Biodiesel production and characterization from non-edible oil tree species Aleurites trisperma Blanco

Kumar, Karan; Channarayappa,; Chandrika, K.; Prasanna, K. T.; Gowda, Balakrishna

doi:10.1007/s13399-014-0152-4

Cited by 22 publications

(16 citation statements)

References 18 publications

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“…R. trisperma is a tree that is 10-15 m in height [41]. In Indonesia, it is called "kemiri sunan" and is used as a natural pesticide and fertilizer [28].…”

Section: Potential Biofuel Species In Indonesiamentioning

confidence: 99%

“…It is also used for land rehabilitation owing to its capacity to mitigate land erosion. Although one tree can yield about 25-30 kg of seeds per year, they are toxic and inedible [41,42]. There is interest in biofuel production from R. trisperma oil because of its high oil yield [28,43,44].…”

Section: Potential Biofuel Species In Indonesiamentioning

confidence: 99%

“…The data were used to identify protected forest (Hutan Lindung) and conservation forest (Hutan Konservasi) defined by the Basic Forestry Law, UU No. 41,1999. The law defines protected forest as an area that protects life support systems by regulating water cycles, maintaining soil fertility, and preventing floods, erosion, and salt water intrusion.…”

Section: Identification Of Degraded Lands In Indonesiamentioning

confidence: 99%

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Spatial Assessment of Degraded Lands for Biofuel Production in Indonesia

et al. 2018

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This study spatially estimated degraded lands in Indonesia that have limited functions for food production, carbon storage, and conservation of biodiversity and native vegetation and examined their suitability to grow biodiesel species (Calophyllum inophyllum, Pongamia pinnata, and Reutealis trisperma) and biomass species (Calliandra calothyrsus and Gliricidia sepium). Results showed ~3.5 million ha of degraded lands potentially suitable for these species in Indonesia. With the all-five-species scenario, these lands had the potential to produce 1105 PJ year−1 of biomass and 3 PJ year−1 of biodiesel. With the biodiesel-only-species scenario, these lands showed the potential to produce 10 PJ year−1 of biodiesel. Despite this energy potential, however, the land sizes were too small to support economies of scale for biofuel production. The study findings contribute to identifying lands with limited functions, modeling the growth of biofuel species on regional lands, and estimating carbon stocks of restored degraded lands in Indonesia.

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“…R. trisperma is a tree that is 10-15 m in height [41]. In Indonesia, it is called "kemiri sunan" and is used as a natural pesticide and fertilizer [28].…”

Section: Potential Biofuel Species In Indonesiamentioning

confidence: 99%

Section: Potential Biofuel Species In Indonesiamentioning

confidence: 99%

Section: Identification Of Degraded Lands In Indonesiamentioning

confidence: 99%

See 1 more Smart Citation

Spatial Assessment of Degraded Lands for Biofuel Production in Indonesia

et al. 2018

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“…R. trisperma is a tree of 10-15 m height [50]. In Indonesia, it is called "kemiri sunan" and is used as a natural pesticide and fertilizer [40].…”

Section: Potential Biofuel Species In Indonesiamentioning

confidence: 99%

“…It is also used for land rehabilitation owing to its capacity to mitigate land erosion. Although one tree can yield about 25-30 kg of seeds per year, they are toxic and inedible [50][51]. There is interest in biofuel production from R. trisperma oil because of its high oil yield [40,[52][53].…”

Section: Potential Biofuel Species In Indonesiamentioning

confidence: 99%

Spatial Assessment of Degraded Lands for Biofuel Production in Indonesia

Jaung¹,

Wiraguna²,

Okarda³

et al. 2018

Preprint

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This study spatially estimates degraded lands in Indonesia that have limited functions for food production, carbon storage, and conservation of biodiversity and native vegetation, and examines their suitability to grow biodiesel species (Calophyllum inophyllum, Pongamia pinnata and Reutealis trisperma) and biomass species (Calliandra calothyrsus and Gliricidia sepium). Results showed that Indonesia has &sim;3.5 million ha of degraded lands potentially suitable for these species. With the all-five-species scenario, these lands had the potential to produce 1105 PJ yr−1 of biomass and 3 PJ yr−1 of biodiesel. With the biodiesel-only-species scenario, these lands showed the potential to produce 10 PJ yr−1 of biodiesel. Despite this energy potential, however, the land sizes were too small to support economies of scale for biofuel production. The study findings contribute to identifying lands with limited functions, modeling biofuel-species growth on regional lands and estimating carbon stocks of restored degraded lands in Indonesia.

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