The Environmental Impact of Wood Pellet Electricity
At the request of one of our largest unitholders, Boundless initially engaged with Enviva in the summer of 2019 to begin to understand the carbon impact of wood pellet energy, as well as the sustainability of Enviva’s supply chain. We found their work to be of such high quality that we asked them to conduct a deeper dive that could illustrate this more rigorous approach to carbon accounting, and to enable this research to be peer reviewed and shared widely. We are delighted to share their independent work.
As part of this research, Boundless used recent peer-reviewed literature on the greenhouse gas (GHG) impacts of wood pellets to create a life cycle analysis (LCA) of GHG emissions from the wood pellet supply chain. They compared the performance of electricity generated using wood pellets versus other fuels such as coal and natural gas, examined Enviva’s supply chain in the U.S. Southeast, and conducted an analysis of the U.K., German, and Japanese power sectors to understand the overall impact of bioenergy on meeting country-level GHG targets.
Boundless’s entire piece is important, but let’s highlight three key facts from their report:
For steady-state working forests, you get the same net climate impact result no matter what assumptions are used for carbon accounting. The bottom line is this: crediting biogenic carbon uptake prior to combustion (i.e. the conventional approach applied in regulatory practice, where stack emissions are set to zero as long as the biomass is sourced from a region with stable or increasing carbon stocks) yields the same result for working forests as the carbon-debt accounting approach in which a debt is assigned at the time of combustion and is paid back as the forest regrows.
From page 13 of the report:
Renewable, baseload bioenergy enables the renewable electric grid. Solar and wind energy are important parts of the overall transition to a renewable energy grid, but these renewable sources are intermittent, meaning they don’t produce power during times of the day and the year when the wind doesn’t blow or the sun doesn’t shine. Boundless found that we can balance the electricity grid with biomass to provide stability for other renewable sources of energy.
From page 7 of the report:
The carbon benefits of good biomass are clear. Boundless is careful to explain that their analysis is limited to the specific case of wood sourced sustainably as a by-product of a traditional timber harvest where the land returns to forested use, from a region with stable or increasing forest carbon stocks. In this we agree, of course: not all biomass is good biomass.
From page 5 of the report:
Biomass is essentially a natural storage vessel for energy from the sun. Trees from working forests are continuously recycling carbon from the atmosphere to trees and back. In contrast, fossil fuels represent a one-way trip for carbon from geologic storage to the atmosphere. So – as long as the requirements for good biomass are met – we can mitigate GHG emission by substituting bioenergy for fossil fuels for energy production.
And that’s good news, because we don’t have any time to waste.