Conditions for Energy Efficient Heat Supply Based on the Transformed Heat of Soil and Air Flows-Reference-Cited by-同舟云学术

Conditions for Energy Efficient Heat Supply Based on the Transformed Heat of Soil and Air Flows

Published:2023-06-02 Issue:3 Volume:66 Page:260-272
ISSN:2414-0341
Container-title:ENERGETIKA. Proceedings of CIS higher education institutions and power engineering associations
language:
Short-container-title:Izv. vysh. ucheb

Author:

Petrash V. D.¹,Khomenko O. I.¹,Basist D. V.¹,Golubenko A. V.¹

Affiliation:

1. Odessa State Academy of Civil Engineering and Architecture

Abstract

Based on the analysis of thermohydraulic processes and the structural and functional structure of the proposed system of heat and cold supply of buildings, a multifactorial dependence of the actual conversion coefficient was established to assess the efficiency of transformation of the heat taken from the soil massif and ventilation air. It allows modeling the individual influence of the initial parameters and operational modes of the system in the search for rational conditions for the highly efficient use of energy flows for heat and cooling supply of buildings during the corresponding periods of the year. The results of a qualitative assessment of the multifactorial interrelation of the actual conversion coefficient substantiated the possibility of energy efficient operation of the analyzed system, which is provided under the design conditions of the heating period when the ratio of circulating flow rate through the evaporator and condenser of heat pump is higher than 1.8, which is rational for sports, recreation, shopping and entertainment complexes. The improved structural and functional arrangement of the system based on a binary low-temperature source increases the efficiency of vapor compression transformation of energy flows, indirectly confirming the advisability of maximizing the use of the energy potential of ventilation air during the year with a corresponding accumulation of excess heat in the soil mass, and, consequently, the possibility of reducing the depth of expensive wells or the number of probe heat exchangers.

Publisher

Belarusian National Technical University

Subject

Energy Engineering and Power Technology,Nuclear Energy and Engineering,Renewable Energy, Sustainability and the Environment

Reference20 articles.

1. Østergaard P. A., Andersen A. N. (2018) Economic Feasibility of Booster Heat Pumps in Heat Pump-Based Heating Systems. Energy, 155, 921–929. https://doi.org/10.1016/j.energy.2018.05.076.

2. Pieper H., Ommen T., Emegaard B., Markussen W. B. (2018) Assessment of a Combination of Three Heat Sources for Heat Pumps to Supply District Heating. Energy, 176, 156–170. https://doi.org/10.1016/j.energy.2019.03.165.

3. Martynovskii V. S. (1977) Cycles, Circuits and Characteristics of Thermal Transformers. Мoscow, Energiya Publ. 280 (in Russian).

4. Vasilyev G. P., Gornov V. F., Konstantinov P. I., Kolesova M. V., Korneva I. A. (2017) Ana-lysis of Ground Temperature Variations on the Basis of Years-Long Measurements. Inzhenerno-Stroitel’nyi Zhurnal = Magazine of Civil Engineering, (4), 62–72. https://doi.org/10.18720/MCE.72.8

5. Vasiliev G. P., Gornov V. F., Kolesova M. V. (2014) Theoretical Study and Experiments to Assess the Effectiveness of Combined Using of Low-Grade Soil and Air Heat in Heat Pump Systems. Energobezopasnost' i Energosberezhenie = Energy Security and Energy Saving, (1), 20–24 (in Russian).