Abstract
The main aim of this research is to develop a mathematical model to predict the dissolved oxygen in recirculating aquaculture system. The oxygen consumption of the model through the fish respiration and nitrification and the oxygen addition of the model through oxygen generator and water pumping. The effect of different water temperatures (24, 26, 28, 30 and 32 °C) on the dissolved oxygen consumption through fish respiration, biofilter and nitrification and fish growth were studied. An experiment to measure oxygen consumed by fish respiration and biofilteration and fish growth with the growth period and to validate the model results was carried out. The oxygen consumption predicted by the model was in a good agreement with those measured by the system. The oxygen consumption by fish respiration ranged 12.04 to 47.53 g O2 m−3 h−1 experimentally, while it was from 12.01 to 46.06 g O2 m−3 h−1 theoretically. The predicted and measured oxygen consumption through biofilteration values ranged from 0.43 to 21.91 and 0.45 to 23.09 g O2 m−3 h−1, respectively. The individual fish weight from the system ranged from 3.00 to 209.52 g experimentally while it was from 3.00 to 226.25 g theoretically during the whole period.
Highlights
The main aim of this research is to develop a mathematical model to predict the dissolved oxygen in recirculating aquaculture system
The prediction of dissolved oxygen in recirculating aquaculture system one of the most important way to determine of fish production and essential to the design and evaluate of this system, the main aim of this study is to develop a mathematical model to predict the dissolved oxygen consumption at different water temperature and fish weight
The results indicate that the oxygen consumption through fish respiration increases with increasing water temperature
Summary
The main aim of this research is to develop a mathematical model to predict the dissolved oxygen in recirculating aquaculture system. The effect of different water temperatures (24, 26, 28, 30 and 32 °C) on the dissolved oxygen consumption through fish respiration, biofilter and nitrification and fish growth were studied. The predicted and measured oxygen consumption through biofilteration values ranged from 0.43 to 21.91 and 0.45 to 23.09 g O2 m−3 h −1, respectively. To treat the water in RAS it has to have a system can handle high amount of water to be able to produce higher quantities of fish economically This system needs different types of filters, pumps and tanks to improve the quality of water which in turn controlling disease and ensure higher production[2]. Commercial recirculating aquaculture system has to have an aerator instead of using liquid oxygen, where aerating water with low dissolved oxygen to saturation point but using liquid oxygen could reach supersaturation[3]. The oxygen concentration threshold for warm water species is 50% (absolute value 4.13 mg L−1 at 25 °C) and 60% (6.48 mg L −1 at 15 °C) for salmonids at a fish growing tank effluent[4]
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