Open AccessMODERNIZATION OF THE HEATING SYSTEM BY APPLYING A TURBO FIREPLACE AND INTEGRATOR
Author(s) -
І. Р. Ващишак,
O. Lavryk
Publication year - 2018
Publication title -
rozvìdka ta rozrobka naftovih ì gazovih rodoviŝ
Language(s) - English
Resource type - Journals
eISSN - 2415-332X
pISSN - 1993-9973
DOI - 10.31471/1993-9973-2018-4(69)-57-69
Subject(s) - battery (electricity) , microcontroller , integrator , turbo , thermoelectric generator , automotive engineering , heating system , block (permutation group theory) , power (physics) , thermoelectric effect , work (physics) , engineering , computer science , electrical engineering , mechanical engineering , voltage , physics , geometry , mathematics , quantum mechanics , thermodynamics
The importance of the work is based on the necessity of developing energy-efficient heating systems in the conditions of rapid increase of energy prices. Heating systems for buildings and fuels for them are analyzed. It is established that a combined heating system with several sources of thermal energy, one of which is turbo fireplace is the most energy-efficient. The processes in fireplaces with a water loop are considered. The design of turbo fireplace is improved by applying a thermoelectric battery. The elements of the thermoelectric battery are selected and its power is determined. The power of the integrated heating system of the building is calculated. The block scheme of the integrated heating system is considered. The heating system integrator is selected. The algorithm of microcontroller operation with advanced turbo fireplace with a thermoelectric battery is developed and a microcontroller operation is chosen. The algorithm of the integrated heating system developed an algorithm for the operation of its microcontroller.