Hydrodynamic Assessment of Seashell Blocks for Coastal Protection

• Published in: JURNAL KEJURUTERAAN
• Main Authors: Shah, Nur Kamalia Khairunnisa Jazrim; Daud, Nurul Rabitah; Koon, Lee Wei; Sreenivasulu, Ganugapenta
• Format: Article
• Language: English
• Published: UKM PRESS 2024
• Subjects: Engineering
• Online Access: https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001421957400037

Traditional coastal protection strategies frequently depend on man-made structures that may have negative environmental impacts and have limited long-term sustainability. There is a pressing need to develop a new approach to address the issues. This study aims to investigate the stability of seashell blocks when exposed to wave forces, the behaviour of seashells when partially submerged, fully immersed, and exposed, and how seashells react to regular and irregular waves. Multiple experiments with varied wave amplitude and frequency are performed using a wave flume maker to evaluate the attenuation of waves. In this study, seashells were used as models with the application of a flume wavemaker in UiTM Shah Alams' laboratory. The models reproduce the effects of ocean waves. However, the research is restricted by the flume wavemakers' dimensions, which are 20 meters in length with the generating equipment and a maximum water depth of 0.4 meters. Parameters including frequency, wavelength, and amplitude were measured using pressure sensors and wave probes. The findings show that the partially submerged seashells performed better in regions with shorter coastal waves. The width of a submerged breakwaters' crest can be cut in half by using seashell blocks. The findings can significantly facilitate the development of long-lasting and efficient coastal protection measures, as well as the design, construction, and monitoring of seashell block structures. Additional research is required to determine the cost, lifespan, and effectiveness of shell blocks in different coastal environments.