Influence of biochemical composition during hydrothermal liquefaction of algae on product yields and fuel properties

Rajdeep Shakya; Sushil Adhikari; Ravishankar Mahadevan; Saravanan R. Shanmugam; Hyungseok Nam; El Barbary Hassan; Thomas A. Dempster

doi:10.1016/j.biortech.2017.07.046

Influence of biochemical composition during hydrothermal liquefaction of algae on product yields and fuel properties

Rajdeep Shakya, Sushil Adhikari, Ravishankar Mahadevan, Saravanan R. Shanmugam, Hyungseok Nam, El Barbary Hassan, Thomas A. Dempster

Research output: Contribution to journal › Article › peer-review

114 Scopus citations

Abstract

Hydrothermal liquefaction (HTL) of nine algae species were performed at two reaction temperatures (280 and 320 °C) to compare the effect of their biomass composition on product yields and properties. Results obtained after HTL indicate large variations in terms of bio-oil yields and its properties. The maximum bio-oil yield (66 wt%) was obtained at 320 °C with a high lipid containing algae Nannochloropsis. The higher heating value of bio-oils ranged from 31 to 36 MJ/kg and around 50% of the bio-oils was in the vacuum gas oil range while high lipid containing algae Nannochloropsis contained a significant portion (33–42%) in the diesel range. A predictive relationship between bio-oil yields and biochemical compositions was developed and showed a broad agreement between predictive and experimental yields. The aqueous phases obtained had high amount of TOC (12–43 g/L), COD (35–160 g/L), TN (1–18 g/L), ammonium (0.34–12 g/L) and phosphate (0.7–12 g/L).

Original language	English
Pages (from-to)	1112-1120
Number of pages	9
Journal	Bioresource Technology
Volume	243
DOIs	https://doi.org/10.1016/j.biortech.2017.07.046
State	Published - 2017

Keywords

Algae
Aqueous phase
Bio-oil
Biochemical composition
Hydrothermal liquefaction

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10.1016/j.biortech.2017.07.046

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title = "Influence of biochemical composition during hydrothermal liquefaction of algae on product yields and fuel properties",

abstract = "Hydrothermal liquefaction (HTL) of nine algae species were performed at two reaction temperatures (280 and 320 °C) to compare the effect of their biomass composition on product yields and properties. Results obtained after HTL indicate large variations in terms of bio-oil yields and its properties. The maximum bio-oil yield (66 wt%) was obtained at 320 °C with a high lipid containing algae Nannochloropsis. The higher heating value of bio-oils ranged from 31 to 36 MJ/kg and around 50% of the bio-oils was in the vacuum gas oil range while high lipid containing algae Nannochloropsis contained a significant portion (33–42%) in the diesel range. A predictive relationship between bio-oil yields and biochemical compositions was developed and showed a broad agreement between predictive and experimental yields. The aqueous phases obtained had high amount of TOC (12–43 g/L), COD (35–160 g/L), TN (1–18 g/L), ammonium (0.34–12 g/L) and phosphate (0.7–12 g/L).",

keywords = "Algae, Aqueous phase, Bio-oil, Biochemical composition, Hydrothermal liquefaction",

author = "Rajdeep Shakya and Sushil Adhikari and Ravishankar Mahadevan and Shanmugam, {Saravanan R.} and Hyungseok Nam and Hassan, {El Barbary} and Dempster, {Thomas A.}",

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year = "2017",

doi = "10.1016/j.biortech.2017.07.046",

language = "English",

volume = "243",

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AU - Shakya, Rajdeep

AU - Adhikari, Sushil

AU - Mahadevan, Ravishankar

AU - Shanmugam, Saravanan R.

AU - Nam, Hyungseok

AU - Hassan, El Barbary

AU - Dempster, Thomas A.

PY - 2017

Y1 - 2017

N2 - Hydrothermal liquefaction (HTL) of nine algae species were performed at two reaction temperatures (280 and 320 °C) to compare the effect of their biomass composition on product yields and properties. Results obtained after HTL indicate large variations in terms of bio-oil yields and its properties. The maximum bio-oil yield (66 wt%) was obtained at 320 °C with a high lipid containing algae Nannochloropsis. The higher heating value of bio-oils ranged from 31 to 36 MJ/kg and around 50% of the bio-oils was in the vacuum gas oil range while high lipid containing algae Nannochloropsis contained a significant portion (33–42%) in the diesel range. A predictive relationship between bio-oil yields and biochemical compositions was developed and showed a broad agreement between predictive and experimental yields. The aqueous phases obtained had high amount of TOC (12–43 g/L), COD (35–160 g/L), TN (1–18 g/L), ammonium (0.34–12 g/L) and phosphate (0.7–12 g/L).

AB - Hydrothermal liquefaction (HTL) of nine algae species were performed at two reaction temperatures (280 and 320 °C) to compare the effect of their biomass composition on product yields and properties. Results obtained after HTL indicate large variations in terms of bio-oil yields and its properties. The maximum bio-oil yield (66 wt%) was obtained at 320 °C with a high lipid containing algae Nannochloropsis. The higher heating value of bio-oils ranged from 31 to 36 MJ/kg and around 50% of the bio-oils was in the vacuum gas oil range while high lipid containing algae Nannochloropsis contained a significant portion (33–42%) in the diesel range. A predictive relationship between bio-oil yields and biochemical compositions was developed and showed a broad agreement between predictive and experimental yields. The aqueous phases obtained had high amount of TOC (12–43 g/L), COD (35–160 g/L), TN (1–18 g/L), ammonium (0.34–12 g/L) and phosphate (0.7–12 g/L).

KW - Algae

KW - Aqueous phase

KW - Bio-oil

KW - Biochemical composition

KW - Hydrothermal liquefaction

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VL - 243

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EP - 1120

JO - Bioresource Technology

JF - Bioresource Technology

ER -

Influence of biochemical composition during hydrothermal liquefaction of algae on product yields and fuel properties

Abstract

Keywords

UN SDGs

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