SIMULATION MODEL FOR DESIGN AND MANAGEMENT OF WATER RECIRCULATING SYSTEMS IN AQUACULTURE
• 2012
معلومات البحث
المؤلفون
El-Sayed Khater
الكلمات المفتاحية
Not Available
المجلة العلمية
Not Available
الناشر
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المجلد
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العدد
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الصفحات
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publication.type
International
رابط البحث
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المواد المرفقة
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الملخص
A simulation model for design and management of water recirculating aquaculture systems was developed. The model was able to predict the water temperature and energy consumption at different air ambient temperature (23, 25, 27, 29 and 31 ºC) and to predict the oxygen consumption, ammonia production and nitrate production at different water temperatures (24, 26, 28, 30 and 32 ºC). Also, the model was able to predict the solids generation at different water depths (0.8, 1.0, 1.2, 1.4 and 1.6m) and different settling velocities (1.25, 1.67, 2.08, 2.5 and 2.9 m/hour). Experiment was conducted to validate the simulation model results. The results indicated that the average hourly temperature predicted by the model was in a good agreement with those measured by the system, where, it ranged 25.00 to30.90˚C experimentally, while it was from 24.20 to29.86˚C theoretically. The predicted oxygen consumption values were between 189.13 to 457.56 mg O2/kg fish per hour and the measured oxygen consumption values were from 197.42 to 467.61 mg O2/kg fish per hour. The ammonia production from the system ranged from 10.56 to 52.96 mg NH3/kg fish.hour experimentally while it was from 10.45 to 48.61 mg NH3/kg fish.hour theoretically. The nitrate production from the system ranged from 41.61 to 222.31 mg NO3/kg fish.hour experimentally while it was from 45.34 to 210.97 mg NO3/kg fish.hour theoretically. The settleabe solids removal was determined and was found to be between 0.0304 to 0.0556 kg m-3 (30.40 to 55.60 mg l-1) while it was 0.039 kg m-3 (39 mg l-1) theoretically. The suspended solids removal was determined and was found to be between 0.0123 to 0.0806 kg m-3 (12.30 to 80.60 mg l-1) while it was from 0.0124 to 0.1425 kg m-3 theoretically. The weight of individual fish from the system ranged from 4.00 to 115.79 g experimentally, while it was from 4.00 to 130.80 g theoretically. The model results were in a reasonable agreement with the experimental ones.
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