Your search keyword '"alumino silicates"' showing total 5 results

1. In-Situ Synthesis and Characterization of Biodegradable Estolides via Epoxidation from Canola Biodiesel

Author

Venu Babu Borugadda and Ajay K. Dalai

Subjects

alumino silicates, biodegradability, biolubricants, canola biodiesel, epoxides, estolides, Science

Abstract

Research on the formulation of estolides from plant seed oils has attracted substantial attention due to their favorable low-temperature properties and environmentally friendly nature. The present research investigates the formulation of canola biodiesel derived estolides for low-temperature applications. The dual-step research method includes ring opening of epoxidized canola biodiesel in the presence of oleic acid, followed by esterification with oleic acid to produce estolides using a mesoporous aluminosilicates possessing Modernite Framework Inverted (MFI) type pentasil structure as a heterogeneous acidic catalyst. Prepared catalyst was characterized to measure the properties essential for the effective catalysis. The catalyst demonstrated promising activity for the estolides formation, >95% conversion was achieved at 110 °C for 6 h using 15 wt % of catalyst loading. 1H NMR technique and oxirane oxygen titrimetric analysis were employed to determine product purity. Physicochemical properties of the reaction products were determined by standard methods and characterization results revealed that the formulated estolides had improved low-temperature, lubricity and rheological properties, and thermo-oxidative stability. Also, biodegradability of the estolides was found to be 92% within 28 days as per the bio-kinetic model. Wear scar diameter of 106 µm was noticed for 10% of alkoxide blend with standard diesel fuel. Overall, outcomes of the physicochemical characterization data indicated that the prepared estolides can act as possible alternative bio-lubricant basestock for various low-temperature applications.

Published

2018

2. Development of high volume rice husk ash alumino silicate composites.

Author

Rattanasak, Ubolluk, Chindaprasirt, Prinya, and Suwanvitaya, Prasert

Abstract

The development of high volume rice husk ash (RHA) alumino silicate composites (ASC) was studied. RHA was used as the source of silica and aluminium in the ASC. The mass ratios of RHA:Al(OH) of 70:30 to 99:1 were tested. The results indicate that the obtained ASC mortars are not stable and disintegrate in water. Boric acid was introduced to the mixture to overcome this problem. Stable ASC mortars with high RHA:Al(OH) mass ratios of 90:10 to 97.5:2.5 were obtained with the use of boric acid and 115°C curing. The compressive strength of the mortar of 20 MPa was gained. The immersion test indicates that high volume RHA ASC mortars show good resistance in 3vol% HSO solution, but is slightly less durable in 5wt% MgSO solution. [ABSTRACT FROM AUTHOR]

Published

2010

3. In-Situ Synthesis and Characterization of Biodegradable Estolides via Epoxidation from Canola Biodiesel

Author

Ajay K. Dalai and Venu Babu Borugadda

Subjects

biolubricants, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Catalysis, chemistry.chemical_compound, Diesel fuel, epoxides, Lubricity, biodegradability, canola biodiesel, lcsh:Science, Biodiesel, Mechanical Engineering, Biodegradation, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Surfaces, Coatings and Films, Oleic acid, alumino silicates, chemistry, Chemical engineering, Alkoxide, estolides, lcsh:Q, 0210 nano-technology, Mesoporous material

Abstract

Research on the formulation of estolides from plant seed oils has attracted substantial attention due to their favorable low-temperature properties and environmentally friendly nature. The present research investigates the formulation of canola biodiesel derived estolides for low-temperature applications. The dual-step research method includes ring opening of epoxidized canola biodiesel in the presence of oleic acid, followed by esterification with oleic acid to produce estolides using a mesoporous aluminosilicates possessing Modernite Framework Inverted (MFI) type pentasil structure as a heterogeneous acidic catalyst. Prepared catalyst was characterized to measure the properties essential for the effective catalysis. The catalyst demonstrated promising activity for the estolides formation, &gt, 95% conversion was achieved at 110 &deg, C for 6 h using 15 wt % of catalyst loading. 1H NMR technique and oxirane oxygen titrimetric analysis were employed to determine product purity. Physicochemical properties of the reaction products were determined by standard methods and characterization results revealed that the formulated estolides had improved low-temperature, lubricity and rheological properties, and thermo-oxidative stability. Also, biodegradability of the estolides was found to be 92% within 28 days as per the bio-kinetic model. Wear scar diameter of 106 &micro, m was noticed for 10% of alkoxide blend with standard diesel fuel. Overall, outcomes of the physicochemical characterization data indicated that the prepared estolides can act as possible alternative bio-lubricant basestock for various low-temperature applications.

Published

2018

4. In-Situ Synthesis and Characterization of Biodegradable Estolides via Epoxidation from Canola Biodiesel.

Author

Borugadda, Venu Babu and Dalai, Ajay K.

Subjects

LUBRICATION & lubricants, BIODIESEL fuels, EPOXIDATION, BIODEGRADATION, OLEIC acid

Abstract

Research on the formulation of estolides from plant seed oils has attracted substantial attention due to their favorable low-temperature properties and environmentally friendly nature. The present research investigates the formulation of canola biodiesel derived estolides for low-temperature applications. The dual-step research method includes ring opening of epoxidized canola biodiesel in the presence of oleic acid, followed by esterification with oleic acid to produce estolides using a mesoporous aluminosilicates possessing Modernite Framework Inverted (MFI) type pentasil structure as a heterogeneous acidic catalyst. Prepared catalyst was characterized to measure the properties essential for the effective catalysis. The catalyst demonstrated promising activity for the estolides formation, >95% conversion was achieved at 110 °C for 6 h using 15 wt % of catalyst loading. 1H NMR technique and oxirane oxygen titrimetric analysis were employed to determine product purity. Physicochemical properties of the reaction products were determined by standard methods and characterization results revealed that the formulated estolides had improved low-temperature, lubricity and rheological properties, and thermo-oxidative stability. Also, biodegradability of the estolides was found to be 92% within 28 days as per the bio-kinetic model. Wear scar diameter of 106 µm was noticed for 10% of alkoxide blend with standard diesel fuel. Overall, outcomes of the physicochemical characterization data indicated that the prepared estolides can act as possible alternative bio-lubricant basestock for various low-temperature applications. [ABSTRACT FROM AUTHOR]

Published

2018

5. Composition of Matter Containing Carbon.

Author

DEPARTMENT OF THE ARMY WASHINGTON D C, Asher,William J, DEPARTMENT OF THE ARMY WASHINGTON D C, and Asher,William J

Abstract

The general object of this invention is to provide a new composition of matter for the fuel cell electrode of a hydrocarbon-air fuel cell in which improved platinum utilization is obtained. A further object of the invention is to provide a high surface area base support onto which a catalyst such as platinum can be deposited. According to the invention, a new composition of matter is provided. It is an alumino silicate on porous carbon. The alumino silicate exists as a layer tetrahedra of aluminum and silicon atoms each surrounded by four oxygen atoms. This layer is deposited on the walls of the pores of the carbon particles.

Published

1973