By Mandar Bakre on Friday, 03 November 2023
Category: TOP STORIES

IIT researchers crack CO2-to-CO method that could help decarbonize industry

India has granted researchers at IIT Bombay a patent for technology that converts CO2 into CO or carbon monoxide, in a process that holds huge potential for carbon capture and energy savings in the industry sector, especially steel making.

Carbon monoxide (CO) is widely used in industrial applications, especially in the form of syngas. In the steel industry, CO is an essential ingredient for converting iron ores to metallic iron in blast furnaces. However, the current industrial process for converting CO2 to CO is extremely energy-intensive, requiring high temperatures (400-750 degrees C) and the presence of an equivalent amount of hydrogen for driving the reaction forward.

The manufacturing of CO itself is harmful. At present, the industry produces CO through partial oxidation of coke or coal, which creates a significant amount of CO2 as end product. By capturing this CO2 and converting it into CO, the IIT researchers are hoping to create a circular process that would also substantially reduce industrial carbon footprints.

The new process is based on an electrocatalysis reaction that requires minimal energy and can proceed under ambient temperatures in the presence of water. Additionally, the required energy can be directly harnessed from a renewable source such as a solar panel or a wind mill, allowing the process to operate in a carbon-neutral manner.

The process was discovered by researchers led by Dr. Arnab Dutta and Dr. Vikram Vishal at the National Centre of Excellence in Carbon Capture and Utilisation (NCoE-CCU), part of IIT Bombay. Their innovation has also been accepted for publication in Nature Communications.

In their paper, the authors point out that developing sustainable technology "for facile CO2 to CO conversion can unlock new opportunities in the CCUS vertical of decarbonization while paving a sustainable CO2 utilization pathway,"

"CO, a reactive chemical typically generated from partial oxidation of coke, is one of the highly sought vital reagents for large-scale industrial processes such as the Fischer-Tropsch synthesis of hydrocarbons, the Monsanto/ Cativa acetic acid synthesis, iron oxide reduction in blast furnaces, and methanol synthesis from syngas," states the paper, which is available for reading under open access norms here

INDIA'S CARBON CAPTURE CENTERS 

The NCoE-CCU at IIT Bombay, supported by the Department of Science and Technology, is one of two national centers for carbon capture, the other being the National Centre in Carbon Capture and Utilization located at the Jawaharlal Nehru Centre for Advanced Scientific Research in Bengaluru.

The centres have been set up to assist in the development of an appropriate and feasible R&D and innovation roadmap. The centres are also collectively tasked with keeping track of international trends and developments and suggesting possibilities for collaboration with foreign governments or research agencies.

The NCoE-CCU at IIT Bombay was inaugurated by Dr. Vijay Kumar Saraswat, member, NITI Aayog, on February 11, 2023. The center is tasked with defining milestones and spearheading science and technology initiatives for industry-oriented CCU innovation in India, alongside developing novel methodologies for improving the technology readiness levels in CCU. It also looks at accelerating R&D efforts in methods of carbon capture and utilization.

The centre at Mumbai also works on conversion of captured CO2 to chemicals, CO2 transport, compression and utilization, as well as on enhanced hydrocarbon recovery as co-benefit pathways. It is also involved in development and demonstration of efficient CO2 capture from representative flue gas from the effluents of power plants and biogas plants.

The NCCCU at JNCASR aims to develop and demonstrate carbon capture and conversion by developing relevant materials and methodologies. These processes will then be scaled up to pilot scale mode to produce hydrocarbons, olefines and other value-added chemicals and fuels.

The center also works on reaching technology readiness level that match industry requirements for commercial purpose. The centre also promotes CCU research, provides training and consultancy and translates its research excellence into solutions with global economic and social impact.


GLOBAL DECARBONIZATION DRIVE

The global industrial sector has been looking at new technologies that allow them to decarbonize operations as the world moves towards the net zero emissions. Here are some sector wise updates:

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