Life cycle assessment and nutrient analysis of various processing pathways in algal biofuel production
Document Type
Article
Publication Date
1-1-2017
Abstract
This study focuses on analyzing nutrient distributions and environmental impacts of nutrient recycling, reusing, and discharging in algal biofuels production. The three biomass conversion pathways compared in this study were: hydrothermal liquefaction technology (HTL), hydrothermal hydrolysis pretreatment +HTL (HTP), and wet lipid extraction (WLE). Carbon, nitrogen, and phosphorous (C, N, P) flows were described in each pathway. A primary cost analysis was conducted to evaluate the economic performance. The LCA results show that the HTP reduced life cycle NOxemissions by 10% from HTL, but increased fossil fuel use, greenhouse gas emissions, and eutrophication potential by 14%, 5%, and 28% respectively. The cost of per gallon biodiesel produced in HTP was less than in HTL. To further reduce emissions, efforts should be focused on improving nutrient uptake rates in algae cultivation, increasing biomass carbon detention in hydrothermal hydrolysis, and/or enhancing biomass conversion rates in the biooil upgrading processes.
Publication Title
Bioresource Technology
First Page Number
33
Last Page Number
42
DOI
10.1016/j.biortech.2016.12.108
Recommended Citation
Mu, Dongyan; Ruan, Roger; Addy, Min; Mack, Sarah; Chen, Paul; and Zhou, Yong, "Life cycle assessment and nutrient analysis of various processing pathways in algal biofuel production" (2017). Kean Publications. 1686.
https://digitalcommons.kean.edu/keanpublications/1686