Artigo

Microalgae based biofertilizer: a life cycle approach

Carregando...
Imagem de Miniatura

Notas

Orientadores

Editores

Coorientadores

Membros de banca

Título da Revista

ISSN da Revista

Título de Volume

Editor

Elsevier

Faculdade, Instituto ou Escola

Departamento

Programa de Pós-Graduação

Agência de fomento

Tipo de impacto

Áreas Temáticas da Extenção

Objetivos de Desenvolvimento Sustentável

Dados abertos

Resumo

Abstract

Waste, especially biomass in general, is a large reservoir of nutrients that can be recovered through different technologies and used to produce biofertilizers. In the present study, environmental impacts of the production of microalgae biomass-based phosphate biofertilizer compared to triple superphosphate through life-cycle assessment conducted in the Simapro® software were investigated. The functional unit of the analysis was 163 g of P for both fertilizers. Phosphorus was recovered from a meat processing industry effluent in a high-rate algal pond. Impacts related to the entire biofertilizer chain impacted mainly on climate changes (3.17 kg CO2eq). Microalgae biofertilizer had higher environmental impact than conventional fertilizer in all impact categories, highlighting climate change and terrestrial ecotoxicity. An ideal scenario was created considering that: all energy used comes from photovoltaic panels; in the separation step a physical method will be used, without energy expenditure (i.e. gravimetric sedimentation) and; biomass will be dried in a drying bed instead of the thermal drying. In this scenario, the impact of biofertilizer approached considerably those of triple superphosphate. When impacts of biomass cultivation and concentration stages were disregarded, drying step was of great relevance, contributing to increase biofertilizer impacts. More research is needed to optimize the algae production chain and determine the possibility of obtaining higher added value products more environmental attractive.

Descrição

Área de concentração

Agência de desenvolvimento

Palavra chave

Marca

Objetivo

Procedência

Impacto da pesquisa

Resumen

ISBN

DOI

Citação

CASTRO, J. de S. et al. Microalgae based biofertilizer: a life cycle approach. Science of The Total Environment, Amsterdam, v. 724, 138138, 1 July 2020. DOI: https://doi.org/10.1016/j.scitotenv.2020.138138.

Link externo

Avaliação

Revisão

Suplementado Por

Referenciado Por