Transesterification of Waste Cooking Oil to Biodiesel over Calcined Hydroxy Sodalite (HS) Catalyst: A preliminary investigation

Makgaba, Chabisha P.; Daramola, Michael O.

doi:10.2991/seee-15.2015.14

Cited by 4 publications

(3 citation statements)

References 16 publications

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“…By increasing the synthesis time to 24 h, the morphology of the resultant S-24 sample, as presented in Figure 2c, evolved into agglomerated thread, ball-like crystals. The hierarchical ball-like morphology is commonly associated with HS zeolite [9]. In spite of the above, the sample in question exhibited a very low HS crystalline phase (18%).…”

Section: Effect Of Hydrothermal Synthesis Time On Catalyst Morphologymentioning

confidence: 99%

Synthesis of Hydroxy Sodalite from Coal Fly Ash for Biodiesel Production from Waste-Derived Maggot Oil

et al. 2019

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Zeolites are aluminosilicate crystalline materials known for their unique characteristics, and have been prominent for nearly half a century due to their wide and important industrial applications. The production of zeolites, however, remains a challenge due to the high cost of commercial reagents conventionally used as feedstocks. In the current study, hydroxy sodalite (HS) zeolite samples were synthesised from coal fly ash feedstock by a direct hydrothermal synthesis method. The effects of hydrothermal crystallisation synthesis time on phase crystallinity, crystal size, and morphology of the formed HS were investigated. The prepared samples were characterised using XRD, SEM, EDS and FT-IR techniques. The XRD results of the samples prepared with varying synthesis times confirmed the formation of HS from low to high phase purity and crystallinity from 11 to over 98%. The SEM results reflected gradual variation in crystal morphology, of which highly crystalline HS samples were associated with hexagonal-cubic and cubic-platelet crystals. The FTIR, depicting zeolite characteristics of T-O and T-O-T stretching vibrations in the molecular framework, further confirmed the formation of HS zeolites for samples obtained above the 24-h synthesis time. These zeolite samples were then evaluated for their catalytic activities in the conversion of maggot oil to biodiesel. The application of the various hydroxy sodalite samples for the transesterification of maggot oil yielded up to 84.10% biodiesel (FAME) with physicochemical properties that were in compliance with the biodiesel specification standards. This study investigated the novel use of a coal fly ash-derived, heterogeneous HS catalyst in biodiesel production from maggot oil, and indicates its potential to enhance biodiesel yield and quality upon process optimisation tests.

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Section: Effect Of Hydrothermal Synthesis Time On Catalyst Morphologymentioning

confidence: 99%

Synthesis of Hydroxy Sodalite from Coal Fly Ash for Biodiesel Production from Waste-Derived Maggot Oil

et al. 2019

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“…Its possession of higher flashpoint in comparison to petroleum-derived diesel makes it one of the safest and non-toxic fuels option (Aransiola et al, 2013). Chabisha P Makgaba and Daramola (2015) observed that the application of biodiesel within a diesel internal combustion system improved the lubricity of the system and extended the catalytic converters life when compared to the base system. The system production process and general utilisation cuts down emissions drastically to about seventy-eight percent when compared to petroleum-derived diesel.…”

Section: Introductionmentioning

confidence: 99%

Biodiesel production from palm olein: A sustainable bioresource for Nigeria

Ishola

Adelekan

Mamudu

et al. 2020

Heliyon

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Dangerous environmental consequences and market unpredictability of fossil fuels have necessitated the need for sustainable large-scale production of biofuel in Nigeria. Unrefined palm oil (UPO) is a significant product of commercially available oil palm plants in the country. This study experimentally investigates the production of biodiesel from refined, bleached and deodorised (RBD) palm olein extracted from UPO obtained from batch reactors. The transesterification process of the RBD palm olein with methanol and in the presence of potassium hydroxide (KOH) catalyst produced biodiesel with a 62.5% yield, thus confirming its feasibility for mass production. The derived biodiesel has properties equivalent to ASTM D792 standard for biodiesel fuels.

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“…Binder (% wt) Workability e agglomerated ball-like morphology is commonly associated with hydroxysodalite zeolite [40]. It is evident that the morphological representation of hydroxysodalite and mixture with others zeolite types through SEM data does not always allow the particular phase identity [41].…”

Section: Samplementioning

confidence: 99%

Optimization of Pelleting Parameters for Producing Composite Pellets Using Zeolitic Material From Fly Ash

Fungaro

Bertolini

2023

J. Appl. Mat. Tech.

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Zeolitic material in powder form was prepared from fly ash by direct activation treatment. The resulted fly ash-based zeolite was pelletizing and the effect of different inorganic (calcium hydroxide, bentonite, kaolinite) and organic (dextrin) binders with varying percentage was investigated. The zeolitic materials were analyzed by XRF, XRD, SEM, FTIR, TG-DTG and Nitrogen adsorption/desorption isotherm. Compression and impact tests have been used to study the deformation and breakage behaviour of spherical granules. The best performance was obtained by zeolite granular containing 5 wt.% bentonite and 5 wt.% kaolinite with mechanical strength and satisfactory water resistance. The synthesis of pelletized zeolite from by-products derived from coal combustion provides not only environmental and economic benefits, but also contributes to achieving the principles of sustainable development.

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Transesterification of Waste Cooking Oil to Biodiesel over Calcined Hydroxy Sodalite (HS) Catalyst: A preliminary investigation

Cited by 4 publications

References 16 publications

Synthesis of Hydroxy Sodalite from Coal Fly Ash for Biodiesel Production from Waste-Derived Maggot Oil

Synthesis of Hydroxy Sodalite from Coal Fly Ash for Biodiesel Production from Waste-Derived Maggot Oil

Biodiesel production from palm olein: A sustainable bioresource for Nigeria

Optimization of Pelleting Parameters for Producing Composite Pellets Using Zeolitic Material From Fly Ash

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