TEMPERATURE DISTRIBUTION IN WALLING WITH THERMAL BARRIER

Authors

  • О.С. Соломаха National Technical University of Ukraine «Kiev Polytechnic Institute», Ukraine
  • Є.В. Новаківський National Technical University of Ukraine «Kiev Polytechnic Institute»,
  • О.М. Недбайло Institute of Engineering Thermophysics of the National Academy of Sciences of Ukraine,

DOI:

https://doi.org/10.15673/0453-8307.5/2014.28702

Keywords:

thermal barrier, energy pile.

Abstract

We consider mitigation of heat consumption for heating by conventional energy by using low-grade energy in the soil thermal barrier. Thermal barrier is a system of pipelines, which is located in the opaque envelope between the insulation and bearing walls. Feed warm or cold coolant in the winter or summer respectively can reduce heat loss or heat leakage everywhere envelope. The paper investigates the heat loss through the envelope with thermal barrier, temperature distribution inside the wall, depending on the ambient temperature. The influence of the thickness of the bearing wall envelope and insulation thickness on the temperature distribution in the middle of the wall Found minimum coolant temperature in the thermal barrier and the analysis of the transformation coefficient of thermal heat pump capacity building needs of the coolant at the inlet of the thermal barrier. Constructed depending the heat and heat the room, depending on the volume of heat thermal barrier. Energy savings are calculated as a percentage of heating and cooling, depending on the volume of heat (heat consumption) thermal barrier in the summer and winter periods. 

References

REFERENCES

Solomakha O.S., Novakivskyy E.V., Nedbai-lo O.М. Method of calculation thermal barrier parameters for heating and cooling needs // Prom. teplotechnika, 2014, v. 36, №36, 89-93p.

Sokolov E.Y., Brodianskyy V.M. Power bases of the transformation of heat and cooling processes – М.: Energoizdat, 1981. – 320p.

Літературне подання

Соломаха О.С., Новаківський Є.В., Недбай¬ло О.М. Метод розрахунку параметрів теплового бар’єра для потреб тепло- та холодопостачаня // Пром. теплотехника, 2014, т. 36, №3, стр. 89-93.

Соколов Е.Я., Бродянский В.М. Энергети-ческие основы трансформации тепла и процес¬сов охлаждения. – М.: Энергоиздат, 1981. – 320 с.

Published

2014-10-28

Issue

Section

Power engineering and energy saving