Abstract
This paper describes the use of the method of selective, weighted morphological research by dividing by inventics submorphologies to analyze the equipment for biocompost production. The selective morphological research method was used to find the optimal constructive solution which is then developed in the research, design and testing of an innovative piece of equipment. Using Bellman's principle and the method of morphological analysis, the known constructive solutions will be studied, their weighting will be achieved by dividing by submorphologies and the Bellman diagram will be constructed to determine the weighting coefficient of the optimal solution.
Highlights
IntroductionThe increasing amount of organic waste generated in cities is a major problem for the environment and human health, and one of the solutions to solve this problem is the composting technology
The determination of the optimal AoE solution, maximal, is made starting from Bellman's principle according to which “an optimal policy has the property that whatever the initial state and initial decision are, the remaining decisions must constitute an optimal policy with regard to the state resulting from the first decision.”
The increasing amount of organic waste generated in cities is a major problem for the environment and human health, and one of the solutions to solve this problem is the composting technology
Summary
The increasing amount of organic waste generated in cities is a major problem for the environment and human health, and one of the solutions to solve this problem is the composting technology. The recovery of organic waste produced in kitchens in the production of compost is very important [1]. The first research in this regard was carried out in 1926 in Austria, where an industrial station was built for the transformation of urban organic waste into compost. It is estimated that methane released by the decomposition of organic matter is 26 times stronger than carbon dioxide [5], both being greenhouse gases that affect the environmental sustainability
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