Optimal operation policy for a sustainable recirculation aquaculture system for ornamental fish: Simulation and response surface methodology

- A model was optimized for a sustainable recirculation aquaculture system (RAS) specializing in ornamental fish.
- A modular mathematical simulation model is presented for the RAS.
- The ornamental fish RAS problem was solved through simulation modeling integrated with RSM optimization.
- A step-by-step method is presented to determine optimal operational management regime for ornamental RAS.
- Applying the recommended policy to a case study increases profits nearly 10-fold.

Recirculating aquaculture systems (RAS) require a large investment in construction, equipment and energy. To ensure sufficient return on these investments, RAS operations must be managed meticulously. RAS managers must consider numerous factors related to the biological traits of the fish, logistics, seasonal market demand, and livestock management. RAS that specialize in ornamental fish are faced with particular challenges in that a given species of fish may actually yield several different "products," distinguished, for example, by color, which can be sold at different sizes for different prices. RAS managers need to consider the market prices of different-sized fish in the light of their production costs (cost of food and space, dependent on time in the system). The current study aims to develop an optimization model for the operations management of RAS specializing in ornamental fish. The objective of the model is to maximize annual profit. The methods used include: a general simulation model, built in Arena 11.0®, that seeks to mimic the studied system; an optimization procedure based on response surface methodology (RSM), including design of simulation experiments, stepwise regression (in SPSS® 11.0), and a nonlinear objective function and constraints solved with MATLAB®. The method is demonstrated in a case study-a RAS on Kibbutz Hazorea, Israel, raising ornamental koi fish (Cyprinus carpio).