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Abstract
Salmon farming in Chile constitutes one of the nation's principal food exporting sectors. In the seawater stage, one of the most important in the farm production chain, salmon are cultivated in floating cages fitted with nets that hold the fish during the entire grow-out process. The maintenance of the cage nets is carried out at land-based facilities. This article reports on the creation of an integer programming tool for grow-out centres that optimizes resource use, improves planning and generates economic evaluations for supporting analysis and decision-making relating to the maintenance, repair and periodic changing of cage nets. The tool prototype was tested in a single operating area of one of Chile's largest salmon farmers. The results demonstrated a reduction in net maintenance costs of almost 18%, plus a series of important qualitative benefits. Implementation of the tool by farm operators awaits the end of the current crisis in the industry.
Acknowledgements
The authors are grateful to CORFO (Chilean government program), Salmones Multiexport S.A. and the Chilean Science Institute ‘Complex Engineering Systems’ (ICM: P-05-004-F; CONICYT: FBO16; www.isci.cl) for their financial support in carrying out this project. Thanks are also due to Fredi Espinoza for his contribution to the analysis of the proposed tool's impact, Juan Pablo Zanlungo for his efforts in gathering statistics on the Chilean salmon farming industry, Javier Marenco for his support at various stages of the study, Kenneth Rivkin for his many useful suggestions, and Rodrigo Niklitschek of Salmones Multiexport for his collaboration in bringing this project to fruition. The third author was partly financed by Fondecyt grant 1110797 (Chile), ANPCyT PICT-2007-00518 (Argentina), and UBACyT grant 20020100100980 (Argentina), and the fifth author was partly financed by Fondecyt grant 1100265 (Chile).