[en] An economic feasibility analysis was performed for a proposed waste-heat aquaculture system that uses a tilapia polyculture concept. The system is designed to use waste water nutrients to grow plankton which is fed to the fish. The system was judged to be economically viable if fish production costs of $1.32/kg (60 cents/lb) or lower were achieved for production rates that have been experimentally verified. The results of the analysis indicate that the system is economically viable if capital costs are annualized using a 15% fixed charge rate (FCR). Feasibility of the system at a 25% FCR depends upon aeration turnover time and system food conversion efficiency. Eliminating cages from the system design decreases the capital costs and improves the economic potential of the system. Additional capital cost reductions are possible if the aerators are removed from the system. However, expected fish production rates are also decreased and the system does not appear economically viable for a 25% FCR. System design modifications due to biological considerations included lining the algal pond with a plastic liner and using commercial fertilizers in place of organic waste streams. Lining the algal ponds did not affect the feasibility of the system at a 15% FCR but did result in the system becoming economically unattractive at a 25% FCR. The use of commercial fertilizers added 15 cents/kg (7 cents/lb) to the production but did not have serious adverse effects on the feasibility of the system. The system appears to have economic promise and should be examined further. Operation of a small expermental system to verify the estimated performance parameters is needed