An economic holistic feasibility assessment of centralized and decentralized biogas plants with mono-digestion and co-digestion systems

An economic holistic feasibility assessment of centralized and decentralized biogas plants with mono-digestion and co-digestion systems

Agricultural biogas plants are becoming attractive in several countries, mainly due to the possibility of obtaining additional incomes by selling energy to electrical grid. However, specific conditions under which biogas plants would be economically viable are not yet well known. This paper presents...

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Bibliographic Details
Published in:Renewable energy Vol. 139; pp. 40 - 51
Main Authors: Velásquez Piñas, Jean Agustin, Venturini, Osvaldo José, Silva Lora, Electo Eduardo, del Olmo, Oscar Almazan, Calle Roalcaba, Orly Denisse
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-08-2019
Subjects:
Agricultural biogas plant
Cattle manure
Economic model
Maize and grass silage
Mono and Co-Digestion pattern
Optimal size
Maize and grass silage
Mono and Co-Digestion pattern
Agricultural biogas plant
Economic model
Cattle manure
Optimal size
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Summary:Agricultural biogas plants are becoming attractive in several countries, mainly due to the possibility of obtaining additional incomes by selling energy to electrical grid. However, specific conditions under which biogas plants would be economically viable are not yet well known. This paper presents results of analysis made to find optimal sizes of biogas plants in terms of electrical capacity. They were evaluated based on economic models of centralized and decentralized technological schemes and their respective mono-digestion and co-digestion systems of cattle manure, maize silage and grass silage as feedstock, for electricity generation capacities between 100 and 1000 kWe. Results show that biogas plants using mono-substrates such as cattle manure present economic viability for electrical power higher than 740 kWe. Co-digestion system presents economic viability for electrical power higher 1000 kWe. Finally, public policies related to development of these technologies, mainly in the form of subsidies, such as those existing in developed countries, could help to make the co-digestion agricultural biogas plants economically viable for the Brazilian scenario. The novelty of the paper consists in the determination of the optimum size of mono- and co-digestion patterns for Brazilian conditions showing as results the necessary level of subsidies and the paths to economic viability. [Display omitted] •The optimum size of biogas plants in mono-digestion pattern is 740 kWe.•Biogas plants in co-digestion pattern have better economic performance for capacities over 1000 kWe.•Initial investment subsidies could economically make anaerobic co-digestion plants viable using dedicated energy crops.•The biomass cost and the electricity sale price can influence the economic viability of anaerobic co-digestion plants.
ISSN:0960-1481
1879-0682
DOI:10.1016/j.renene.2019.02.053