An economic model for estimating the viability of biodiesel production from Jatropha curcas L

BACKGROUND At commercial level, the biodiesel production process is well established for many types of feedstock. However, economic feasibility depends on regional fluctuating data, making each case unique. A calculation model to analyze the economic feasibility of biodiesel production from Jatropha...

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Bibliographic Details
Published in:Journal of chemical technology and biotechnology (1986) 2017-05, Vol.92 (5), p.971-980
Main Authors: Navarro‐Pineda, Freddy S, Ponce‐Marbán, Donny V, Sacramento‐Rivero, Julio C, Barahona‐Pérez, Luis F
Format: Article
Language:English
Subjects:
Biodiesel
biofuels
Cost engineering
Diesel fuels
Economic analysis
Economics
Energy consumption
Fertilizers
Jatropha curcas
net energy balance
renewable energy
seed productivity
transesterification
Viability
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Summary:BACKGROUND At commercial level, the biodiesel production process is well established for many types of feedstock. However, economic feasibility depends on regional fluctuating data, making each case unique. A calculation model to analyze the economic feasibility of biodiesel production from Jatropha curcas was developed, along with an analysis of the energetic balance derived from this process. RESULTS Yucatán state has the cultivation surface to replace 10% of its fossil diesel fuel consumption with biodiesel. Two scenarios were studied: the use of biodiesel–fossil diesel blends B5 and B10. The net energy ratio (NER) of biodiesel production is 2.88, indicating that the system provides more energy than it consumes. The economic analysis indicates that biodiesel cost remains constant with production capacities of 10 000 m3 year−1 and higher. Field labor, pesticides, and fertilizers are the major costs at J. curcas plantations, representing 64.3, 16.3 and 11.5% of total biodiesel cost, respectively. The net present value (NPV) was always negative, proving that the biodiesel–jatropha chain is not economically viable. CONCLUSIONS Actual seed productivity (1 495 kg ha−1 year−1) must be increased 2.17 times to attain economic viability. Agricultural practices need to be enhanced in order to lower labor cost and the use of fertilizers. © 2016 Society of Chemical Industry
ISSN:0268-2575
1097-4660
DOI:10.1002/jctb.5058