Abstract
An analysis is performed of thermal gasdynamic conditions for experiments to determine toxity of combustion products with a fire in a room. Consideration is given to mathematical models of calculating heat and mass transfer parameters in characteristic small- and large-scale rooms. Results of numerical experiments on determining the density of carbon oxide formed in combustion of benzene and turbine oil in stabilized combustion are presented. It is shown that the coefficient of heat loss is a necessary criterion of the equality of toxity indices in a small-scale experimental setup and in an actual room.
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