Abstract
Given the ecological burden imposed by power plants located in the coastal zone, efforts to improve the marginal benefits realized from their operation are warranted. Indeed, if this source of environmental pollution can be utilized to compensate for past ecological damage, then the benefits will be magnified many-fold.
This study addresses the economic feasibility of utilizing heated effluent water from power plants to invigorate the growth of oysters raised under controlled conditions. The preliminary findings indicate that given proper combinations of system capacity, supplemental nutrient supplies, sea water flow and temperature gradients, such an operation is feasible.
This is also a demonstration of a viable application of a sophisticated computer modeling approach to environmental problems. “System Dynamics” a technique pioneered at the Massachusetts Institute of Technology, is applied to evaluate the physical, biological, and economic interrelationships of the aquacultural system variables. It offers many advantages for the environmental manager and researcher, a number of which are realized in the present investigation.
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Callaghan, D.W., Callaghan, S.S. & Comerford, R.A. Evaluating aquacultural use of thermal effluents: An application of system dynamics to environmental problem solving. Environmental Management 1, 227–234 (1977). https://doi.org/10.1007/BF01867286
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DOI: https://doi.org/10.1007/BF01867286