POSSIBILITIES OF APPLYING A LOW-TEMPERATURE CENTRALIZED HEAT SUPPLY NETWORK IN A MULTI-APARTMENT BUILDING DISTRICT

Mokslas - Lietuvos ateitis Pub Date : 2024-06-13 DOI:10.3846/mla.2024.21317

Edita Rugieniūtė, Juozas Bielskus

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Abstract

Lithuania‘s district heating (DH) network tends to maintain high heat transfer temperatures, which limit the efficiency of the system. The aim of this study is to assess the impact of DH and reduced heat transfer temperature in the building on space heating and the possibility of reducing the heat transfer temperature (down to 60 °C) in the DH network by looking at different scenarios and the heat demand of buildings. Three alternatives were analysed: the installation of a temperature-lowering module (mixing unit) in the thermal chamber and the retro-fitting of existing piping and heating appliances, where the temperature of the DH fluid is lowered up to 60 °C and the temperature of the radiators is lowered to 60/40/20. The possibility of lowering the DH heat transfer temperature without upgrading the network by installing heat pumps individually in the buildings or in the heat chamber is examined. An hourly data analysis of a 2-year heating system model for a typical building showed that lowering the DHW temperature to 60 °C and leaving the existing area of heating appliances in the building will not meet the heat demand of the buildings.

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在多公寓楼区应用低温集中供热网络的可能性

立陶宛的区域供热（DH）网络往往保持较高的传热温度，从而限制了系统的效率。本研究的目的是评估区域供热和降低建筑物内传热温度对空间供热的影响，以及通过考察不同的方案和建筑物的热需求来降低区域供热网络传热温度（低至 60 °C）的可能性。分析了三种替代方案：在热室中安装一个降温模块（混合装置），以及对现有管道和供暖设备进行改造，将 DH 流体的温度降至 60 °C，将散热器的温度降至 60/40/20。通过在建筑物或热室中单独安装热泵，研究了在不升级管网的情况下降低 DH 传热温度的可能性。对典型建筑的 2 年供热系统模型进行的每小时数据分析显示，将 DHW 温度降至 60 °C，并保留建筑内现有的供热设备面积，将无法满足建筑的供热需求。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Mokslas - Lietuvos ateitis

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