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Abstract

The paper describes a technique and algorithm allowing to perform parametric design of smart-type heat and moisture converters (hereinafter SHMC) of fine-grained dispersive materials based on their criteria of accuracy and speed. The proposed algorithm optimizes the process of design of smart-type switches and ensure optimal performance of the switches. The method of calculation and selection of optimal parameters of smart-type heat and moisture converters intended to be used in the measurement of parameters such as heat and humidity of fine dispersive substances are aimed at boosting two parameters, i.e., the accuracy and speed. Also, the design stages have been described. The key parameters for accuracy and speed criteria of smart-type converters were selected and calculated in the course of the design process by applying the proposed algorithm. The authors suggest that the proposed algorithm will serve as a valuable tool for engineers designing heat and moisture converters.

First Page

36

Last Page

41

References

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