Integrated economic and environmental modeling of forest biomass for renewable energy in California: Part I - Model development

Authors: LI, KAIYAN - University Of California, Davis; KIRKLAND, SCOTT - University Of California, Davis; YEO, BOON-LING - University Of California, Davis; TUBBESING, CARMEN - University Of California Berkeley; Bandaru, Varaprasad; SONG, LAN - University Of Maryland; HOLSTEGE, LAURA - University Of California, Davis; HARTSOUGH, BRUCE - University Of California, Davis; KENDALL, ALISSA - University Of California, Davis; JENKINS, BRYAN - University Of California, Davis

Submitted to: Biomass and Bioenergy
Publication Type: Peer Reviewed Journal
Publication Acceptance Date: 3/27/2023
Publication Date: 4/5/2023
Citation: Li, K., Kirkland, S., Yeo, B., Tubbesing, C., Bandaru, V., Song, L., Holstege, L., Hartsough, B., Kendall, A., Jenkins, B. 2023. Integrated economic and environmental modeling of forest biomass for renewable energy in California: Part I - Model development. Biomass and Bioenergy. 173. Article 106774. https://doi.org/10.1016/j.biombioe.2023.106774.
DOI: https://doi.org/10.1016/j.biombioe.2023.106774

Interpretive Summary: Forest biomass can be utilized to generate electricity and other renewable energy to meet the increasing demand for more sustainable supplies and mitigate the risk of wildfires. However, efforts to construct new electricity generation capacity in the state of California at any scale over the last several decades have faced both economic and environmental challenges. As needs for alternative management approaches have become clear, opportunities have emerged for new bioenergy projects. These projects need to be effectively planned and potential economic and environmental performance carefully evaluated. Toward this purpose, a framework model for lifecycle and technoeconomic assessment was developed to quantify environmental and economic impacts, initially for generating electricity using forest resources, with associated web services developed for a robust web-based application that allows potential users to quickly estimate the economic and environmental performance of a potential facility at specified locations.

Technical Abstract: Forests are a major natural resource of the state of California, where over a third of the land is forested, and provide a wide range of environmental, economic, and social benefits. Over the past decade, unprecedented drought, insect outbreaks and wildfires have resulted in large-scale tree mortality that greatly affects the forest ecosystem and poses significant threat to human health and welfare and to the environment. Forest thinning and management is considered imperative to improve forest health and resilience. Forest resources including dead and dying trees as well as the residues produced from forest thinning and timber harvesting operations could potentially be used to a greater degree than at present to generate electricity and other renewable energy to meet the increasing demand for more sustainable supplies and mitigate the risk of wildfires. However, efforts to construct new electricity generation capacity in the state at any scale over the last several decades have faced both economic and environmental challenges. As needs for alternative management approaches have become clear, opportunities have emerged for new bioenergy projects. These projects need to be effectively planned and potential economic and environmental performance carefully evaluated. Toward this purpose, an integrated framework model for lifecycle and technoeconomic assessment was developed to quantify environmental and economic impacts, initially for generating electricity using forest resources and with associated web services developed for an online application (forestdss.ucdavis.edu) that allows potential users to quickly estimate the economic and environmental performance of a potential facility at specified locations.