Integrated production of hydrogen and methane in a dairy biorefinery using anaerobic digestion: Scale-up, economic and risk analyses
Abstract
Anaerobic digestion has emerged as the most appealing waste management strategy in biorefineries. Particularly, recent studies have highlighted the energy advantages of waste co-digestion in industrial biorefineries and the use of two-stage systems. However, there are some concerns about moving the system from laboratory testing to industrial scale. One of them is the high level of investment that is required. Therefore, this study carried out a techno-economic analysis (scale-up and energy production, economic and risk analysis, and factorial design) to assess the feasibility of single- and two-stage systems in the treatment of cheese whey and glycerin for the production of hydrogen and methane. Scenarios (S1 to S9) considered thermophilic and mesophilic single and two-stage systems with different applied organic loading rates (OLRA). The analyses of scale-up and energy production revealed that S3 (a thermophilic single-stage system operated at high OLRA 17.3 kg-COD.m−3.d−1) and S9 (a thermophilic-mesophilic two-stage system operated at high OLRA 134.8 kg-COD.m−3.d−1 and 20.5 kg-COD.m−3.d−1, respectively) were more compact and required lower initial investment compared to other scenarios. The risk analysis performed by a Monte Carlo simulation showed low investment risks (10 and 11%) for S3 and S9, respectively, being the electricity sales price, the key determining factor to define whether the project in the baseline scenario will result in profit or loss. Lastly, the factorial design revealed that while the net present value (NPV) is positively impacted by rising inflation and electricity sales price, it is negatively impacted by rising capitalization rate. Such assessments assist in making decisions regarding which system can be fully implemented, the best market circumstances for the investment, and how market changes may favorably or unfavorably affect the NPV and the internal rate of return (IRR). © 2023 Elsevier Ltd
- Anaerobic digestion
- Cheese whey
- Fluidized bed reactor
- Glycerin
- payback
- Anaerobiosis
- Bioreactors
- Hydrogen
- Methane
- Risk Assessment
- Chemical reactors
- Commerce
- Earnings
- Economic analysis
- Fluid catalytic cracking
- Fluidized beds
- Glycerol
- Hydrogen production
- Intelligent systems
- Monte Carlo methods
- Refining
- Risk analysis
- Risk assessment
- glycerol
- hydrogen
- methane
- Biorefineries
- Fluidized bed reactors
- Organic loading rates
- Payback
- Production of hydrogen
- Scale-up
- Single stage system
- Thermophilics
- Two stage system
- anaerobic digestion
- inflation
- Monte Carlo analysis
- power generation
- risk assessment
- waste management
- Article
- cheese
- chemical oxygen demand
- controlled study
- dairy industry
- effluent
- electricity
- energy yield
- fluidization
- investment
- microbial consortium
- Monte Carlo method
- price
- wastewater
- anaerobic growth
- Investments
URI
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85173351479&doi=10.1016%2fj.jenvman.2023.119215&partnerID=40&md5=5dce1f9d87d877f028462e6f67dff2d3https://repositorio.maua.br/handle/MAUA/1450
Collections
Related items
Showing items related by title, author, creator and subject.
-
Effects of organic loading, influent concentration, and feed time on biohydrogen production in a mechanically stirred AnSBBR treating sucrose-based wastewater (Artigo de Periódico)
Manssouri, M.; Rodrigues, José Alberto Domingues; Ratusznei, Suzana Maria; Zaiat, Marcelo (2013)An anaerobic sequencing batch biofilm reactor (AnSBBR - total volume 7.5 L; liquid volume 3.6 L; treated volume per cycle 1.5 L) treated sucrose-based wastewater to produce biohydrogen (at 30 C). Different applied volumetric ... -
Hydrogen production by co-digesting cheese whey and glycerin in an AnSBBR: Temperature effect (Artigo de Periódico)
Lovato, Giovanna; Albanez, Roberta; Stracieri, Lucas; Ruggero, Letícia Scudeler; Ratusznei, Suzana Maria; Rodrigues, José Alberto Domingues (Elsevier B.V., 2018)Anaerobic processes are strongly influenced by temperature and there is considerable disagreement about the ideal or even an ideal range of temperature for biological hydrogen production. Hence, this paper was designed to ... -
Influence of Organic Load on Biohydrogen Production in an AnSBBR Treating Glucose-Based Wastewater (Artigo de Periódico)
Souza, L.P.; Lullio, T.G.; Ratusznei, Suzana Maria; Rodrigues, José Alberto Domingues; Zaiat, Marcelo (Humana Press Inc., 2015)An anaerobic sequencing batch reactor with immobilized biomass (AnSBBR) was applied to the production of biohydrogen treating a glucose-based wastewater. The influence of the applied volumetric organic load was studied by ...