Economic Considerations on Nutrient Utilization in Wastewater Management
Josef Maroušek,Anna Maroušková +1 more
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TLDR
In this paper, the use of Spirulina biodiesel blends had a positive impact on the reduction of greenhouse gas emissions, including reductions of 16.3%, 3.6, 6.8, and 12.35% of CO, NOx, and smoke, respectively.Abstract:
There is wide consensus that Spirulina can serve as a tool for wastewater management and simultaneously provide feedstock for biorefining. However, the economic aspects associated with its use remain a significant challenge. Spirulina cultivated in wastewater decreased the concentrations of both ammonia and nitrate and also served as a biodiesel source. The oil obtained in the feedstock was subjected to transesterification and turned into biodiesel. The biodiesel was subsequently analyzed in a test motor (water-cooled, four-stroke, single-cylinder compression ignition with injection). The tests were conducted at a constant 1500 rpm, and the output power was 3.7 kW. Mixtures of diesel and biodiesel were also enriched with carbon nanotubes (CNTs). The amount of CNTs added to the diesel was 30 mg L−1. The algae and de-oiled biomass were characterized using XRD analysis, and an ultrasonicator was used to mix the CNTs with diesel and spirulina blends. A series of tests were conducted at different load conditions (25%, 50%, 75%, and 100%) for all fuel blends. Test results were compared with a neat diesel engine with a CR of 17.5:1. Among the fuel blends, the B25 reported improved brake thermal efficiency and reduced emissions. The outcomes are a reduction in thermal efficiency of 0.98% and exhaust gas temperature of 1.7%. The addition of Spirulina biodiesel blends had a positive impact on the reduction of greenhouse gas emissions, including reductions of 16.3%, 3.6%, 6.8%, and 12.35% of CO, NOx, and smoke, respectively. The specific fuel consumption and CO2 emissions were reduced by 5.2% and 2.8%, respectively, for B25 fuel blends compared to plain diesel and B50. Concerning cost competitiveness, vigorous research on microalgae for the production of biodiesel can cut production costs in the future.read more
Citations
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Techno-economic analysis reveals the untapped potential of wood biochar
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References
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Comparison of several methods for effective lipid extraction from microalgae
TL;DR: The microwave oven method was identified as the most simple, easy, and effective for lipid extraction from microalgae.
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Production, characterization and performance of biodiesel as an alternative fuel in diesel engines – A review
H.M. Mahmudul,Ftwi Yohaness Hagos,Rizalman Mamat,A. Abdul Adam,Wan Faizal Wan Ishak,R. Alenezi +5 more
TL;DR: In this paper, the authors provided the substantial information on biodiesel to the researchers, engineers and policy makers, and concluded that biodiesel has the potential to be used as a diesel fuel substitute in diesel engines to solve the energy and environment crisis.
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Combustion, emission and engine performance characteristics of used cooking oil biodiesel—A review
TL;DR: In this paper, the authors collected and analyzed published works mainly in scientific journals about the engine performance, combustion and emissions characteristics of cooking oil (UCO) biodiesel on diesel engine.
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An updated comprehensive techno-economic analysis of algae biodiesel.
TL;DR: An updated comprehensive techno-economic analysis was conducted with optimized processes and improved cost estimations, suggesting that a single step biodiesel production process is close to commercial reality.
Journal ArticleDOI
Use of Spirulina biomass produced from treatment of aquaculture wastewater as agricultural fertilizers
TL;DR: In this article, the technical feasibility of growing Spirulina platensis with fish water for production of algae fertilizers was investigated, and it was found that the remediation potential of S. platensis was good for ammonia and nitrate removal, but inadequate for nitrite removal.