Search results for: “biomass power”

Biomass power: costs, levelized costs and BECCS?

This data-file captures the economics of producing wood pellets, generating electricity from biomass, and potentially also building a further CCS facility to yield ‘carbon negative power’ (which is nevertheless more CO2 intensive than burning gas!). Our numbers are backstopped by industry data, including 340 US biomass plants.
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Bright green hydrogen from biomass gasification?

Woody biomass can be converted into clean hydrogen via gasification. If the resultant CO2 is sequestered, each ton of hydrogen may be associated with -20 tons of CO2 disposal. The economies of hydrogen from biomass gasification require $11/kg-e revenues for a 10% IRR on capex of $3,000/Tpa of biomass, or lower, with CO2 disposal incentives.
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November 5, 2020

Biomass and BECCS: what future in the transition?

20% of Europe’s renewable electricity currently comes from biomass, mainly wood pellets, burned in facilities such as Drax’s, 2.6GW Yorkshire plant. But what are the economics and prospects for biomass power as the energy transition evolves? This 18-page analysis leaves us cautious.
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Biomass accumulation: CO2 fixed by trees and energy crops?

Different plant species fix 3-30 tons of CO2 per acre per year, as they accumulate biomass at 2-40 tons per hectare per year. The numbers matter for biofuels and for nature-based solutions. Hence this data-file compiles technical data into CO2 and biomass accumulation by plant species and by tree species, in different regions globally.
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Biomass to biofuel, or biomass for burial?

Greater decarbonization at a lower cost is achievable by burying biomass (such as corn or sugarcane) rather than converting it into bio-ethanol. This model captures the economics. Detailed costs and CO2 comparisons are shown under different iterations.
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Biodiversity: a breakdown of species and carbon stocks?

550GT of Carbon is stored in the living biomass of 40M species currently inhabiting planet Earth. About 70,000 are vertebrate species and 6,000 are mammal species. What implications for biodiversity, climate change and nature based solutions?
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Power grids: opportunities in the energy transition?

Power grids move electricity from the point of generation to the point of use, while aiming to maximize the power quality, minimize costs and minimize losses. Broadly defined, global power grids and power electronics investment must step up 5x in the energy transition, from a $750bn pa market to over $3.5trn pa. But this theme…
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Biomass to biochar: the economics?

Biochar is a carbon negative material, according to our accounting, locking as much as 0.5kg of CO2 into soils per kg of dry biomass inputs. It can also be highly economical, with a base case IRR of 25%. Our full model allows you to stress-test input assumptions.
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Reforestation: costs of CO2 removals?

Reforestation costs are modelled in this data-file, acquiring pastureland, planting new forests to absorb CO2, over a 50-year cycle. As a good rule of thumb, we think $50/ton CO2 prices, $50/m3 timber, and 3% pa land appreciation will unlock an 8% unlevered IRR at Yield Class 16 (5 tons of CO2 per acre per year).…
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Next-generation plastics: bioplastic, biodegradable, recycled?

This data-file captures 17 plastic products derived from mechanical recycling, biologically-sourced feedstocks or that is bio-degradable. The ‘greenest” plastics are c30% lower in CO2 than conventional plastics, but around 2x more costly.
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Energy Units — An Overview

Search results for: “biomass power”

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