2023
DOI: 10.1039/d3se00822c
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Predicting the physical properties of three-component lignocellulose derived advanced biofuel blends using a design of experiments approach

Scott Wiseman,
Christian A. Michelbach,
Hu Li
et al.

Abstract: Predictive models of selected physical properties of advanced biofuel blends produced using a design of experiments methodology. C4/C5 alcohol-based blends superior to C2 ones as diesel replacements since they better match selected property limits.

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Cited by 3 publications
(1 citation statement)
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“…Few studies shed light on the kinematic viscosity of opaque liquids determined using ASTM D445 [6][7][8]. Recently and in a still timid manner, some studies using the design of experiments have been applied to fuel and biofuels, such as the prediction of the physical properties of biofuels [9], the evaluation of the correlation between the ratio of light biofuel and refined palm oil blends on their density and kinematic viscosity properties [10], and the minimisation of the kinematic viscosity and maximisation of the biodiesel yield during a transesterification reaction [11]. Furthermore, kinematic viscosity has been used in several studies regarding the quality of biodiesel [12][13][14][15].…”
Section: Introductionmentioning
confidence: 99%
“…Few studies shed light on the kinematic viscosity of opaque liquids determined using ASTM D445 [6][7][8]. Recently and in a still timid manner, some studies using the design of experiments have been applied to fuel and biofuels, such as the prediction of the physical properties of biofuels [9], the evaluation of the correlation between the ratio of light biofuel and refined palm oil blends on their density and kinematic viscosity properties [10], and the minimisation of the kinematic viscosity and maximisation of the biodiesel yield during a transesterification reaction [11]. Furthermore, kinematic viscosity has been used in several studies regarding the quality of biodiesel [12][13][14][15].…”
Section: Introductionmentioning
confidence: 99%