Кovalyuk D. Modeling of heat engineering distributed parameter object

Subject of inquiry is the processes of thermal treatment of wares in heat engineering distributed parameter object. The work purpose is an enhancement of efficiency of modeling heat engineering distributed parameter object methods. At performed researches in work used: numerical methods and methods of the mathematical programming, fuzzy logic, neural network, positions and methods of probability theory and mathematical statistics, estimation theory. As a result of the performed researches the theoretical, algorithmic providing and software were developed for modeling and optimization of heat engineering distributed parameter object on the example of ceramics burning tunnel kiln. The modeling method of heat engineering distributed parameter object, combines the classic finite-difference methods and fuzzy logic methods, is first offered in work. The optimal parameters determination method of heat engineering distributed parameter object, which suggests clarification of model parameters on risk of decision-making assessment basis within the control process and prediction of products quality, is first offered also. Mathematical models of technological process for producing of ceramics account for parameters of technological process result that enables to decrease a degree of model complexity for the account of additional information, besides parameters of heat engineering object are improved. The practical significance of the got results consists in development of method, algorithms, software for optimization of heat engineering distributed parameter object. Degree of introduction - within the limits of industry. Sphere (industry) of the use - metallurgy, chemical and build materials industries.