Your search keyword '"waste vegetable cooking oils"' showing total 4 results

1. ATIK BİTKİSEL YEMEKLİK YAĞLARIN SAF BİTÜM ÖZELLİKLERİNE ETKİSİNİN ARAŞTIRILMASI.

Author

GÖKALP, İslam, ÖZİNAL, Yağmur, and UZ, Volkan Emre

Abstract

Copyright of SDU Journal of Engineering Sciences & Design / Mühendislik Bilimleri ve Tasarım Dergisi is the property of Journal of Engineering Sciences & Design and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

2. Effect of Biodiesel Mixture Derived from Waste Frying-Corn, Frying-Canola-Corn and Canola-Corn Cooking Oils with Various ‎Ages on Physicochemical Properties

Author

Renas Hasan Saeed Saeed, Youssef Kassem, and Hüseyin Çamur

Subjects

biodiesel properties, computer aided cooling curve analysis, correlations, response surface ‎methodology, various ages, waste vegetable cooking oils, Technology

Abstract

Waste frying, corn and canola cooking oil biodiesels were produced through the transesterification ‎process and their properties were measured. Three different mixtures of biodiesel with the same blending ratio, namely, WCME1 (frying-corn biodiesel), WCME2 (frying-canola-corn biodiesel) and WCME3 (canola-corn biodiesel), were prepared. The effect ‎of ‎blending ‎biodiesel with various ages ‎‎(zero months (WCME3), eight months (WCME1), and 30 months (WCME2)) on kinematic ‎viscosity and‎ density was investigated under varying temperature and volume fraction. It was found that the kinematic viscosity of WCME2 remained within the ranges listed in ASTM D445 (‎1.9−6.0‎ mm2/s) and EN-14214‎ (‎3.5−5.0‎ mm2/s) at 30 months. It was also observed that both viscosity and density decreased as the temperature increased for each fuel sample. In order to improve the cold flow properties of the samples, the Computer-Aided ‎Cooling Curve Analysis (CACCA) technique was used to explore the crystallization/melting ‎profiles of ‎pure ‎methyl biodiesel as ‎well their blends. The results show that pure WCME2 has the lowest cold flow properties compared to other samples. Furthermore, 10 ‎correlations ‎were developed, tested and compared with generalized ‎correlations for the ‎estimation of the ‎viscosity and densities of pure biodiesels and their ‎blends. These equations depend on the temperature and volume fraction of pure components as well as the properties of the fuel.

Published

2019

3. Effect of Biodiesel Mixture Derived from Waste Frying-Corn, Frying-Canola-Corn and Canola-Corn Cooking Oils with Various ‎Ages on Physicochemical Properties

Author

Youssef Kassem, Hüseyin Çamur, and Renas Hasan Saeed Saeed

Subjects

Control and Optimization, food.ingredient, Materials science, 020209 energy, Energy Engineering and Power Technology, 02 engineering and technology, 010501 environmental sciences, lcsh:Technology, 01 natural sciences, law.invention, Viscosity, food, response surface ‎methodology, law, correlations, 0202 electrical engineering, electronic engineering, information engineering, various ages, Food science, Response surface methodology, Electrical and Electronic Engineering, Crystallization, Canola, waste vegetable cooking oils, Engineering (miscellaneous), 0105 earth and related environmental sciences, Biodiesel, biodiesel properties, computer aided cooling curve analysis, lcsh:T, Renewable Energy, Sustainability and the Environment, Curve analysis, Transesterification, Volume fraction, Energy (miscellaneous)

Abstract

Waste frying, corn and canola cooking oil biodiesels were produced through the transesterification &lrm, process and their properties were measured. Three different mixtures of biodiesel with the same blending ratio, namely, WCME1 (frying-corn biodiesel), WCME2 (frying-canola-corn biodiesel) and WCME3 (canola-corn biodiesel), were prepared. The effect &lrm, of &lrm, blending &lrm, biodiesel with various ages &lrm, &lrm, (zero months (WCME3), eight months (WCME1), and 30 months (WCME2)) on kinematic &lrm, viscosity and&lrm, density was investigated under varying temperature and volume fraction. It was found that the kinematic viscosity of WCME2 remained within the ranges listed in ASTM D445 (&lrm, 1.9&ndash, 6.0&lrm, mm2/s) and EN-14214&lrm, (&lrm, 3.5&ndash, 5.0&lrm, mm2/s) at 30 months. It was also observed that both viscosity and density decreased as the temperature increased for each fuel sample. In order to improve the cold flow properties of the samples, the Computer-Aided &lrm, Cooling Curve Analysis (CACCA) technique was used to explore the crystallization/melting &lrm, profiles of &lrm, pure &lrm, methyl biodiesel as &lrm, well their blends. The results show that pure WCME2 has the lowest cold flow properties compared to other samples. Furthermore, 10 &lrm, correlations &lrm, were developed, tested and compared with generalized &lrm, correlations for the &lrm, estimation of the &lrm, viscosity and densities of pure biodiesels and their &lrm, blends. These equations depend on the temperature and volume fraction of pure components as well as the properties of the fuel.

Published

2019

4. Effect of Biodiesel Mixture Derived from Waste Frying-Corn, Frying-Canola-Corn and Canola-Corn Cooking Oils with Various Ages on Physicochemical Properties.

Author

Saeed, Renas Hasan Saeed, Kassem, Youssef, and Çamur, Hüseyin

Subjects

*TRANSESTERIFICATION, *KINEMATIC viscosity, *BIODIESEL fuels, *CANOLA oil, *MIXTURES, *VISCOSITY

Abstract

Waste frying, corn and canola cooking oil biodiesels were produced through the transesterification process and their properties were measured. Three different mixtures of biodiesel with the same blending ratio, namely, WCME1 (frying-corn biodiesel), WCME2 (frying-canola-corn biodiesel) and WCME3 (canola-corn biodiesel), were prepared. The effect of blending biodiesel with various ages (zero months (WCME3), eight months (WCME1), and 30 months (WCME2)) on kinematic viscosity and density was investigated under varying temperature and volume fraction. It was found that the kinematic viscosity of WCME2 remained within the ranges listed in ASTM D445 (1.9–6.0 mm2/s) and EN-14214 (3.5–5.0 mm2/s) at 30 months. It was also observed that both viscosity and density decreased as the temperature increased for each fuel sample. In order to improve the cold flow properties of the samples, the Computer-Aided Cooling Curve Analysis (CACCA) technique was used to explore the crystallization/melting profiles of pure methyl biodiesel as well their blends. The results show that pure WCME2 has the lowest cold flow properties compared to other samples. Furthermore, 10 correlations were developed, tested and compared with generalized correlations for the estimation of the viscosity and densities of pure biodiesels and their blends. These equations depend on the temperature and volume fraction of pure components as well as the properties of the fuel. [ABSTRACT FROM AUTHOR]

Published

2019