Randy L. Maglinao scite author profile

Randy L. Maglinao

5Publications

74Citation Statements Received

156Citation Statements Given

How they've been cited

104

How they cite others

274

148

Affiliations

Montana State University–Northern, University of Idaho, Montana State University

Publications

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Catalytic Thermochemical Conversion of Glycerol to Simple and Polyhydric Alcohols Using Raney Nickel Catalyst

Maglinao

2011

Ind. Eng. Chem. Res.

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The crude glycerol from biodiesel production possesses low economic values and alternative ways of converting it to valuable chemicals are needed to sustain the biodiesel industry. This study aimed to investigate the production of primary alcohols and propylene glycol from glycerol through a catalytic thermochemical process without an external supply of hydrogen. The effects of reaction time, water to glycerol ratio, and doses of catalyst on glycerol conversion and alcohol yields were investigated using a batch pressure reactor and Raney nickel catalyst. The presence of alcohols and gases in the products confirmed that hydrogen was produced and was utilized in the formation of propylene glycol through hydrogenolysis. Ethanol and propylene glycol yields of up to 10.4 ( 0.2 and 33.2 ( 1.4 mol %, respectively, were observed. It was also concluded that ethanol is formed through hydrogenolysis of propylene glycol and its yield improves at extended reaction time and increased initial water content of the feed.

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Verification of propylene glycol preparation from glycerol via the acetol pathway byin situhydrogenolysis

Maglinao

He²

2012

Biofuels

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Recent developments in synthesizing biolubricants — a review

Barberà

Hirayama

Maglinao

et al. 2022

Biomass Conv. Bioref.

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Hydrodeoxygenation–Alkylation Pathway for the Synthesis of a Sustainable Lubricant Improver from Plant Oils and Lignin-Derived Phenols

Maglinao

Resurreccion

Kumar

et al. 2019

Ind. Eng. Chem. Res.

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Fatty acid methyl esters (FAMEs) derived from plant oils are excellent lubricant improvers, but they do not have desirable oxidative stability and cold-flow properties. This study investigated phenol hydrodeoxygenation in hexadecane and aromatic alkylation of FAMEs over a K30 montmorillonite catalyst to give phenyl-branched FAME (PBFAME) as a potential lubricant improver. The high selectivity to aromatic hydrocarbons during hydrodeoxygenation over Pd/C was likely due to the slow hydrogenation rate of phenols in hexadecane, absence of hydrogen bonding in nonpolar solvents allowing hydroxyl groups to participate in dehydration reactions, and limited diffusion of hydrogen from bulk solution to Pd sites. Isomers of methyl (methylphenyl)octadecanoate (n-MMPO) were produced during toluene alkylation of methyl oleate. The presence of both Brønsted and Lewis acid sites in K30 facilitated selective synthesis of n-MMPOs. The oxidative stability and cold-flow properties of n-MMPO were better than those of canola biodiesel.

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The case for camelina-derived aviation biofuel: Sustainability underpinnings from a holistic assessment approach

Resurreccion

Roostaei²,

Martin³

et al. 2021

Industrial Crops and Products

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Randy L. Maglinao

Catalytic Thermochemical Conversion of Glycerol to Simple and Polyhydric Alcohols Using Raney Nickel Catalyst

Verification of propylene glycol preparation from glycerol via the acetol pathway byin situhydrogenolysis

Recent developments in synthesizing biolubricants — a review

Hydrodeoxygenation–Alkylation Pathway for the Synthesis of a Sustainable Lubricant Improver from Plant Oils and Lignin-Derived Phenols

The case for camelina-derived aviation biofuel: Sustainability underpinnings from a holistic assessment approach

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