Environmental and Sustainability Aspects of an Aviation Auxiliary Power Unit Analyzed with the Aid of Exergy C.V. Raman College of Engineering

Format:

Conference/Event

Author/Creator:

Sahu, Sahu, author.

Contributor:

Sahu, Mithilesh Kumar

Conference Name:

SAE/JSAE Small Engine Technology Conference (2018-11-06 : Dusseldorf, Germany)

Language:

English

Physical Description:

1 online resource

Place of Publication:

Warrendale, PA SAE International 2018

Summary:

AbstractDuring the past decade environmental and sustainability issues have become major problems to overcome since they have caused regional and global consequences. This paper discusses the environmental and sustainability aspects of Gas Turbine (GT) based aviation Auxiliary Power Unit (APU) analyzed with the aid of exergy. Exergy analysis is a potential tool to determine exergy destructions and losses and their true magnitudes and exact locations. In this study some exergy based parameters such as: exergetic efficiency, waste exergy ratio, exergy recoverability ratio, exergy destruction ratio, environmental impact factor, and exergetic sustainability index are proposed and investigated. Cycle operating parameters such as compressor-pressure-ratio (rp,c), Turbine Inlet Temperature (TIT) have been chosen for analysis of the gas turbine cycle based APU. Mathematical modeling of the cycle has been done and the same has been coded in MATLAB. Results show that increasing waste exergy ratio decreases the exergetic efficiency and exergetic sustainability index. However, any increase in waste exergy ratio results in an increasing environmental impact of the GT cycle based APU. Exergetic efficiency, waste exergy ratio, exergy destruction ratio, environmental impact factor, and exergetic sustainability index are found to be 14.51%, 0.8549, 0.8349, 5.8917 and 0.16973 respectively for the overall cycle (rp,c= 3 and TIT =1300K). These results would be useful to make it more sustainable for future development

Notes:

Vendor supplied data

Publisher Number:

2018-32-0071

Access Restriction:

Restricted for use by site license