Saving of energy resources by using a software heat supply

Authors

  • Богдан Андрійович Кутний Poltava National Technical University named after Yuri Kondratyuk Pervomayskiy 24, Poltava, Ukraine, 36601, Ukraine
  • Анна Олегiвна Борисюк Poltava National Technical University named after Yuri Kondratyuk Pervomayskiy 24, Poltava, Ukraine, 36601, Ukraine

DOI:

https://doi.org/10.15587/1729-4061.2013.14829

Keywords:

Software supply of heat, walls, wall insulation, economic effect

Abstract

Despite the need for compliance with acceptable microclimate parameters nowadays one of the main issues is the energy resources saving that are used to create these very conditions. The software supply of heat is a tool which permits to maintain microclimate parameters during working hours and save energy resources by reducing the temperature of indoor air in buildings after working hours.

The need to optimize the energy saving effect with the program regulation is the objective of the research. The temperature mode calculations were performed on the basis of the thermophysical data of 2 storey brick office building, the building number 9 of Poltava National Technical University. of Yu. Kondratyuk, city of Poltava. The calculations of heat expenditure were made subject to the application of software control for three options of wall insulation: insulation of the exterior walls from the outside, insulation of the interior walls on both sides and the simultaneous insulation of the exterior and interior walls. The calculations were performed for different air temperatures.

The calculation results show that the use of software supply of heat in non-insulated building provides relatively small energy resources saving (5%). The maximum effect from the supply of heat can be obtained by the insulation of the exterior and interior walls. The comparison of saving of heat from the insulation of the exterior and interior walls shows that the insulation of the interior walls provides greater economic effect. Application of software supply with the insulation of walls provides energy saving for15 ÷ 20%

Author Biographies

Богдан Андрійович Кутний, Poltava National Technical University named after Yuri Kondratyuk Pervomayskiy 24, Poltava, Ukraine, 36601

Docent

Department of heat, gas supply, ventilation and heat power engineering

Анна Олегiвна Борисюк, Poltava National Technical University named after Yuri Kondratyuk Pervomayskiy 24, Poltava, Ukraine, 36601

Graduate

Department of heat, gas supply, ventilation and heat power engineering

References

  1. ДБН В2.6-31:2006 «Конструкції будинків і споруд. Теплова ізоляція будівель» – Київ: Мінбуд України, 2006. – 68 с.
  2. Богословский, В.Н. Тепловой режим здания / В. Н. Богословский. – М.: Стройиздат, 1979. – 248 с.
  3. Строй, А.Ф. Управление тепловым режимом зданий и сооружений / А.Ф. Строй. – К.: Вища шк., 1993. –155с.
  4. Табунщиков, Ю.А. Энергоэффективные здания / Ю.А. Табунщиков, М. М. Бродач, Н. В. Шилкин. – М.: АВОК-ПРЕСС, 2003. – 200 с.
  5. Чистович, С.А. Автоматическое регулирование расхода тепла в системах теплоснабжения и отопления / С.А. Чистович. – Л.: Стройиздат, 1975. – 159 с.
  6. Столпнер, Е.Б. Программный отпуск тепла в системах отопления жилых и общественных зданий / Е.Б. Столпнер, И.Б. Шаган // Пути экономии топлива в городском хозяйстве: сб.тр. Материалы к семинару 5-7 сентября 1972г. ЛДНТП, 1972. – С. 65 – 69
  7. Зингер, Н.М. Исследование нестационарного режима подачи тепловой энергии на отопление / Н.М. Зингер, Ю.В. Кононович, A.Л. Бурд // Изв. вузов. Энергетика. 1987. - № 8. – С. 75 – 81
  8. Сафронов, А.П. Автоматизация систем централизованного теплоснабжения / А.П. Сафронов. – М.: Энергия, 1974. – 272 с.
  9. Богуславский, JI.Д. Снижение расходов энергии при работе систем отопления и вентиляции / Л.Д. Богуславский. – М.: Стройиздат, 1985. – 342 с.
  10. Борисюк А.О. Моделирование тепловлажностного режима помещений при программном отпуске теплоты / А.О. Борисюк, Б.А. Кутный // Материалы Тринадцатой Международной научной конференции «Новые идеи нового века-2013». Том2. – Хабаровск: ТОГУ, 2013. – С. 232 – 238
  11. SBC V.2.6-2006. Construction of buildings and structures. Thermal insulation of buildings. Кyiv, 2006
  12. Bogoslavsky, V. N. (1972). Thermal conditions of the building. Moscow, USSR: Stroyizdat.
  13. Stroy, А. F. (1993). Control of thermal modes of buildings and structures. Kyiv: High School.
  14. Tabynshikov, Y. А. (2003). Energy Efficient Buildings. Мoscow: АVОК-PRESS.
  15. Chistovich, S. А. (1975). Automatically controlling the flow of heat in systems of heat supply and heating systems. Leningrad, USSR: Stroyizdat.
  16. Stolpner, Е. B. (1972). A software heat supply in heating systems of residential and public buildings. Leningrad, USSR.
  17. Zunger, N. М. (1987). The study of unsteady flow regime of thermal energy for heating. USSR: Energetics.
  18. Safronov, А. P. (1974). Automation of district heating systems. Мoscow: Energy.
  19. Bogyslavsky, L. D. (1985) Reduce the cost of energy in the operation of the heating and ventilation. Moscow , USSR: Stroyizdat.
  20. Borisyuk, A. O., Kytnuy B. A. (2013). Design of warm and damp conditions of protective constructions at the attempt of program control of warmth issue. Proceedings of the Thirteenth International Conference on "New ideas of the century", (2), 232-238.

Published

2013-06-20

How to Cite

Кутний, Б. А., & Борисюк, А. О. (2013). Saving of energy resources by using a software heat supply. Eastern-European Journal of Enterprise Technologies, 3(8(63), 18–20. https://doi.org/10.15587/1729-4061.2013.14829

Issue

Section

Energy-saving technologies and equipment