The following was published Nov. 7, 2017 on the World Bank’s Carbon Pricing Leadership Coalition blog. Read original post here. Carbon pricing – in the form of a carbon tax or an emissions trading system – has become a tool …
Addressing climate change will require tremendous investment in low- and zero-carbon energy technologies. Estimates are as high as $1 trillion per year through 2030.
Some of that investment must be in carbon capture technology, which can reduce emissions from both the power and industrial sectors. Carbon capture could provide 13 percent of global emissions reductions through 2050.
Innovative corporate partnerships will play a critical role in launching this investment. That’s because partnerships can bring together the right combination of resources, talent, and experience and combine technical knowhow with business-oriented analyses of commercial viability. To solve our emissions challenges, innovation will be key, not just in technology, but also in investment models and business partnerships.
One example of an innovative corporate partnership that is bringing carbon capture technology into the field is the NET Power demonstration project in La Porte, Texas.
The NET Power project, which is expected to come online in 2017, will be the first in the world to use supercritical CO2 (when the gas has the density of a liquid), instead of steam, to drive a turbine. It will make electricity from natural gas using patented technology that captures almost all carbon- and non-carbon emissions at no additional cost: it has equipment costs and fuel usage that are equivalent to or better than best-in-class conventional natural gas combined cycle power plants without carbon capture. The technology is also capable of very low or no levels of water usage.
Each partner in the project brings a unique competency: 8 Rivers is the technology expert, contributing its invention and engineering oversight capabilities. Exelon Corporation contributes its sizeable network of business contacts, financial resources, project development support, and operations and maintenance expertise and may adopt the technology for commercial use in its operations. CB&I provides engineering, procurement and construction services, as well as financial assistance and experience with sales. Finally, Toshiba provides specialized expertise in high-pressure turbines.
During a recent C2ES webinar on financing carbon capture, some of the partners explained why the collaboration model works better than the venture capital model of investment in this case.
From the investor perspective, corporate partnerships are viewed as more mature transactions “both as an investment opportunity, but also as a technology that we think is ready for us to deploy when the time comes,” said David Brown, senior vice president of federal government affairs and public policy at Exelon.
From the developer perspective, NET Power CEO Bill Brown said, “Normally, too many startup firms don’t have market definition as a critical part of their first stage. They should. By reaching out to the customers [like Exelon] to begin with, we were able to get a very good focus on the market.”
More capital is being committed to a low-carbon future:
On Nov. 4, the CEOs of 10 oil and gas companies announced the Oil and Gas Climate Initiative which aims to direct $1 billion over the next decade to accelerate the development of technologies that could reduce greenhouse gas emissions on a significant scale, including carbon capture, use and storage.
As this private capital is mobilized, innovative corporate partnerships can combine business experience and commercial viability with government contributions to research and development to advance the commercial deployment of clean energy technology quickly.
The potential benefits for accelerated clean energy technology deployment are substantial. By reducing the cost of capture, the NET Power project may create an opportunity for U.S. innovation to help achieve emissions reductions globally.
Also, reducing the cost of capture lets us explore re-use of CO2, an area of increasing focus. Launched in January, the Global CO2 Initiative aims to enable the capture and re-use of 10 percent of annual global CO2 emissions by converting them into useful products. Its new roadmap highlights the potential for CO2 reuse in concrete, fuels (methane and liquid fuels), carbonate aggregates, polymers, and methanol.
To solve our emissions challenges, innovation will be key, not just in clean energy technology, but also in investment models and business partnerships.