Please use this identifier to cite or link to this item:https://hdl.handle.net/20.500.12259/85152
Type of publication: Straipsnis recenzuojamoje užsienio tarptautinės konferencijos medžiagoje / Article in peer-reviewed foreign international conference proceedings (P1d)
Field of Science: Mechanikos inžinerija / Mechanical Engineering (T009)
Author(s): Brazdeikis, Liudas
Title: Брикет субстрата для выращивания шампиньонов в системе автоматического регулирования температуры
Other Title: Bruquette of champignons growing substratum in the automatic control system of temperature
Is part of: Селскостопанска техника. , Год. 15, № 5-6 (2003)
Extent: p. 218-221
Date: 2004
Note: Šiame numeryje išspausdinta tarptautinės konf. "Хидромелиорациите и механизацията - фактори за устойчиво развитие на земеделието", vykusios 2003 m. rugsėjo 8-10 d. Sofijoje (Bulgarija), medžiaga
Keywords: The growing of the champignons;Substratum briquette;Temperature;Transfer function
Abstract: The goal of the research - to describe mathematical the briquette of champignons growing substratum as the object of temperature automatic control system (ACS), to establish the transfer function of the briquette. It was designet the model of the temperature variation in the briquette of the substratum. The temperature reaction curve of the briquette was calculated by simulation. The temperature transfer function of the substratum briquette was formed from reaction curve using the automatic control methods which is already known. In order to check the simulation results, experimental researches were done. During those researches the transitive processes of the temperature in the centre of substratum briquette were registered. After editing the curves, which were registered, it was formed the experimental transitive function of the temperature in the centre of substratum briquette. The transfer functions, which were received during simulation and experiments, were compared with the experimental transitive processes. It was established that the substratum briquette in the ACS of temperature might be simulated and analysed as first order nonperiodical element with dead-time
Internet: https://hdl.handle.net/20.500.12259/85152
Affiliation(s): Vytauto Didžiojo universitetas
Žemės ūkio akademija
Appears in Collections:Universiteto mokslo publikacijos / University Research Publications

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