Economic perspective of ethanol and biodiesel coproduction from industrial hemp

In this study, the economics of producing biofuels from an industrial hemp (Cannabis sativa) genotype – 19m96136 was investigated. A lignocellulosic biofuel plant, hourly consuming 85 metric tons of hemp biomass was modeled in SuperPro Designer®. The integrated bioenergy plant produced hemp biodiese...

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Published inJournal of cleaner production Vol. 299; no. C; p. 126875
Main Authors Viswanathan, Mothi Bharath, Cheng, Ming-Hsun, Clemente, Tom Elmo, Dweikat, Ismail, Singh, Vijay
Format Journal Article
LanguageEnglish
Published United Kingdom Elsevier Ltd 25.05.2021
Elsevier
Subjects
agricultural land
Biodiesel
Bioethanol
biomass
Cannabis sativa
energy crops
ethanol
Fatty acid methyl esters
feedstocks
genotype
hemp
Industrial hemp
lignocellulose
lipid content
lipids
soybeans
Technoeconomic analysis
Triacylglycerol
Technoeconomic analysis
Bioethanol
Triacylglycerol
Biodiesel
Industrial hemp
Fatty acid methyl esters
Online AccessGet full text
ISSN0959-6526
1879-1786
DOI10.1016/j.jclepro.2021.126875

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Abstract In this study, the economics of producing biofuels from an industrial hemp (Cannabis sativa) genotype – 19m96136 was investigated. A lignocellulosic biofuel plant, hourly consuming 85 metric tons of hemp biomass was modeled in SuperPro Designer®. The integrated bioenergy plant produced hemp biodiesel and bioethanol from lipids and carbohydrates, respectively. The structural composition of the industrial hemp plant was analyzed in a previous study. The data obtained was used to simulate feedstock composition in SuperPro Designer®. The simulation results indicated that Hemp containing 2% lipids can yield up to 3.95 million gallons of biodiesel annually. On improving biomass lipid content to 5 and 10%, biodiesel production increased to 9.88 and 19.91 million gallons, respectively. The breakeven unit production cost of hemp biodiesel with 2, 5, and 10% lipid containing hemp was $18.49, $7.87, and $4.13/gallon, respectively. The biodiesel unit production cost when utilizing 10% lipid-containing hemp was comparable to soybean biodiesel at $4.13/gallon. Furthermore, sensitivity analysis revealed the possibility of a 7.80% reduction in unit production cost upon a 10% reduction in hemp feedstock cost. Furthermore, industrial hemp was capable of producing between 307.80 and 325.82 gallons of total biofuels per hectare of agricultural land than soybean. •Between 3.95 and 19.91 million gallons/yr of biodiesel can be produced from industrial hemp containing 2–10% lipids.•The breakeven unit production cost (UPC) of hemp biodiesel varied between $18.49 and $4.31/gallon biodiesel.•At 10% lipid concentration in hemp biomass, the UPC is comparable to soybean biodiesel.•A hectare of industrial hemp can produce 51% more biodiesel than soybean.
AbstractList In this study, the economics of producing biofuels from an industrial hemp (Cannabis sativa) genotype – 19m96136 was investigated. A lignocellulosic biofuel plant, hourly consuming 85 metric tons of hemp biomass was modeled in SuperPro Designer®. The integrated bioenergy plant produced hemp biodiesel and bioethanol from lipids and carbohydrates, respectively. The structural composition of the industrial hemp plant was analyzed in a previous study. The data obtained was used to simulate feedstock composition in SuperPro Designer®.The simulation results indicated that Hemp containing 2% lipids can yield up to 3.95 million gallons of biodiesel annually. On improving biomass lipid content to 5 and 10%, biodiesel production increased to 9.88 and 19.91 million gallons, respectively. The breakeven unit production cost of hemp biodiesel with 2, 5, and 10% lipid containing hemp was $18.49, $7.87, and $4.13/gallon, respectively. The biodiesel unit production cost when utilizing 10% lipid-containing hemp was comparable to soybean biodiesel at $4.13/gallon. Furthermore, sensitivity analysis revealed the possibility of a 7.80% reduction in unit production cost upon a 10% reduction in hemp feedstock cost. Furthermore, industrial hemp was capable of producing between 307.80 and 325.82 gallons of total biofuels per hectare of agricultural land than soybean.
In this study, the economics of producing biofuels from an industrial hemp (Cannabis sativa) genotype – 19m96136 was investigated. A lignocellulosic biofuel plant, hourly consuming 85 metric tons of hemp biomass was modeled in SuperPro Designer®. The integrated bioenergy plant produced hemp biodiesel and bioethanol from lipids and carbohydrates, respectively. The structural composition of the industrial hemp plant was analyzed in a previous study. The data obtained was used to simulate feedstock composition in SuperPro Designer®. The simulation results indicated that Hemp containing 2% lipids can yield up to 3.95 million gallons of biodiesel annually. On improving biomass lipid content to 5 and 10%, biodiesel production increased to 9.88 and 19.91 million gallons, respectively. The breakeven unit production cost of hemp biodiesel with 2, 5, and 10% lipid containing hemp was $18.49, $7.87, and $4.13/gallon, respectively. The biodiesel unit production cost when utilizing 10% lipid-containing hemp was comparable to soybean biodiesel at $4.13/gallon. Furthermore, sensitivity analysis revealed the possibility of a 7.80% reduction in unit production cost upon a 10% reduction in hemp feedstock cost. Furthermore, industrial hemp was capable of producing between 307.80 and 325.82 gallons of total biofuels per hectare of agricultural land than soybean. •Between 3.95 and 19.91 million gallons/yr of biodiesel can be produced from industrial hemp containing 2–10% lipids.•The breakeven unit production cost (UPC) of hemp biodiesel varied between $18.49 and $4.31/gallon biodiesel.•At 10% lipid concentration in hemp biomass, the UPC is comparable to soybean biodiesel.•A hectare of industrial hemp can produce 51% more biodiesel than soybean.
ArticleNumber 126875
Author Clemente, Tom Elmo
Singh, Vijay
Dweikat, Ismail
Viswanathan, Mothi Bharath
Cheng, Ming-Hsun
Author_xml – sequence: 1
  givenname: Mothi Bharath
  orcidid: 0000-0002-1235-1970
  surname: Viswanathan
  fullname: Viswanathan, Mothi Bharath
  organization: Department of Agricultural and Biological Engineering, University of Illinois at Urbana-Champaign, Urbana, IL, USA
– sequence: 2
  givenname: Ming-Hsun
  surname: Cheng
  fullname: Cheng, Ming-Hsun
  organization: Department of Agricultural and Biological Engineering, University of Illinois at Urbana-Champaign, Urbana, IL, USA
– sequence: 3
  givenname: Tom Elmo
  surname: Clemente
  fullname: Clemente, Tom Elmo
  organization: Center for Plant Science Innovation, University of Nebraska-Lincoln, Lincoln, NE, 68588-0666, USA
– sequence: 4
  givenname: Ismail
  surname: Dweikat
  fullname: Dweikat, Ismail
  organization: Department of Agronomy and Horticulture, University of Nebraska-Lincoln, Lincoln, NE, 68588-0666, USA
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  givenname: Vijay
  surname: Singh
  fullname: Singh, Vijay
  email: vsingh@illinois.edu
  organization: Department of Agricultural and Biological Engineering, University of Illinois at Urbana-Champaign, Urbana, IL, USA
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Bioethanol
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Fatty acid methyl esters
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Snippet In this study, the economics of producing biofuels from an industrial hemp (Cannabis sativa) genotype – 19m96136 was investigated. A lignocellulosic biofuel...
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SubjectTerms agricultural land
Biodiesel
Bioethanol
biomass
Cannabis sativa
energy crops
ethanol
Fatty acid methyl esters
feedstocks
genotype
hemp
Industrial hemp
lignocellulose
lipid content
lipids
soybeans
Technoeconomic analysis
Triacylglycerol
Title Economic perspective of ethanol and biodiesel coproduction from industrial hemp
URI https://dx.doi.org/10.1016/j.jclepro.2021.126875
https://www.proquest.com/docview/2524304269
https://www.osti.gov/biblio/1782742
Volume 299
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