Search results for: “nanotubes "carbon fiber"”
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Carbon fiber: energy economics?
Carbon fiber production costs are estimated at $25/kg in this data-file, in order to generate a 10% IRR at a new world-scale carbon fiber plant. Energy economics are broken down across the value chain. The production process will likely emit 30 tons of CO2 per ton of carbon fiber if powered by a mixture of…
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Nature based solutions to climate change?
Nature based solutions are likely to deliver c20-25% of the decarbonization in a realistic roadmap to net zero. Reforestation is low-cost (c$50/ton), technically ready, convenient and helps nature. Key challenges are improving the quality of nature-based CO2 removals and accelerating momentum. We see upside for companies that can clear these hurdles. Our top ten conclusions…
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Turquoise hydrogen from methane pyrolysis: economics?
Turquoise hydrogen is produced by thermal decomposition of methane at high temperatures, from 600-1,200โฆC. Costs can beat green hydrogen. This data-file quantifies the economics (in $/kg), how to generate 10% IRRs, possible capex costs, and remaining challenges for commercialization.
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Carbon fiber: the miracle material?
Energy transition will catapult carbon fiber demand upwards from today’s 120kTpa baseline, across wind turbine blades, more efficient vehicles and hydrogen tanks. Hence this 16-page note explores opportunities, economics, CO2 intensity and leading companies.ย
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MIRALON: turquoise hydrogen breakthrough?
MIRALON is an advanced material, being commercialized by Huntsman, purifying carbon nanotubes from the pyrolysis of methane and also yielding turquoise hydrogen. This data-file reviews MIRALON technology, patents, and a strong moat. Our model sees 15% IRRs if Huntsman reaches a medium-term cost target of $10/kg MIRALON and $1/kg H2.
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Microwave Chemical: electrical heating?
Microwave Chemical is a small-cap company, developing microwave-based heating solutions, across over a dozen use cases, from acrylic recyling, to producing food/cosmetic compounds, to carbon fiber (particularly interesting!). We reviewed a dozen of the company’s patents in this data-file, which is a Microwave Chemical technology review and finds a moat in efficient microwave heating.
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Vehicle mass: what opportunities to improve fuel economy?
Steel comprises c50% of the volume and c80% of the weight of materials in a vehicle. Each 1% reduction in mass yields a 1% improvement in fuel econome. Carbon fiber repays its extra costs after 30-70k miles, while hybridisation repays its extra costs after 10-30k miles.
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Battery cathode active materials and manufacturing?
Lithium ion batteries famously have cathodes containing lithium, nickel, manganese, cobalt, aluminium and/or iron phosphate. But how are these cathode active materials manufactured? This data-file gathers specific details from technical papers and patents by leading companies such as BASF, LG, CATL, Panasonic, Solvay and Arkema.
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