Natural-Fibre-Reinforced Composite-Based Micro-Size Wind Turbines: Numerical Analysis and Feasibility Study-Reference-Cited by-同舟云学术

Natural-Fibre-Reinforced Composite-Based Micro-Size Wind Turbines: Numerical Analysis and Feasibility Study

Published:2023-05-11 Issue:5 Volume:7 Page:197
ISSN:2504-477X
Container-title:Journal of Composites Science
language:en
Short-container-title:J. Compos. Sci.

Author:

Raj E. Fantin Irudaya¹,Appadurai M.²,Ram Vishal³^ORCID,Gnaniah Augustine Mathu³,Salkuti Surender Reddy⁴^ORCID

Affiliation:

1. Department of Electrical and Electronics Engineering, Dr. Sivanthi Aditanar College of Engineering, Tiruchendur 628215, India

2. Department of Mechanical Engineering, Dr. Sivanthi Aditanar College of Engineering, Tiruchendur 628215, India

3. Department of Electrical Engineering, Loyola-ICAM College of Engineering and Technology, Chennai 600034, India

4. Department of Railroad and Electrical Engineering, Woosong University, Daejeon 34606, Republic of Korea

Abstract

Due to their inherent advantages, micro-sized horizontal axis wind turbines (HAWT) are preferred over vertical axis wind turbines (VAWT) for urban applications. Typically, HAWTs on the market are constructed using steel, alloys, or fibre-reinforced composites, with the latter being the most economical and stable in comparison to steel and alloy-based HAWTs. Nevertheless, in light of the increased emphasis on cost savings and environmental sustainability, natural-fibre composites have become more desirable. This study focuses on the implementation of flax-fibre-reinforced HAWT wind blades designed for urban applications in particular. The proposed wind blades were designed using CATIA and their feasibility and performance were evaluated via numerical analyses in ANSYS. Structural, modal, and harmonic analyses were conducted under various loading conditions. The results indicate that flax-fibre-reinforced wind blades possess higher natural frequencies, greater stability, and lower deflection amplitudes at resonance frequencies than other materials.

Funder

Woosong University’s (Daejeon, Republic of Korea) Academic Research Funding

Publisher

MDPI AG

Subject

Engineering (miscellaneous),Ceramics and Composites

Link

https://www.mdpi.com/2504-477X/7/5/197/pdf

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