In Australia, the Gorgon Project stands out for its ambitious target of capturing 4 million tonnes of CO2 per year, showcasing how CCS can be integrated into natural gas processing. In the Middle East, the first commercial CCS initiative in the UAE captures 800,000 tonnes of CO2 annually from steel production.
'These projects provide a blueprint for future deployments, demonstrating how strong policy support, industry expertise, and innovative technologies can come together to achieve significant emissions reductions,' he said.
He acknowledged that while carbon capture methods are advancing, high costs, infrastructure gaps, and policy uncertainty continue to hinder large-scale deployment.
Excerpts from the interview:
Why has CCS been slow to scale despite the increasing need for emissions reductions?
Despite the need for emissions reductions, CCS technologies face implementation hurdles such as high costs, infrastructure limitations, and policy uncertainties. High CAPEX and OPEX costs, along with efficiency losses, pose financial challenges, making CCS a less immediately viable approach when compared to other decarbonisation options.
Infrastructure gaps in CO2 transport and storage further limit scalability, while policy uncertainties and inadequate pricing mechanisms challenge project viability, highlighting the need for stronger and more consistent measures to support CCS investment.
Do you believe government incentives and policies are sufficient to drive CCS adoption at scale? What role do you see for private investment in CCS?
Current incentives are not yet sufficient to support the large-scale adoption of CCS. While there is growing political and regulatory commitment to decarbonisation, carbon pricing and tax credits are strengthening to create a stable and attractive market for CCS projects.
Public-Private Partnerships (PPPs) play a key role in bridging this gap, enabling governments to de-risk investments while the private sector drives innovation. Emerging revenue models, such as CO2 utilisation in fuels, chemicals, and building materials, offer new opportunities for business case improvement.
Some studies suggest that CCS technologies may not effectively reduce CO2 emissions and could even increase energy consumption. How do you respond to these concerns?
Concerns about the energy penalty associated with CCS technologies are justified, but ongoing technological advancements are steadily improving efficiency and reducing energy demands. While CCS processes do require additional energy, continuous improvements in capture technologies are bridging this gap.
As a result, high capture rates are already achievable. Both post-combustion and pre-combustion methods can remove over 90 percent of CO2, demonstrating the effectiveness of CCS in real-world applications. This is particularly important in hard-to-abate sectors such as cement & steel, where electrification is difficult or not viable.
Rather than viewing CCS as a perfect solution, it should be seen as a critical component of a broader decarbonisation strategy, complementing renewable energy and other low-carbon technologies to achieve net-zero goals, particularly in industries where carbon emissions are otherwise challenging to mitigate.
With MENA holding 10 percent of global operational CCS facilities, how should it capitalise on its early-mover advantage?
The MENA region has a unique opportunity to build on its early-mover advantage by expanding CO2 infrastructure through the development of regional transport and storage hubs. Utilising the region's deep oil and gas expertise to repurpose depleted reservoirs for CO2 storage can reduce costs and increase storage capacity.
To strengthen its leadership in CCS, the region should also focus on boosting policy support by introducing more substantial carbon pricing and incentives that encourage investment and innovation. Integrating CCS with low-carbon hydrogen production could help the region set a global benchmark, blending economic growth with climate action.
What is the one misconception about CCS that you believe needs to be corrected?
There are several. A persistent misconception is that "CCS is a distraction from renewables." In reality, CCS complements clean energy by targeting hard-to-abate sectors where electrification is not feasible.
Another misconception is that "CO2 storage is unsafe." However, decades of geological storage projects have demonstrated the safety and stability of this approach.
Additionally, the belief that "CCS is too expensive" is inaccurate. Costs are declining as the technology scales, making CCS a more viable option for industries striving to achieve net-zero emissions.
(Reporting by Anoop Menon; Editing by SA Kader)
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Zawya
2 days ago
- Zawya
Dama Development unveils Rawasin Compound in New Sohag, expanding presence in Upper Egypt
Egypt - Dama Development has officially opened a new branch in Sohag City, marking a significant milestone in its expansion into Upper Egypt. During the inauguration ceremony, the company also unveiled its latest project, the Rawasin Compound in New Sohag City. Taher Abu Raqam, Chairperson of Dama Development, explained that the new branch is part of the company's strategic plan to expand its presence in Upper Egypt. The move aligns with the state's vision for developing new cities and promoting sustainable urban growth in the region. 'The opening of our new branch and the launch of Rawasin Compound reflect our commitment to sustainable investment in Upper Egypt. We believe in the future potential of new cities like New Sohag, and we aim to contribute to their growth through high-quality, integrated urban developments,' said Abu Raqam. The Rawasin Compound features modern architectural designs and offers a variety of residential units, along with commercial areas and service facilities to ensure maximum convenience and comfort for residents. The development is designed with a focus on quality, functionality, and accessibility. The compound is being built on a plot of land divided into two distinct zones: a residential area consisting of six buildings and a commercial and service area integrated within the site to meet the everyday needs of residents. This design ensures a seamless blend of living, working, and leisure spaces, all within close reach. Mohamed Abu Okail, Vice Chairperson of Dama Development, emphasized that Rawasin Compound was carefully designed to cater to the needs of a diverse range of homeowners, while respecting local cultural values and climate considerations. The development also prioritizes privacy and comfort. Each building in the compound is equipped with two spacious elevators, designed to accommodate individuals with disabilities. Additionally, the buildings are designed to serve only four units per floor, reducing congestion and improving circulation efficiency. The basement level includes an underground parking garage, ensuring ample parking space while benefiting from excellent natural lighting and ventilation. The Rawasin Compound is part of Dama Development's long-term strategy to support the growth of New Sohag City and contribute to the region's urban transformation. © 2025 Daily News Egypt. Provided by SyndiGate Media Inc. (
Middle East Eye
6 days ago
- Middle East Eye
Boston Consulting Group modelled plan to 'relocate Palestinians' from Gaza to Somalia
The Boston Consulting Group (BCG) modelled plans to relocate Palestinians from Gaza to Somalia and Somaliland, on behalf of Israeli businessmen looking to redevelop the enclave. People familiar with the work told the Financial Times that the two African states were included among a range of countries that the Palestinians could be deported to. The list also included Egypt, United Arab Emirates and Jordan. The modelling grew out of BCG's work helping to set up the US-backed Gaza Humanitarian Foundation (GHF), which has been widely criticised for the enormous number of people killed at its aid delivery sites. The post-war modelling, when reported, provoked an outcry and the consulting firm publicly disavowed the work, stating that the partner in charge had been told not to do it. New MEE newsletter: Jerusalem Dispatch Sign up to get the latest insights and analysis on Israel-Palestine, alongside Turkey Unpacked and other MEE newsletters Relocation plans were based on media reports suggesting Israeli and US officials had held discussions with East African leaders about taking in Palestinian deportees, in return for perks such as their recognition of the breakaway Somaliland as an independent state. The threat of relocation, which US President Donald Trump has said will allow the redevelopment of the Gaza Strip, has been branded ethnic cleansing by rights groups, international bodies and foreign officials. 'By accepting the Gazans who relocate temporarily and voluntarily, a country will get an injection of population that will have an economic benefit that clearly could be significant,' one person familiar with the work told the FT. 'But the countries in the model were not picked based on a knowledge of specific discussions. The idea was to understand the economic issues related to options that President Trump had put on the table.' Why are people protesting against the Boston Consulting Group? Read More » A slide deck associated with the plan reportedly envisaged that 25 percent of Palestinians in Gaza would decide to relocate outside the enclave, with a majority not returning. BCG projected $4.7bn in economic benefits for countries that took in Palestinians during the first four years. It was reported that BCG - which counts Israeli Prime Minister Benjamin Netanyahu among its alumni - became involved with GHF when the US security contractor Orbis engaged the firm to help with a feasibility study for a new aid operation. BCG was reportedly chosen because of its relationship with Phil Reilly, an ex-CIA officer who works at Orbis. As Middle East Eye first reported, Reilly was a senior adviser to BCG for eight years, until six months ago, when he started Safe Reach Solutions, a for-profit security and logistics company guarding GHF's aid hubs in Gaza. The FT has also reported that staff members from the Tony Blair Institute participated in a post-war Gaza project which included plans for a "Trump Riviera" and used financial models developed by BCG.
Zawya
04-08-2025
- Zawya
Africa's mining sector needs reliable power: Aggreko
Africa's mining sector requires power reliability as a matter of survival, making it critical for companies to invest in solutions that deliver longevity and reliability, says Johan Helberg, Head of Sales for Africa at Aggreko, a provider of energy solutions. According to the International Monetary Fund, global demand for critical minerals is set to increase significantly. For nickel, demand will double between 2022 and 2050, cobalt will triple, and lithium will increase tenfold says the International Energy Agency – and sub-Saharan Africa has an estimated 30% of these minerals in reserves. The region has immense potential, but realising the potential requires reliable energy solutions, particularly as mining operations across the continent continue to grapple with unstable power grids, rising energy costs, and increased pressure to meet sustainability goals, according Helberg. As the Boston Consulting Group pointed out in its 2024 Africa Mining Outlook analysis, mining is not an easy business but its complexity is compounded by energy instability, demand for cleaner energy supplies, and costs. The impact of unreliable energy on the mining sector is extensive. Energy supply shortages have a direct impact on a mining organisation's bottom line as companies have to invest in alternative solutions and failovers that can cost upwards of 30% of their total cash operating costs. The industry is reliant on continuous operations to remain profitable which makes reliable power crucial to remaining operational and financially stable. A study undertaken by Nelson Mandela University in South Africa, for example, found that loadshedding has a long-term negative impact on mining equity returns and impacts on stock viability for international investors. The cost of energy unreliability makes a compelling case for hybrid energy solutions designed to not just mitigate the risks but to provide mining organisations with the tools they need to build resilient power infrastructure. These hybrid systems combine traditional power sources with renewable energy and battery storage to create robust energy platforms that ensure mines can maintain operations even when the grid fails. By blending multiple energy sources, they offer immediate fail-over energy provision within a single, intelligent system that prioritises both reliability and efficiency. Hybrid also allows companies to distance themselves from the complexities that continue to plague power management, generation and infrastructure on the continent. Regulatory and policy uncertainty is affecting approvals and generating uncertainty when it comes to establishing independent power solutions, and there remain financial and infrastructural challenges that inhibit investment and growth, claims Helberg. The effectiveness of hybrid systems lies in three key pillars. The first is that hybrid systems offer mining organisations redundancy through multiple power sources. When one fails, others can compensate which ensures continuous operations and reduced risks and costs. This is particularly useful in remote mining locations where grid connections are weak or non-existent. The second is that these systems incorporate battery storage technology which acts as a buffer against power fluctuations while providing immediate access to power on demand. Battery storage systems have the added benefit of improving overall plant efficiencies while reducing fuel consumption and maintaining power quality. This technology can help mining operations prioritise stable power supply during peak demand periods or when renewable sources are temporarily unavailable. Finally, hybrid brings a new level of scalability and flexibility to operations. These are critical when considering how rapidly a mine's power needs can change thanks to both internal and external factors. Modern hybrid systems offer mines the ability to adjust and scale energy provision and structure according to demand and to create a power infrastructure that fits their operations as they evolve. However, implementing an effective hybrid solution needs to be strategic and well engineered, finding the optimal balance between sustainability, cost and reliability. This balance is particularly important within the African context where operational challenges can be more pronounced due to infrastructure limitations and operating in rural locations. Success means customising each hybrid solution to meet the unique power requirements, environmental conditions and operational constraints of each mining operation, and to partner with an energy provider that understands these constraints and knows how to develop relevant, tailored solutions, states Helberg. The financial aspect of hybrid systems is also important. While the initial investment appears to be costly, the long-term benefits across operational stability, reduced downtime and reliable output can outweigh these. There are financing solutions that have evolved to support the sector in its move towards sustainable and reliable energy as well. The Build Own Operate Maintain (BOOM) model, for example, is a modern financing option that allows for the mining company to access reliable power without substantial upfront capital expenditure. Aggreko's hybrid solutions seamlessly integrate cutting-edge solar power and battery technology with traditional fuels like diesel, offering a blend of low emissions and high reliability. These systems are designed to prioritise solar power, maximising efficiency and minimising environmental impact. During periods of high sunlight, batteries store solar energy to be used throughout the day, while generators automatically step in only when solar power is insufficient to prevent disruptions. Aggreko's advanced diesel and gas generators are engineered to minimise pollutants, ensuring that emissions remain as low as possible when in use. An intelligent energy management control system oversees the entire process, guaranteeing uninterrupted energy supply while reducing fuel costs and carbon emissions. Looking ahead, the adoption of hybrid energy systems in African mining operations will become increasingly attractive to companies as the technology continues to evolve and costs come down. These hybrid solutions offer a practical solution to the ongoing power reliability challenge and enable mining companies to maintain continuous operations and build the resilience they need to thrive. The key to success lies in choosing the right energy partner who has deep industry expertise and a proven track record in implementing hybrid solutions in challenging environments, concludes Helberg. -OGN / TradeArabia News Service Copyright 2025 Al Hilal Publishing and Marketing Group Provided by SyndiGate Media Inc. (
