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Journal article

Technical assessment of electric heat boosters in low-temperature district heating based on combined heat and power analysis

In Energy 2018, Volume 150, pp. 938-49

By Cai, Hanmin1,2,3; You, Shi1,2; Wang, Jiawei1,2; Bindner, Henrik W.1,2,3; Klyapovskiy, Sergey1,2,3

From

Department of Electrical Engineering, Technical University of Denmark1

Center for Electric Power and Energy, Centers, Technical University of Denmark2

Energy System Management, Center for Electric Power and Energy, Centers, Technical University of Denmark3

This paper provides a technical assessment of electric heat boosters (EHBs) in low-energy districts. The analysis is based on a hypothetical district with 23 terraced single-family houses supplied by both a lowtemperature district heating (LTDH) network and a low-voltage network (LVN). Two case studies are provided to show the active role of EHBs in a smart energy system (SES).

The first case compares annual heat and power flow analyses for LTDH at five supply temperature levels, focusing on their impacts. The results show that district heating network (DHN) losses can be reduced by 35% if the supply temperature is reduced from 70 C to 50 C, but the LVN peak power will have to be increased by up to 2% using heat boosting.

The second case further aggregates EHBs to provide a fuel shift (FS) service for the DHN. The results show that while LVN peak power was increased by up to 4.3%, the basic power production and peak boiler usage for DHN could be reduced by as much as 15% and 48%, respectively. In summary, lower supply temperatures and intelligent components can improve system efficiency and turn the DHN into an integrated part of a SES.

Language: English
Year: 2018
Pages: 938-49
ISSN: 18736785 and 03605442
Types: Journal article
DOI: 10.1016/j.energy.2018.02.084
ORCIDs: Cai, Hanmin , You, Shi , Wang, Jiawei , Bindner, Henrik W. and Klyapovskiy, Sergey
Keywords

4GDH Combined heat and power Electric heat boosters Fuel shift Low-temperature district heating SDG 7 - Affordable and Clean Energy Smart energy systems

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