Life cycle assessment of biomass production in microalgae compact photobioreactors |
| |
| Authors: | Angela G Silva Richard Carter Felipe L M Merss Diego O Corrêa Jose V C Vargas André B Mariano Juan C Ordonez Marisa D Scherer |
| |
| Affiliation: | 1. Department of Mechanical Engineering and Center for Advanced Power Systems, Florida State University, Tallahassee, FL, USA;2. Departamento de Engenharia Mecanica, Programa de Pós‐Gradua??o em Engenharia e Ciência de Materiais (PIPE) and Núcleo de Pesquisa e Desenvolvimento em Energia Auto–Sustentável (NPDEAS), UFPR – Universidade Federal do Paraná, Curitiba, PR, Brazil |
| |
| Abstract: | This paper presents a life cycle assessment (LCA) of industrial scale microalgae biomass production in compact photobioreactor (PBR) systems (2 × 5 × 8 m) for supplying biofuel/electricity generation processes and synthesis of new materials. Other objectives are as follows: (i) to compare the impact of various raw materials, substances, and services; and (ii) to evaluate environment‐relevant aspects of the proposed system as compared to microalgae raceway ponds. The life cycle inventory assessment shows that (i) only atmospheric CO2 is used for PBR microalgae cultivation, whereas in raceway ponds, injection of CO2 from fossil origin is largely required to allow for microalgae growth; and (ii) the PBR daily production rate of dry biomass is currently at 1.5 kg m?3 day?1 for each PBR, which is 12.82 times larger than the reported average 0.117 kg m?3 day?1 raceway ponds production. It is found that in general the association of the effects of the production of steel, PVC, and the packaging contribute to more than 85% of the total impact in each analyzed category. Therefore, to achieve PBR biomass production impact reduction and sustainability, PVC and steel utilization need to be minimized, as well as packaging materials. Based on the PBR LCA results, that is, due to no CO2 injection from fossil origin and low area occupation, it is expected that high density production of truly renewable microalgae biomass could be obtained from PBR systems. |
| |
| Keywords: | biofuels compact photobioreactors environmental impacts microalgae sustainable energy system inventory |
|
|
