Evaluation of Ship Hull Fouling In Various Seaports Using The MOORA Method

Ports Due to shipping, large coastal towns are vulnerable to exotic species. The Port of Recife gets an average of 491 vessels annually from other regions of Brazil and from abroad. Identify and monitor fresh biological intrusions, which marine creatures ignore the purpose is to understand how ships are moved around the region. Thus, 32 ships of different nationalities were examined between November 2005 and March 2006, samples were collected, and macrofauna were identified. of companion creatures Twenty-eight sessile species, primarily Cirripedia palanomorpha and Lepatomorpha, eight sessile animals, namely Mytilidae and Dreichenidae, and twenty-three free-living species, specifically Cabrellidae, Commaridae, Tanoidacea, and Tanoidacea Polychaeta, were discovered. Conchoderma auretum, Amphibalnus subalpidus, and Halliplanella lineata were also discovered for the first time in the coastal region of the state of Pernambuco. Conchoderma was the first to occur exactly in a locality that had been recorded for the Brazilian coast. Invasive species in the city of Recife’s littoral area It was determined how Amphibalanus reticulatus and Mytilopsis entered the country. leucophyta. For the area, Megabalanus coccophoma was regarded as an endangered invasive species. Costs are increased by extra NIS in stabilized water and mitigation efforts to lessen the transport of sediments. utilizing smaller vessels in European waters at proportionately higher costs the operational cost of NIS reduction measures, according to our estimates, may be between 1.6% and 4% of the yearly running cost per vessel. However, variations in the species’ life histories and contamination by NIS brought on by local species More than just fouling antifouling coatings and their resistance to fouling can have an impact on fuel usage. As a result, NIS is more expensive than NIS’s higher fuel consumption.  Mitigation steps might not be very expensive.

Tribou, Melissa, and Geoffrey Swain. “Grooming using rotating brushes as a proactive method to control ship hull fouling.” Biofouling31, no. 4 (2015): 309-319.

Holland, Nina T., Martyn T. Smith, Brenda Eskenazi, and Maria Bastaki. “Biological sample collection and processing for molecular epidemiological studies.” Mutation Research/Reviews in Mutation Research543, no. 3 (2003): 217-234.

Babar, M. A., M. P. Reynolds, M. Van Ginkel, A. R. Klatt, W. R. Raun, and M. L. Stone. “Spectral reflectance to estimate genetic variation for in‐season biomass, leaf chlorophyll, and canopy temperature in wheat.” Crop science46, no. 3 (2006): 1046-1057.

Fu, Weiqi, Amphun Chaiboonchoe, Basel Khraiwesh, Mehar Sultana, Ashish Jaiswal, Kenan Jijakli, David R. Nelson et al. “Intracellular spectral recompositioning of light enhances algal photosynthetic efficiency.” Science advances3, no. 9 (2017): e1603096.

Poulhazan, Alexandre, Malitha C. Dickwella Widanage, Artur Muszyński, Alexandre A. Arnold, Dror E. Warschawski, Parastoo Azadi, Isabelle Marcotte, and Tuo Wang. “Identification and quantification of glycans in whole cells: architecture of microalgal polysaccharides described by solid-state nuclear magnetic resonance.” Journal of the American Chemical Society143, no. 46 (2021): 19374-19388.

Chakraborty, Shankar. “Applications of the MOORA method for decision making in a manufacturing environment.” The International Journal of Advanced Manufacturing Technology54 (2011): 1155-1166.

Chakraborty, Shankar. “Applications of the MOORA method for decision making in a manufacturing environment.” The International Journal of Advanced Manufacturing Technology54, no. 9 (2011): 1155-1166.

Karande, Prasad, and Shankar Chakraborty. “Application of multi-objective optimization on the basis of ratio analysis (MOORA) method for materials selection.” Materials & Design37 (2012): 317-324.

Gorener, Ali, Hasan Dinçer, and Umit Hacioglu. “Application of multi-objective optimization on the basis of ratio analysis (MOORA) method for bank branch location selection.” International Journal of Finance & Banking Studies (2147-4486)2, no. 2 (2013): 41-52.

Gadakh, V. S., Vilas Baburao Shinde, and N. S. Khemnar. “Optimization of welding process parameters using MOORA method.” The International Journal of Advanced Manufacturing Technology69, no. 9 (2013): 2031-2039.

Karande, Prasad, and Shankar Chakraborty. “A Fuzzy-MOORA approach for ERP system selection.” Decision Science Letters1, no. 1 (2012): 11-21.

Brauers, Willem Karel M., Romualdas Ginevičius, and Valentinas Podvezko. “Regional development in Lithuania considering multiple objectives by the MOORA method.” Technological and economic development of economy16, no. 4 (2010): 613-640.

Mavi, Reza Kiani, Mark Goh, and Navid Zarbakhshnia. “Sustainable third-party reverse logistic provider selection with fuzzy SWARA and fuzzy MOORA in plastic industry.” The International Journal of Advanced Manufacturing Technology91, no. 5 (2017): 2401-2418.

Chand, Mahesh, Neha Bhatia, and Rajesh Kumar Singh. “ANP-MOORA-based approach for the analysis of selected issues of green supply chain management.” Benchmarking: An International Journal(2018).

D. Logesh, P. Thavarajan, N. Anish Kafoor, S. Manivannan, ” Evaluation of Ship Hull Fouling In Various Seaports Using The MOORA Method”, Journal on Materials and its Characterization, 2(1), (2023):1-8.