Investigating the Use of Recycled Pork Fat-Based Biodiesel in Aviation Turbo Engines

Investigating the Use of Recycled Pork Fat-Based Biodiesel in Aviation Turbo Engines

This paper presents an analysis of the possibility of using recycled pork fat-based biodiesel as fuel for aviation turbo-engines. The analysis consists of the assessment of four blends of Jet A kerosene with 10%, 30%, 50%, and 100% biodiesel and pure Jet A that was used as reference in the study. Th...

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Main Authors: Grigore Cican, Marius Deaconu, Radu Mirea, Laurentiu Ceatra, Mihaiella Cretu, Tănase Dobre
Format: Article
Language:English
Published: MDPI AG 2020-09-01
Series:Processes
Subjects:
biodiesel
recycled pork fat
turbo engine performance
bio-aviation fuel
Online Access:https://www.mdpi.com/2227-9717/8/9/1196
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spelling doaj-882fa517b15941b3a5dc642ebb5796502020-11-25T03:35:01ZengMDPI AGProcesses2227-97172020-09-0181196119610.3390/pr8091196Investigating the Use of Recycled Pork Fat-Based Biodiesel in Aviation Turbo EnginesGrigore Cican0Marius Deaconu1Radu Mirea2Laurentiu Ceatra3Mihaiella Cretu4Tănase Dobre5Faculty of Aerospace Engineering, Polytechnic University of Bucharest, 1−7 Polizu Street, 1, 011061 Bucharest, RomaniaNational Research and Development Institute for Gas Turbines COMOTI, 220D Iuliu Maniu, 061126 Bucharest, RomaniaNational Research and Development Institute for Gas Turbines COMOTI, 220D Iuliu Maniu, 061126 Bucharest, RomaniaNational Research and Development Institute for Gas Turbines COMOTI, 220D Iuliu Maniu, 061126 Bucharest, RomaniaNational Research and Development Institute for Gas Turbines COMOTI, 220D Iuliu Maniu, 061126 Bucharest, RomaniaFaculty of Applied Chemistry and Materials Science, Polytechnic University of Bucharest, 1−7 Polizu Street, 1, 011061 Bucharest, RomaniaThis paper presents an analysis of the possibility of using recycled pork fat-based biodiesel as fuel for aviation turbo-engines. The analysis consists of the assessment of four blends of Jet A kerosene with 10%, 30%, 50%, and 100% biodiesel and pure Jet A that was used as reference in the study. The first part of the paper presents the physical-chemical properties of the blends: density, viscosity, flash point, freezing point, and calorific power. Through Fourier transform infrared spectroscopy (FTIR) analysis, a benchmark was performed on the mixtures of Jet A with 10%, 20%, 30%, 50%, and 100% biodiesel compared with Jet A. The second part of the paper presents the test results of these blends used for fuelling a Jet Cat P80 turbo engine at the Turbo Engines Laboratory of the Aerospace Engineering Faculty of Polyethnic University of Bucharest. These functional tests were performed using different operating regimes as follows: idle, cruise, intermediate, and maximum. For each regime, a testing period of around 1 min was selected and the engine parameters were monitored during the test execution. The burning efficiency was calculated for the maximum regime for all mixtures. To evaluate the functioning stability of the turbo engine using biodiesel, two accelerometers were mounted on the engine support that recorded the radial and axial vibrations. Moreover, to assess the burning stability and to identify other acoustic spectral components when biodiesel is used, two microphones were placed near the jet region. A comparative analysis between blends was made by taking the Jet A fuel as reference.https://www.mdpi.com/2227-9717/8/9/1196biodieselrecycled pork fatturbo engine performancebio-aviation fuel
collection DOAJ
language English
format Article
sources DOAJ
author Grigore Cican
Marius Deaconu
Radu Mirea
Laurentiu Ceatra
Mihaiella Cretu
Tănase Dobre
spellingShingle Grigore Cican
Marius Deaconu
Radu Mirea
Laurentiu Ceatra
Mihaiella Cretu
Tănase Dobre
Investigating the Use of Recycled Pork Fat-Based Biodiesel in Aviation Turbo Engines
Processes
biodiesel
recycled pork fat
turbo engine performance
bio-aviation fuel
author_facet Grigore Cican
Marius Deaconu
Radu Mirea
Laurentiu Ceatra
Mihaiella Cretu
Tănase Dobre
author_sort Grigore Cican
title Investigating the Use of Recycled Pork Fat-Based Biodiesel in Aviation Turbo Engines
title_short Investigating the Use of Recycled Pork Fat-Based Biodiesel in Aviation Turbo Engines
title_full Investigating the Use of Recycled Pork Fat-Based Biodiesel in Aviation Turbo Engines
title_fullStr Investigating the Use of Recycled Pork Fat-Based Biodiesel in Aviation Turbo Engines
title_full_unstemmed Investigating the Use of Recycled Pork Fat-Based Biodiesel in Aviation Turbo Engines
title_sort investigating the use of recycled pork fat-based biodiesel in aviation turbo engines
publisher MDPI AG
series Processes
issn 2227-9717
publishDate 2020-09-01
description This paper presents an analysis of the possibility of using recycled pork fat-based biodiesel as fuel for aviation turbo-engines. The analysis consists of the assessment of four blends of Jet A kerosene with 10%, 30%, 50%, and 100% biodiesel and pure Jet A that was used as reference in the study. The first part of the paper presents the physical-chemical properties of the blends: density, viscosity, flash point, freezing point, and calorific power. Through Fourier transform infrared spectroscopy (FTIR) analysis, a benchmark was performed on the mixtures of Jet A with 10%, 20%, 30%, 50%, and 100% biodiesel compared with Jet A. The second part of the paper presents the test results of these blends used for fuelling a Jet Cat P80 turbo engine at the Turbo Engines Laboratory of the Aerospace Engineering Faculty of Polyethnic University of Bucharest. These functional tests were performed using different operating regimes as follows: idle, cruise, intermediate, and maximum. For each regime, a testing period of around 1 min was selected and the engine parameters were monitored during the test execution. The burning efficiency was calculated for the maximum regime for all mixtures. To evaluate the functioning stability of the turbo engine using biodiesel, two accelerometers were mounted on the engine support that recorded the radial and axial vibrations. Moreover, to assess the burning stability and to identify other acoustic spectral components when biodiesel is used, two microphones were placed near the jet region. A comparative analysis between blends was made by taking the Jet A fuel as reference.
topic biodiesel
recycled pork fat
turbo engine performance
bio-aviation fuel
url https://www.mdpi.com/2227-9717/8/9/1196
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