August 16, 2018
Journal Article

CERF – A Geospatial Model for Assessing Future Energy Production Technology Expansion Feasibility

Abstract

Electricity system expansion planning faces significant challenges not only because of commonly modeled uncertainties such as future demand growth, fuel prices, and technology cost and performance, but also because of challenges such as climate change and carbon policies that can affect supply and demand. Changes in energy technology, natural resource availability, and population migration and growth will affect the feasibility of power plant siting, potentially hindering the achievement of policy goals. New modeling approaches are needed that couple future projections of energy system expansion with “on the ground” feasibility modeling—where both are informed by a consistent set of assumptions about future climate trends, resource availability, climate policy, socioeconomics, and environmental regulations. This research describes the development and evaluation of the Capacity Expansion Regional Feasibility (CERF) model, a geospatial tool for scenario analysis of electricity system expansions.

Revised: April 22, 2019 | Published: August 16, 2018

Citation

Vernon C.R., J.S. Rice, N. Zuljevic, T.E. Seiple, M. Kintner-Meyer, C. Jin, and J. Olson, et al. 2018. CERF – A Geospatial Model for Assessing Future Energy Production Technology Expansion Feasibility. Journal of Open Research Software. PNNL-SA-125186. doi:10.5334/jors.227