The Danish recirculating aquaculture system has been introduced to Taiwan for nearly 30 years and has become the most common recirculating aquaculture technology in Taiwan. It uses a centralized manner to treat all water bodies, more suitable for large-scale farmers or research institutions than smaller ones. In this study, we intend to develop a distributed intelligent recirculation aquaculture system to solve some shortages of the Danish system. This research focuses on simplifying the composition of the current recirculating filtration system, reducing the needed area of theequipments and their connecting pipelines, using only a set of pumps to drive the water flow, improving the method of oxygenation, adding intelligent control functions, and making the operation easier, and the biological filter material easy to clean and maintain. This system integrates the drum microfilter, the water storage buffer tank and the aeration device into one unit, and can remove most of the fish excrement and residual bait. This recirculation aquaculture system is designed based on a capacity of 25 kilogram of fish. After a tilapia (Oreochromis niloticus) culturing experiment, the test results show that the design of fish excrement separator can achieve a mechanical removal rate of up to 80% by using an oblique screen and the assistance of the disposable white cotton. The multi-function tank uses Ardiuno and several modules to monitor water quality, maintain the water level, and automatically adjust these functions. There is a spray aeration device in the tank which can quickly increase the dissolved oxygen content of the water. In the case of insufficient dissolved oxygen in the main culture tank, , it could automatically start the backwater device to greatly reduce the biological oxygen consumption increased by fish metabolism after feeding. The biological filter is filled with K1 filter material, and through the annular aerator, to help the filter material to flow freely and self-clean ability. Oxygen consumption and nitrification conditions of 34, 44 and 55 kilograms are tested. The daily feed amount is 2% of the total fish weight. As a basis, after the determination of total ammonianitrogen, nitrite and nitrate, the system can maintain the concentration of TAN below 0.5 ppm when the amount of fish is less than 44 kg, and the upper limit of nitrification capacity is between 44 and 55 kg of fish . To increase the capacity of fish, it is necessary to increase the amount of the filter material. Normally, the dissolved oxygen in the culture tank is above 5 ppm. However, the situation where oxygen consumption is greatly increased due to post-feeding restlessness can be controlled by the smart sensor module. The backwater device can slow down the drop in dissolved oxygen and reduce the duration of hypoxia. The water circulation rate of the system is 31 times a day, and the power consumption is about 11.2 kW-h per day. The area and cost are 3 m2 and 81790 NTD respectively. It can breed considerable economic or experimental fish species with a very small area, suitable for small or amateurish Types of farmers, restaurants, experimental institutions, and fish fry breeding farms.